Index to volume 13 1984

BRAIN RESEARCH BULLETIN

JULY 1984 VOLUME 13 NUMBER 1 CONTENTS

Atlas of serotonergic cell bodies in the cat brainstem: An immunocytochemical analysis. JACOBS, B. L., P. J. GANNON and E. C. AZMITIA . . . . . . . . . . . . . . . . . . . . . . . .

Alteration of hippocampal B50 phosphorylation after adrenalectomy. DOKAS, L. A., H. ZWIERS and W. H. GISPEN . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Anisomycin blocks the late phase of long-term potentiation in the dentate gyrus of freely moving rats. KRUG, M., B. LijSSNER and T. OTT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Role of the subfornical organ in vasopressin release. MANGIAPANE, M. L., T. N. THRASHER, L. C. KEIL, J. B. SIMPSON and W. F. GANONG . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

The stimulation of prolactin secretion by taurine: Studies on the site of action. SCHEIBEL, J., T. ELSASSER, B. BROWN, R. DOM and J. G. ONDO . . . . . . .

Computer graphics analysis of sleep-wakefulness state changes after pontine lesions. FRIEDMAN, L.andB. E. JONES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Autoradiographic localization of peripheral benzodiazepine binding sites in the cat brain with [3H]PK 11195.

BtiNAVIDfiS, J., H. E. SAVAKI, C. MALGOURIS, C. LAPLACE, M. DANLEL, F. BEGASSAT, M. DESBAN, A. UZAN, M. C. DUBROEUCQ, C. RENAULT, C. GUI?RfiMYandG. LE FUR . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Two latent period processes in Limulus ventral photoreceptors. WULFF, V. J., M. E. BEHRENS, W. J. MUELLER and J. L. FAHY . . . . . . . .

Changes in body temperature and thermosensitivity of preoptic and septal neurons during hippocampal stimulation.

OSAKA, T., T. HORI, T. KIYOHARA, M. SHIBATA and T. NAKASHIMA . .

Ultrastructural study of colchicine neurotoxicity in septohabenulointerpeduncular system. CONTESTABILE, A. and L. VILLANI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ,

The localization of tyrosine hydroxylase-like immunoreactivity in the central nervous system: Methodological considerations.

RENFROE, J. B., R. B. CHRONISTER, J. W. HAYCOCK and J. C. WAYMIRE

Injections of phentolamine into the anterior hypothalamus-preoptic area of rats blocks both pressor and drinking responses produced by central administration of angiotensin II.

JONES, D. L. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Fine structural cytology of the rat subfornical organ during ontogenesis.

DELLMANN, H.-D. and S. J. STAHL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Functional differentiation of hypoglossal motoneurons during the amygdaloid or cortically induced rhythmical jaw and tongue movements in the rat.

KAKU, T. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1

33

39

43

49

53

69

79

93

99

IO9

127

147

147

Contents continued

VOLUME INDEX

Phencyclidhte (PCP): Effects on auditory evoked potentials in the rhesus monkey. MATSUZAKI, M. and K. C. DOWLING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 155

luterpeduncular nucleus organization in the rat: Cytoarchitecture and histochemical analysis. HEMMENDINGER, L. M. and R. Y. MOORE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 163

Calcium-binding protein hnmunocytochemistry in organotypic cultures of cerebellum. HENDELMAN, W. J., S. S. JANDE and D. E. M. LAWSON . . . . . . . . . . . . . . . . 181

Lesions of the sexually dimorphic area disrupt mating and marking in male gerbils. COMMINS, D. and P. YAHR . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 185

BRIEF COMMUNICATIONS

Rat brain slicer: A simple device for rapidly obtaining serial slabs of fresh brain. HENRY, J. L. and K. YASHPAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 195

Effects of ATP and AMP on hippocampal neurones of the rat in vitro.

DI CORI, S. and J. L. HENRY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 199

Subdivisions of the interpeduncuiar nucleus: A proposed nomenclature. LENN, N. J. and G. S. HAMILL . . . . . . . . . . . . . . . . , . . . . . . . . . . . . , . . . . . . . . . . . . 203

On-line data acquisition system using an Appk?M computer: ISI and PST histograms. COHENS, M. S. and D. W. PFAFF . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 205

TECHNICAL REVIEW ....................................................... 225

ANNOUNCEMENTS ......................................................... 227


VOLUME 13 NUMBER 2 AUGUST 1984 CONTENTS

Harmaline disrupts acquisition of conditioned nictitating membrane responses.

TURKER, K. S. and T. S. MILES . . . ..*.....**.........**.............l*... 229

Effect of dopamine receptor blockade or norepinephrine synthesis inhibition on acute, ovariectomy-induced increases in pulsatile luteinizing hormone release in the rat.

LEIPHEIMER, R. E., R. H. ALPER and R. V. GALL0 . . . . . . . . . . . . . . . . . . . . . 235

Effects of morphine and naloxone on hip~ampal CA3 field potentials foIIowing systemic administration in the fr~l~moving rat.

LINSEMAN, M. A. and W. A. CORRIGALL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 241

The effect of hypothalamic temperature on the immune response in the rat.

BRANDT, S.and M. BANET . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 247

maintenance of regional chemical integrity for energy metabolites in microwave heat inactivated mouse brain.

McCANDLESS, D. W., W. B. STAVINOHA and M. S. ABEL . . . . . , +. . . . . . . . 253

Inhibition of brain acetylcholine biosynthesis by methyldopa in spontaneously hypertensive rats.

BUCCAFUSCO, J. J. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..*.*.....**....*... 257

Hyperthermic response of the cat to intraventricular injection of the opioid delta-receptor agonist D-Ala2-D-Leu5-enkephalin.

PANG, I.-H., G. L. BERNARDINI and W. G. CLARK . . . . . . . . . . . . . . . . . . . , . . 263

Ultrastructural morphology of dopaminergic nerve terminals and synapses in the striatum of the rat using tyrosine hydroxyla~ immun~yt~hemistry: A to~graphical study.

ARLUISON, M., M. DIETL and J. THIBAULT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 269

Steady-state visual evoked responses in anesthetized monkeys.

KLEMM, W. R., R. A. GOODSON,and R. G. ALLEN . . . . . . . . . . . . . . , . . . . . . . 287

Effect of intracerebroventric~arly administered o~topamines and synephrines on angio~nsin B-induced water intake in rats.

FREGLY, M. J., N. E. ROWLAND, C. M. WILLIAMS and J. E. GREENLEAF 293

Serotonin-immunoreactivity in the adrenal medulla: Distribution and response to pharmacological manipulation.

HOLZWARTH, M. A., C. SAWETAWAN and M. S. BROWNFIELD . . . . . . . . . 299

Effects of intranigral injections of dopamine agonists and antagonists, glycine, muscimol and N-methyl-D,L-aspartate on locomotor activity.

JACKSON, E. A. and P. H. KELLY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 309

Distribution of substance P and enkephalin-like imm~oreaetivity in the substantia nigra of rat, cat and monkey.

INAGAKI, S. and A. PARENT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 319

Contents continued

VOLUME INDEX

Ontogenesis of muscimol binding sites in cat visual cortex.

SHAW, C., M. C. NEEDLER and M. CYNADER . . . . . . . . . . . . . . . . . . . . . . . . . .

Inhibition of brain protein synthesis suppresses the release of prostaglandiu EZ in febrile rabbits.

TOWNSEND, Y., W. I. CRANSTON and R. F. HELLON . . . . . . . . . . . . . . . . .

Role of the septum on LH, FSH and prolactin secretion in male rats.

CARRERAS, A., R. ROBLES, E. RUIZ, E. ORTEGA, C. MENDOZA and C. OSORIO . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

BOOK REVIEW . . . . , . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . , . . . .

331

335

339

343

ANNOUNCEMENTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 347


VOLUME 13 NUMBER 3 SEPTEMBER 1984 CONTENTS

Responses of preoptic neurons to stimulation of caudal and rostra1 brain stem reticular structures.

MALLICK, B. N., V. M. KUMAR, G. S. CHHINA and B. SINGH . . . . . . . . . . . 353

Amines and other transmitter-like compounds in the bovine area postrema.

LESLIE, R. A.andN. N. OSBORNE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 357

Cellular mechanisms of acute estrogen negative feedback on LH secretion: Norepinephrine, dopamine and 5hydroxytryptamine metabolism in discrete regions of the rat brain.

JOHNSTON, C. A., M. TESONE and A. NEGRO-VILAR . . . . . . . . . . . . . . . . . . . . 363

3H-2-deoxyglucose uptake after electrical stimulation of cardioactive sites in anterior medial cortex in rabbits.

BUCHANAN, S. L., D. A. POWELL and J. BUGGY . . . . . . . . . . . . . . . . . . . . . . . .

Monoamine neurotransmitter metabolism in microencephalic rat brain after prenatal methylazoxymethanol treatment.

371

HALLMAN, H. and G. JONSSON . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Distribution of FMRF-NHz-like immunoreactivity in rat and cat area postrema.

NEWTON, B. W., B. MALEY, C. SASEK and H. TRAURIG . . . . . . . . . . . . . . . .

Afferent projections of the cervical vagus and nodose ganglion in the dog.

CHERNICKY, C. L., K. L. BARNES, C. M. FERRARIO and J. P. CONOMY

383

391

401

Distribution of motoneurons in the brain stem of monkeys, innervating the larynx.

YOSHIDA, Y., T. MITSUMASU, T. MIYAZAKI, M. HIRANO and T. KANASEKI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Regional synthesis of 14C-amino acids in cerebral cortex of the unanesthetized rat: Simultaneous analysis by “push-pull” perfusion.

MORA, F.andR. D. MYERS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5Hydroxytryptamine in the spinal cord of the domestic fowl.

HO, R. H. and A. L. LAVALLEY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Anatomical alterations in locus coeruleus neurons in the adult spontaneously hypertensive rat.

FELTEN, D. L., L. R. RUBIN, S. Y. FELTEN and J. A. WEYHENMEYER .

Norepinephrine and serotonin in central autonomic nuclei in the spontaneously hypertensive rat and two normotensive control rats.

413

421

427

433

FELTEN, S. Y., J. A. WEYHENMEYER and D. L. FELTEN . . . . . . . . . . . . . . : 437

L-Pyroglutamate: An alternate neurotoxin for a rodent model of Huntington’s disease.

RIEKE, G. K., A. D. SCARFE and J. F. HUNTER . . . . . . . . . . . . . . . . . . . . . . . . . 443

Contents continued

VOLUME INDEX

BRIEF COMMUNICATIONS

A methoxyflurane delivery system for stereotaxic surgery.

LASITER, P. S.andJ. GARCIA . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 457

Hypothermic effect of 2,4dhdtrophenol infused ICV in the cat.

BELESLIN, D. B. and R. SAMARDZIC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 461

LABORATORY INSTRUMENTATION AND COMPUTING

PCAVR: A portable laboratory program for performing varimax-rotated principal components analysis of event-related potentials.

PRITCHARD, W. S. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 465

ANNOUNCEMENTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . , . . . . . . . . . . . 415


VOLUME 13 NUMBER 4 CONTENTS

OCTOBER 1984

Opiate ([XH]-naloxone) binding to hypothalamic and cerebral cortical slices of mouse brain.

JACOBSON, W. and M. WILKINSON . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Regulation of glycine receptor binding in the mouse hypoglossal nucleus in response to axotomy.

ROTTER, A., C. M. SCHULTZ and A. FROSTHOLM . . . . . . . . . . . . . . . . . . . . . . .

Multiunit bursts in rat pallidum during grooming and stereotyped jaw movements.

MCKENZIE, J. S., P. W. EVERETT and W. A. A. KUNZE . . . . . . . . . . . . . . . . .

A comparison of CNS stimulants with phencyclidine on dopamine release using in vivo voltammetry.

HOWARD-BUTCHER, S., C. D. BLAHA and R. F. LANE . . . . . . . . . . . . . . . . . .

The subnuclear organization of acetylcholinesterase-containing neurons in the interpeduncular nucleus of rats.

FASS, B.andG. S. HAMILL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Lateral hypothalamic relations with medial hypothalamus and limbic areas in geese.

FELIX, B.and T. ROESCH . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Regional effects of ethanol on limbic afterdischarge activity.

LESSE. H. and R. K. HARPER . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

A study of afferent projections to the rat interpeduncular nucleus.

HAMILL, G. S. and D. M. JACOBOWITZ . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Effects of external chemical environment on the developing olfactory bulbs of the mouse (Mus musculus).

HARVEY, F. E. and J. J. COWLEY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Characterization of cortical spindles in DBA/2 and C57BL/6 inbred mice.

RYAN,L. J. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Substance P-immunoreactive processes on 5TH/SPGmmunoreactive medullary cells.

HANCOCK, M. B. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Effects of neurotransmitters and vagus nerve stimulation on diencephalic and mesencephalic neuronal activity.

BARONE, F. C., D. L. ARMSTRONG, M. J. WAYNER and I. ZARCO DE CORONADO . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Vagal and gastric connections to the central nervous system determined by the transport of horseradish peroxidase.

SCHAROUN, S. L., F. C. BARONE, M. J. WAYNER and S. M. JONES . . . . .

481

487

493

497

503

509

519

527

541

549

559

565

573

Contents continued

VOLUME INDEX

BRIEF COMMUNZCATZONS

Dorsal nucleus of the lateral lemniscus: A nucleus of GABAergic projection neurons.

ADAMS, J. C. and E. MUGNAINI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 585

Chronic infusion of norepinephrine and clonidine into the hypothalamic paraventricular nucleus.

LICHTENSTEIN, S. S., C. MARINESCU and S. F. LEIBOWITZ . . . . . . . . . . . . 591

Substance P analogue blocks SP-induced facilitation of a spinal nociceptive reflex.

YASHPAL, K.andJ. L. HENRY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 597

LABORATORY INSTRUMENTATION AND COMPUTING

Computer based instruments for laboratory environments.

STUNDEL, A., G. SILVERMAN, M. C. CHEN and R. J. O’CONNELL . . . . . . 601

ANNOUNCEMENTS . . . . . . . . . . . . . . . . . , . . . . . . . . , . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 609

VOLUME 13 1984

SUBJECT INDEX

Acetylcholinesterase, 163 cytoarchitecture hist~hemistry inte~eduncular nucleus norepinephrine

AChE-pharmacohistochemistry, 503 interpeduncular nucleus subnuclear organization

Acute estrogen negative feedback, 363 LH secretion monoamine metabolism ovariectomy

Adenosine receptors, 657 autoradiography nitrobenzylthioinosine nucleoside transport sites

Adrenal medulla, 299 immunocyto~hemist~ seroto~n-immunoreactivity

Adrenalectomy, 33 B50 hippocampus membrane phosphorylation

a,-Adrenoceptors, 293 angiotensin II-induced drinking drug interaction octopamine synephrine

Afferents, 527 fast blue immunocytochemistry retrograde transport

Afterdischarges brain stimulation, 5 19 cats, 519 epilepsy, 5 19 ethanol, 519 limbic system, 519, 635 phencyclidine, 635 rhesus monkeys, 635

Age differences, 135 ependymal cells fine structure glial cells subfomical organ

Aging catecholamine, 727 methylazoxymethanol, 383 mi~roencephaly , 383 monoamine metabolism, 383 monoamine neurons, 383 regeneration, 727 reinnervation, 727

Amino acids, 421 cortex cortical perfusion push-pun perfusion

AMP, 199 ATP hippocampal neurones nucleotides purines

Androgens, 185 gerbils

lesions, sexually dimorphic area scent marking sexual behavior, male gerbils

Angiotensin II, I27 drinking hypothalamus phentolamine pressor responses

Angiotensin II-induced drinking, 293 a,-adrenoceptors drug interaction octopamine synephrine

Animal anesthesia, 457 methoxyflurane neurotoxins stereotaxic surgery

Animal model, 443 Huntington’s disease neurotoxins L-pyroglutamate

Anisomycin, 39 dentate gyrus long-term potentiation protein synthesis inhibition

Antibody titre. 247 fever immune system temperature regulation

Antidromic activation, 613 interstitial nucleus of Cajal Pro&t’s tract

Apparatus computer-assisted image analysis, 743 methoxyflurane delivery system, 457 rat brain slicer, I95 stereotaxic headholders, 457

Applel‘” computer, 205 data acquisition histograms microcomputers real-time data analysis

Arcuate nucleus, 49 prolactin taurine

Area postrema bovines, 357 cats, 391 FMRF-OH?, 391 immunohistochemistry, 391 monoamines, 357 neurotransmitters, 357

Arousal, 549 cortical spindles genetic factors

Atlas, 1 brainstem cat serotonergic cell bodies

ATP, 199 AMP hippocampal neurones nucleotides purines

Auditory evoked potentials, 155 chronic administration medial geniculate body phencyclidine rhesus monkeys

Autoradiographic localization, 69 benzodiazepine binding sites cat brain [“HI PK 11195

Autoradiography adenosine deaminase, 657 nitrobenzylthioinosine, 657 nucleoside transport sites. 657 opioid peptide-receptor, 801 rhesus monkeys. 801

Axotomy, 487 glycine receptors hypoglossal nucleus regeneration

BSO, 33 adrenalectomy hippocampus membrane phosphorylation

Benzodiazepine binding sites, 69 autoradiographic localization cat brain [:‘Hl PK 11195

Binding, 481 hypothalamus opiate receptors

Blood pressure, 257 brain acetylcholine methyldopa spontaneously hypertensive rats turnover rates

Body weight, 591 clonidine drinking eating hypoth~~us norepinephrine paraventricular nucleus

Bovines, 357 area postrema monoamines neurotransmitters

Brady~~dia, 371 cortical stimulation “H-Z-deoxyglucose uptake depressor responses rabbits

Brain adrenal medulla, 299 amygdala, 519, 635, 7.51 anterior hypoth~amus, 185 anterior medial cortex, 371 arcuate nucleus, 49 area postrema, 357, 391, 401 basal ganglia, 319, 443 brainstem, 1, 401, 413, 559, 573 caudal brain stem, 353 caudate putamen. 269. 443

central amygdaloid nucleus, 147 central autonomic nuclei, 437 central gray area, 1 central nervous system, 49, 383, 497,

573,673 cerebellum 181, 229 cerebral cortex, 383,481,709,751 cerebral ventricle, 43 cervical spinal cord, 701 cingulate, 371 cortex, 147, 155, 421 dendrite bundles, 701 dentate gyms, 39,743 dien~eph~on, 565 dorsal motor nucleus, 573 dorsal nucleus of lateral lemniscus, 585 dorsal pons, 1 dorsal root ganglion, 573 dorsal subiculum, 743 dorsal vagai nuclei, 391 dorsolateral te~entum, 527 dorsomedial, 363 fornix, 43 globus pallidus, 269, 493 habenular nuclei, 629 hippocampus, 33, 93, 199, 241, 383,

519,635,743,751,833 hypoglossal nucleus, 487 h~th~amus, 49, 127, 257, 363, 481,

491,651,673, 785 inferior olivary complex, 1 insular cortex, 371 interpeduncular nucleus, 1, 163, 203,

503 interstitiJ nucleus of Cajai, 613 laryngeal nerve, 413 lateral habenula, 623 lateral hypothalamus, 509 lateral hypothalamus-lateral preoptic

area, 565 lateral reticular nucleus, 1 iimbic tebncephalon, 751 locus coeruleus, 433.437. 527 medial entorhinal cortex,‘39 medial habenula, 527 medial hypothalamus, 565 medial longitudinal fasciculus, 613 medial preoptic area, 185, 363 median eminence, 363 mediodorsai nucleus of thalamus, 371 medulla oblongata, 257 mesencephalon, 1,565 midbrain. 257. 565 midbrain’reti&lar formation, 635 nodose ganglion, 401, 573 nucleus accumbens, 269 nucleus ambiguus, 573 nucleus incertus, 527 nucleus locus coeruleus, 53 nucleus tractus soiitarius. 357. 401 olfactory bulb, 541 optic chiasma, 629 parabrachial nuclei, 437 paraventricular nucleus, 437. 591 phrenic nucleus, 701

Brain pineai, 629 pans, 53,257 posteromedial hypothalamus, 509 preoptic area, 93, 353 preventricular magnocellular nucleus,

509 Probst’s tract, 613 Purkinje neuron, 181 pyramidat tract, 1 raphe nuclei, 1,437,559,623,709,737

rostra1 brain stem, 353 septum, 43, 257, 339, 509, 519 solitary nucleus, 573 solitary tract, 391 striatum, 257, 269,383,497 subfomical organ, 43, 135 subiculum, 93, 833 subnuclei, 203 substantia nigra, 309, 319, 737 superior cervical sympathetic ganglion,

573 suprachiasmatic, 363 supraoptic nucleus, 727 sympathetic preganglionic neurons,

559,679 thalamus, 257, 635 thalamus-zona incerta area, 56.5 vagus nerve, 401, 413 ventral medulla, 1 ventral reticuhtr formation, 559 ventromedial nucleus, 673

Brain acetyfchotine, 257 blood pressure methyldopa spontaneously hypertensive rats turnover rates

Brain development, 541 mitral cell layer odor exposure olfactory bulbs pheromones

Brain regions, mice, 253 energy metabolism microwave irradiation

Brain spectrin, 813 cytoskeieton neuroblastoma neurochemistry

Brain stimulation, 519 afterdischarges cats epilepsy ethanol Iimbic system

Brainstem, I cats immunocytochemistry serotonin

Brainstem motoneurons, 413 cricothyroid muscle laryngeal nerve m&keys

Bursting activity, 493 jaw movements multiunit analysis pallidum stereotypy

CA innervation, 701 cervical spinal cord dendrite bundles phrenic nucleus

Calcium-binding protein, 181 cerebeltum immunocytochemistry organotypic cultures

Cardiovascular control, 679 cats oxytocin sympathetic preganghonic neurons vasopressin

Cat brain, 69 autoradiographic localization

benzodiazepine binding sites [?I] PK 11195

Catecholamines aging, 727 dopamine, 235 norepineph~ne, 235 ovariectomy, 235 oulsatile LH release. 235 regeneration, 727 reinnervation, 727

Cats after discharges, 519 area postrema. 391 brain stimulation, 519 brainstem, I cardiovascular control, 679 2,4_dinitrophenol, 461 enkephalin, 319 D-AW-D-Let+enkephalin, 263 epilepsy, 5 19 ethanol, 5 19 FMRF-NH,, 391 hypothermia, 461 ICV injection, 461 immunocytochemistry, 1 immunohistochemical localization, 319 immunohistochemist~, 391 in vitro, 331 inte~duncuIar nucleus, 203 lateral habenula, 623 lesions, pontine, 53 limbic system, 519 monkeys, 319 muscimoi binding sites, 331 ontogenesis, 331 opioid receptors, 263 oxytocin, 679 paradoxical sleep, 53 pineal recess, 623 reticular formation, 53 serotonin, 1 sleep-wakefulness states, 53 slow wave steep, 623 subnuclei, 203 substance P, 3 19 substantia nigra, 3 19 sympathetic preganglionic neurons,

679 thermoregulation, 263 vasopressin, 679 vasotocin, 623 visual cortex, cat, 331

Caudal brain stem, 353 electrical stimulation preoptic area rostra1 brain stem

Central amygdaloid nucleus, 147 cortex hypoglossal motoneuron rhythmical jaw movements

Central autonomic nuclei, 437 norepinephrine serotonin strain differences

CentraL catechoiamine neurons, 737 MITP nigrostriatal system

Central nervous system, 497 dopamine release in vivo voltammetry phencyclidine

Cerebellum, 181 calcium-binding protein immun~yt~hemis~ organotypic cultures

Cervical spinal cord, 701 CA innervation dendrite bundles phrenic nucleus

Cervical vagal afferents, 401 dogs dorsal motor nucleus of the vagus nodose ganglion

ChAT immunohistochemistry, 751 fluorescent tracers limbic telencephalon

Chickens, 427 S-hydroxytryptamine serotonin spinal cord, domestic fowls

Chronic administration, 155 auditory evoked potentials medial geniculate body phencyclidine rhesus monkeys

Clonidine, 591 body weight drinking eating hypothalamus norepinephrine paraventricular nucleus

Colchicine, 99 neuroanatomy neurotoxicity septohabenulointerpeduncular

system Computer-assisted image analysis, 743

hippocampus receptor autoradiography

Conditioned responses, 229 harmaline locomotor activity nictitating membrane response rabbits

Cortex amino acids, 42 1 central amygdaloid nucleus, 147 cortical perfusion, 421 hypoglossal motoneuron, 147 push-pull perfusion, 421 rhythmical jaw movements, 147

Cortical perfusion, 42 1 amino acids cortex push-pull perfusion

Cortical spindles, 549 arousal genetic factors

Cortical stimulation, 371 bradycardia :‘H-2-deoxyglucose uptake depressor responses rabbits

Cricothyroid muscle brain stem motoneurons laryneal nerve monkeys

Cytoarchitecture, 163 acetylcholinesterase histochemistry interpeduncular nucleus norepinephrine

Cytoskeleton, 813 brain spectrin neuroblastoma neurochemistry

Data acquisition, 205 AppleTM computer

histograms microcomputers real-time data analysis

Delta sleep-inducing peptide, 833 hippocampus immunocytochemistry subiculum

Dendrite bundles, 701 CA innervation cervical spinal cord phrenic nucleus

Dentate gyrus, 39 anisomycin long-term potentiation protein synthesis inhibition

“H-2-Deoxyglucose uptake, 371 bradycardia cortical stimulation depressor responses rabbits

Depressor responses, 371 bradycardia cortical stimulation JH-2-deoxyglucose uptake rabbits

Diencephalon, 565 mesencephalon neurotransmitters vagal afferents

2,CDinitrophenol, 461 cats hypothermia ICV injection

Dogs, 40 1 cervical vagal afferents dorsal motor nucleus of the vagus nodose ganglion

Dopamine catecholamines, 235 glycine, 309 locomotor activity, 309 N-methyl-D,L-aspartate, 309 muscimol, 309 neuroleptics, 309 norepinephrine, 235 ovariectomy, 235 pulsatile LH release, 235

Dopamine release, 497 central nervous system in vivo voltammetry phencyclidine

Dorsal motor nucleus of the vagus, 401 cervical vagal afferents dogs nodose ganglion

Dorsal nucleus of lateral lemniscus, 585 GABAergic projection neurons inhibitory acoustic processes

Drinking angiotensin II, 127 body weight, 591 clonidine, 591 hypothalamus, 127, 591 norepinephrine, 591 osmoreceptors, 43 paraventricular nucleus, 591 phentolamine, 127 pressor responses, 127 subfomical organ, 43 vasopressin, 43

Drug acetylcholine, 565 amfonelic acid, 497 amphetamine, 493, 497 anisomycin, 39, 335 apomorphine, 493

arginine vasotocin, 623 azide, 481 (+) bicuculline, 33 1 chlorobutanol, 79 3H-choline, 257 clonazepam, 69 clonidine, 591 colchicine, 99, 391 cyclooctanone,541 diazepam, 69 diisopropyltluorophosphate, 503 2,4_dinitrophenol, 461 dipyridamole, 69 dopamine, 309, 565 ethanol, 5 19 GABA 331, 565 glucagon, 673 glucose, 42 1 glutamate, 421 glutamic acid, 565 glutamic acid decarboxylase, 163 glutamine, 421 glycine, 309, 421 GTP-y-S[guanosine-5’-0-(3-thiotri-phosphate)],

79 haloperidol, 309 harmaline, 229 5-HIAA, 623 5-hydroxytryptamine, 299, 427 insulin, 673 kainic acid. 443. 651 mannitol, 49 methoxyflurane, 457 methylazoxymethanol, 383 methyldopa, 257 N-methyl-D,L-aspartate, 309 monoamine oxidase, 309 monosodium glutamate, 643 morphine, 24 1 MPTP, 737 muscimol, 309 naloxone, 241 norepinephrine, 565, 591 octopamine, 293 ouabain, 481 papaverine, 79 pentobarbital, 549 phencyclidine, 155, 497, 635 phenoxybenzamine, 481 phentolamine, 127, 481 phenylephrine, 293 picrotoxin, 623 pimozide, 235 PK 11195, 69 pyrogen, 335 L-pyroglutamate, 443 R05-4864, 69 serotonin, 163 sodium vanadate, 79 synephrine, 293 taurine, 49 tetramethylbenzidine, 573 thiopental, 509 tyrosine hydroxylase, 109, 269 yohimbine, 293

Drug interaction, 293 cr,-adrenoceptors angiotensin II-induced drinking octopamine synephrine

Eating body weight, 591 clonidine, 591 hypothalamus, 591

norepinephrine, 591 paraventricular nucleus, 591

Electrical activity, pineal cells, 629 electrical stimulation pigeons pinealopetal pathways

Electrical stimulation caudal brain stem, 353 electrical activity, pineal cells, 629 pigeons, 629 pinealopetal pathways, 629 preoptic area, 353 rostral brain stem, 353

Electrophysiology, 685 histology in vitro studies

Endogenous pyrogen, 335 fever phospholipase A, protein synthesis rabbits

Energy metabolism, 253 brain regions, mice microwave irradiation, 253

Enkephalin, 319 cats immunohistochemical localization monkeys substance P substantia nigra

D-Ala’-D-Let&Enkephalin, 263 cats opioid receptors thermoregulation

Ependymal cells, 135 age differences fine structure glial cells subfomical organ

Epilepsy, 519 afterdischarges brain stimulation cats ethanol limbic system

Ethanol afterdischarges brain stimulation cats epilepsy limbic system

Event-related potential, 465 principal components analysis varimax-rotated principal components

analysis

Fade reduction, 109 fluorescence immunocytochemistry quantification tyrosine hydroxylase

Fast blue, 527 afferents immunocytochemistry retrograde transport

Fever antibody titre, 247 endogenous pyrogen, 335 immune system, 247 phospholipase A, protein synthesis, 335

rabbits, 335 temperature regulation, 247

Field potentials, 241 morphine mossy fibers naloxone opiates

Fine structure, 135 age differences ependymal cells glial cells subfomical organ

Fluorescence, 109 fade reduction immunocytochemistry quantification tyrosine hydroxylase

Fluorescent tracers, 751 ChAT immunohistochemistry limbic telencephalon

FMRF-NH,, 391 area postrema cats immunohistochemistry

Follicle-stimulating hormone,, 339 lesions, septum luteinizing hormone prolactin stimulation, septum

GABAergic projection neurons, 585 dorsal nucleus of lateral lemniscus inhibitory acoustic processes

Gastric CNS connections, 573 horseradish peroxidase vagal CNS connections

Geese, 509 hippocampal formation lateral hypothalamic area stimulation posteromedial hypothalamic nucleus

Genetic factors, 549 arousal cortical spindles

Gerbils, 185 androgens lesions, sexually dimorphic area scent marking sexual behavior, male gerbils

Glial cells, 135 age differences ependymal cells fme structure subfomical organ

Glucagon, 673 lesions, central nervous system lesions, hypothalamus lesions, ventromedial nucleus pancreatic abnormality

Glycine, 309 dopamine locomotor activity N-methyl-D,L-aspartate muscimol neuroleptics

Glycine receptors, 487 axotomy hypoglossal nucleus regeneration

Harmaline, 229 conditioned responses locomotor activity

nictitating membrane response rabbits

Hippocampal formation, 509 geese lateral hypothalamic area stimulation posteromedial hypothalamic nucleus

Hippocampal neurones, 199 AMP ATP nucleotides purines

Hippocampus adrenalectomy, 33 BSO, 33 computer-assisted image analysis, 743 delta sleep-inducing peptide. 833 immunocytochemistry, 833 membrane phosphorylation, 33 receptor autoradiography, 743 subiculum, 833

Histochemistry, 163 acetylcholinesterase cytoarchitecture interpeduncular nucleus norepinephrine

Histograms, 205 AppleTM computer data acquisition microcomputers real-time data analysis

Histology, 685 electrophysiology in vitro studies

Hormone estradiol benzoate, 363 estrogen, 363 luteinizing hormone, 339 prolactin, 49, 339 testosterone, 667

Hormones, 643 monoamines monosodium glutamate stress

Horseradish peroxidase, 573 gastric CNS connections vagal CNS connections

Huntington’s disease, 443 animal model neurotoxins L-pyroglutamate

5Hydroxytryptamine. 427 chickens serotonin spinal cord, domestic fowls

Hypertension, 433 locus coeruleus spontaneously hypertensive rats

Hypoglossal motoneuron, 147 central amygdaloid nucleus cortex rhythmical jaw movements

Hypoglossal neurons. 667 nerve regeneration pre-pubertal rats testosterone

Hypoglossal nucleus, 487 axotomy glycine receptors regeneration

Hypothalamic asymmetry, 65 1 kainic acid ovarian compensatory hypettrophy

Hypothalamus angiotensin II, 127 binding, 481

body weight, 591 clonidine, 591 drinking. 127. 591 eating, 1591 norepineph~ne, 591 opiate receptors, 481 paraventricular nucleus, 591 phentolamine, 127 pressor responses, 127

Hypothermia, 461 cats 2,4-dinitrophenol ICV injection

ICV injection, 461 cats 2,4_dinitrophenol hypothermia

Immune system, 247 antibody titre fever temperature regulation

Immunocytochemistry adrenal medulla, 299 afferents, 527 brainstem, 1 calcium-binding protein, 181 cats, 1 cerebellum 181 delta sleep-inducing peptide, 833 fade reduction, 109 fast blue, 527 fluorescence. 109 hip~~ampus, 833 organotypic cultures, 181 proopiomelanocortin, 785 quantification, 109 retrograde transport, 527 rhesus monkeys, 785 serotonin. 1 serotonin-immunorea~tivity, 299 subiculum, 833 tyrosine hydroxylase, 109

Immunohistochemical localization, 3 19 cats enkephalin monkeys substance P substantia nigra

Immunohistochemistry, 391 area postrema cats FMRF-NH,

Immunoperoxidase. 5.59 serotonin substance P vitro studies cats, 331 electrophysiology, 685 histology, 685 muscimol binding sites, 331 ontogenesis, 33 1 visual cortex, cat, 331 vivo volt~metry, 497 central nervous system dopamine release phencyclidine

Inhibitory acoustic processes, 585 GABAergic projection neurons dorsal nucleus of lateral lemniscus

Interpeduncular nucleus acetyIcholinesterase, 163 AChE-pharmacohistochemistry, 503

cats, 203 cytoarchitecture, 163 histochemistry, 163 norepinephrine, 163 subnuclear organization, 503 subnuclei, 203

Interstitial nucleus of Cajal. 613 antidromic activation Probst’s tract

Jaw movements, 493 bursting activity multiunit analysis pallidum stereotypy

Kainic acid, 651 hypothalamic asymmetry ovarian compensatory hy~~rophy

Laboratory environment, 601 laboratory instruments personal computer

Laboratory instruments, 601 laboratory environment personal computer

Laryngeal nerve, 413 brain stem motoneurons cticothyroid muscle monkeys

Latent period processes, 79 light adaptation l~r~ul~,~ ventral photoreceptors slow potential fluctuations temperature environment

Lateral habenula, 623 cats pineal recess slow wave sleep vasotocin

Lateral hypothalamic area stimulation, 509 geese hippocampal formation posteromedial hypothalamic nucleus

Lesion, central nervous system, 673 glucagon lesions, hypothalamus lesions, ventromedial nucleus pancreatic abno~ality

Lesions, hypothalamus, 673 glucagon lesions, central nervous system lesions, ventromedial nucleus pancreatic abnormality

Lesions, pontine, 53 cats paradoxical sleep reticular formation sleep-wakefulness states

Lesions, septum, 339 follicle-stimulating hormone luteinizing hormone prolactin stimulation, septum

Lesions, sexually dimorphic area, 185 androgens gerbils scent marking sexual behavior, male gerbils

Lesions, ventromedial nucleus, 673 glucagon lesions, central nervous system

lesions, hypothalamus pancreatic abnormality

LH secretion, 363 acute estrogen negative feedback monoamine metabolism ova~ectomy

Light adaptation, 79 latent period processes huh ventral photoreceptors slow potential fluctuations temperature environment

Limbic modulation, 93 stimulation, hippocampal temperature regulation thermosensitive neurons

Limbic system afterdischarges, 519, 635 brain stimulation, 519 cats, 519 epilepsy, 5 19 ethanol, 519 phencyclidine rhesus monkeys, 635

Limbic telencephalon, 75 1 ChAT immunohistochemistry fluorescent tracers

Lirnulus ventral photoreceptors, 79 latent period processes light adaptation slow potential fluctuations temperature environment

Locomotor activity conditioned responses, 229 dopamine, 309 glycine, 309 harmaline, 229 N-methvl-D.L-asna~ate. 309 muscimbl, 309 - neuroleptics, 309 nictitating membrane response, 229 rabbits, 229

Locus coeruleus, 433 hypertension s~ntaneously hypertensive rats

Long-term potentiation, 39 anisomycin dentate gyrus protein synthesis inhibition

Luteinizing hormone, 339 follicle-stimulating hormone lesions, septum prolactin stimulation, septum

Lymph nodes, 693 strain differences sympathetic innervation

Medial geniculate body, 155 auditory evoked potentials chronic administration phencyclidine rhesus monkeys

Membrane phosphorylation, 33 adrenalectomy B50 hippocampus

Mesencephalon, 565 diencephalon neurotransmitters vagal afferents

Method acetylcholinesterase ~stochemistry,

163

amino acid chromatography, 3.57 autor~io~p~c 3H-Z-deoxyglucose,

371 autoradiographic localization, 69 autoradiographic tracing method, 163 autoradiography, 331, 657, 801 catecholamine histofluorescence, 163 ChAT immunohistochemistry, 7.51 cytoarchitecture, 163 electron microscopy, 99, 269 fluorescence, 109 fluorescence histochemistry, 693 fluorescent retrograde dye tracing, 709 fluorescent tracers, 751 glutamate decarboxylase

immunoreactivity, 585 histofluorescence, 727, 737 horse~ish peroxidase, 401, 413, 4.57,

573 HPLC, 357, 363, 437 HRP-wheat germ agglutinin conjugate,

401 indirect immunofluorescence, 319 indirect peroxidase labeled antibody

method, 269 immunoc~oche~c~ staining, 585 immunocytochemistry, 1, 109, 181,

299, 357, 527, 585, 737, 785, 813, 833

immunohistochemistry, 163, 319, 391, 427

i~unorea~tivity, 319 microre~on~ analysis, 253 microwave irradiation, 253 Nissl stain, 685 PAP technique, 391 radioimmunoassay, 339 receptor autoradiography, 743 retrograde transport, 527 seroto~n-immunorea~tivity, 299 single unit recording, 685 stereotaxic surgery, 457 tetramethyl benzidine method, 401 tract-tracing, 457 two-color immunoperoxidase staining,

559 ultrastructural immunocytochemistry,

269 Methoxyflurane, 457

animal anesthesia neurotoxins stereotaxic surgery

Methylazoxymethanol, 383 aging microencephaiy mono~ine metabolism monoamine neurons

N-methyl-D,L-aspartate, 309 dopamine glycine locomotor activity muscimol neuroleptics

Methvldoua, 257 blood pressure brain acetylcholine spontaneously hypertensive rats turnover rates

Microcomputers, 205 AppleT” computer data acquistion histograms real-time data analysis

Microdissection of fresh brain nuclei, 195 rat brain slicer

Microencephaly, 383 aging metby~oxymethanol monoamine metabolism monoamine neurons

Microwave irradiation, 253 brain regions, mice energy metabolism

Mitral cell layer, 541 brain development odor exposure olfactory bulb pheromones

Monkeys brain stem motoneurons, 413 cats, 319 cricothyroid muscle, 413 enkephalin, 3 19 immunohistochemical localization, 319 laryngeal nerve, 413 steady-state stimulation, 287 substance P, 3 19 substantia nigra, 319 visual evoked responses, 287

Mono~ine metabolism acute estrogen negative feedback, 363 aging, 383 LH secretion, 363 methylazoxymethanol, 383 microencephaly, 383 monoamine neurons, 383 ovariectomy, 363

Mono~ine neurons, 383 aging methylazoxymethanol microencephaly monoamine metabolism

Monoamines area postrema, 357 bovines, 357 hormones, 643 monosodium glutamate. 643 neurotransmitters, 357 raphe nuclei, 709 serotonin, 709 stress, 643 topographic organization, 709

Monos~ium glutamate, 643 hormones monoamines stress

Morphine, 241 field potentials mossy fibers naloxone opiates

Mossy fibers, 241 field potentials morphine naloxone opiates

MPTP, 737 central cate~hol~ine neurons nigrostriatal system

Multiunit analysis, 493 bursting activity jaw movements pallidum stereotypy

Muscimoi, 309 dopamine glycine locomotor activity N-methyl-D,L-aspartate neuroleptics

Muscimol binding sites, 331 cat in vitro ontogenesis visual cortex, cat

Naloxone, 241 field potentials morphine mossy fibers opiates

Nerve regeneration, 667 hypoglossal neurons pre-pubertal rats testosterone

Neuro~atomy, 99 colchicine neurotoxicity septohabenulointerpeduncular system

Neuroblastoma, 8 13 brain spectrin cytoskeleton neurochemistry

Neurochemistry, 813 brain spectrin cytoskeleton neuroblastoma

Neuroleptics, 309 dopamine glycine locomotor activity N-methyl-D,L-aspa~at~ muscimol

Neurotoxicity, 99 colchicine neuroanatomy septohabenulointerpeduncular system

Neuretoxins animal anesthesia, 457 animal model, 443 Huntington’s disease, 443 methoxyflurane, 457 L-pyroglutamate, 443 stereotaxic surgery, 457

Neurotransmitters area postrema, 357 bovines, 357 diencephalon, 565 mesencephalon, 565 monoamines, 357 vagal aBerents, 56.5

Nictitating membrane response, 229 conditioned responses harmaline locomotor activity rabbits

Nigrostriatal system, 737 central catecholamine neurons MPTP

Nitrobenzylthioinosine, 657 adenosine deaminase autoradiog~phy nucleoside transport sites

Nodose ganglion, 401 cervical vagal afferents dogs dorsal motor nucleus of the vagus

Norepinephtine acetylcholinesterase, 163 body weight, 591 catecholamines, 235 central autonomic nuclei, 437 clonidine, 591 cytoarchitecture, 163

dopamine, 235

drinking, 591 eating, 591 histochemistry, 163 hypothalamus, 591 interpeduncular nucleus, 163 ovariectomy. 235 paraventricular nucleus, 591 pulsatile LH release, 235 serotonin, 437 strain differences, 437

Nucleoside transport sites. 657 adenosine receptors autoradiography nitrobenzylthioinosine

Nucleotides, lY9 AMP ATP hippocampal neurones purines

Octopamine, 293 u,-adrenoceptors angiotensin II-induced drinking drug interaction synephrine

Odor exposure, 54 I brain development mitral cell layer olfactory bulbs pheromones

Olfactory bulbs, 541

brain development mitral cell layer odor exposure pheromones

Ontogenesis, 331 cats in vitro muscimol binding sites visual cortex, cats

Opiate receptors, 481 binding hypothalamus

Opiates. 24 I field potentials morphine mossy fibers naloxone

Opioid peptide-receptor. 801 autoradiography rhesus monkeys

Opioid receptors, 263 cats D-Ala’-D-Leu ,-enkephalin thermoregulation

Organotypic cultures. I81 calcium-binding protein cerebellum immunocytochemistry

Osmoreceptors. 43 drinking subfomical organ vasopressin

Ovarian compensatory hypertrophy. hypothalamic asymmetry kainic acid

Ovariectomy acute estrogen negative feedback catecholamines, 235 dopamine, 235 I,H secretion, 363 monoamine metabolism, 363

norepinephrine, 235

pulsatile LH release, 235 Oxytocin. 679

cardiovascular control cats sympathetic preganglionic neurons vasopressin

Pain, 597 spinal nociceptive reflex substance P tail-flick test

Pallidurn, 493 bursting activity jaw movement multiunit analysis stereotypy

Pancreatic abnormality. 673

651

. 363

glucagon lesions. central nervous system lesions, hypothalamus lesions, ventromedial nucleus

Paradoxical sleep. 53 cats

lesions. pontine reticular formation sleep-wakefulness states

Paraventricular nucleus, 591 body weight clonidine drinking eating

hypothalamus norepinephrine

Peptides ACTH. 785

angiotensin II, 43. 127. 293 avian pancreatic polypeptide, 163 delta sleep-inducing peptide. 833 dynorphin, 801 /3-endorphin, 785 enkephalin, 319. 801 leu-enkephalin. 163 D-AlaL-D-Leti-enkephalin. 263 follicle-stimulating hormone, 339 luteinizing hormone, 235, 363 oxytocin, 623. 679 proopiomelanocortin, 785. 801 somatostatin. 163 substance P, 163, 319, 357, 559. 597 vasopressin, 43, 679, 727

Personal 601 computer, laboratory environment laboratory instruments

Phencyclidine afterdischarges, 635

auditory evoked potentials, I55 central nervous system, 497 chronic administration, 155 dopamine release. 497 in vivo voltammetry, 497 limbic 635 system,

medial geniculate body, 155 rhesus monkeys, 155, 635

Phentolamine, 127 angiotensin II drinking hypothalamus pressor responses

Pheromones, 541 brain development mitral cell layer odor exposure olfactory bulbs

Phospholipase A,, 335

endogenous pyrogen fever

protein synthesis rabbits

Phrenic nucleus, 701 CA innervation cervical spinal cord dendrite bundles

Pigeons, 629 electrical activity, pineal cells electrical stimulation pinealopetal pathways

Pineal recess, 623 cats lateral habenula slow wave area vasotocin

Pinealopetal pathways, 629 electrical activity, pineal cells electrical stimulation pigeons

(.‘H] PK I 1195, 69

autoradiographic localization benzodiazepine binding sites cat brain

Posteromedial hypothalamic nucleus, 509 geese

hippocampal formation lateral hypothalamic area stimulation

Preoptic area, 353 caudal brain stem electrical stimulation rostral brain stem

Pre-pubertal rats, 667 hypoglossal neurons nerve regeneration testosterone

Pressor responses. 127 angiotensin II drinking hypothalamus phentolamine

Principal components analysis, 465 event-related potentials varimax-rotated principal components

analysis Probst’s tract, 613

antidromic activation interstitial nucleus of Cajal

Prolactin

arcuate nucleus, 49 follicle-stimulating hormone, 339 lesions, septum, 339 luteinizing hormone, 339 stimulation. septum, 339 taurine, 49

Proopiomelanocortin, 785

immunocytochemistry rhesus monkeys

Protein synthesis, 335 endogenous pyrogen fever phospholipase A, rabbits

Protein synthesis inhibition. 39 anisomycin dentate gyrus long-term potentiation

Pulsatile LH release. 235 catecholamines dopdmine norepinephrine ovariectomy

Purines, 199 AMP ATP hippocampal neurones nucleotides

Push-pull perfusion, 421 amino acids cortex cortical perfusion

L-Pyroglutamate, 443 animal model Huntington’s disease neurotoxins

Quantification, 109 fade reduction fluorescence immunocytochemistry tyrosine hydroxylase

Rabbits bradycardia, 371 conditioned responses, 229 cortical stimulation, 371 3H-2-deoxyglucose uptake, 371 depressor responses, 371 endogenous pyrogen, 335 fever, 335 harmaline, 229 locomotor activity, 229 nictitating membrane response, 229 phospholipase A,, 335 protein synthesis, 335

Raphe nuclei, 709 monoamines serotonin topographic organization

Rat brain slicer, 195 microdissection of fresh brain nuclei

Real-time data analysis, 205 Apple’rM computer data acquisition histograms microcomputers

Receptor autoradiography, 743 computer-assisted image analysis hippocampus

Regeneration aging, 727 axotomy, 487 catecholamine, 727 glycine receptors, 487 hypoglossal nucleus, 487 reinnervation, 727

Regional study, 269 striatum synaptic organization tyrosine hydroxylase ultrastructural immunocytochemistry

Reinnervation, 727 aging catecholamine regeneration

Reticular formation, 53 cats lesions, pontine paradoxical sleep sleep-wakefulness states

Retrograde transport, 527 afferents fast blue immunocytochemistry

Rhesus monkeys afterdischarges, 635 auditory evoked potentials, 155 autoradiography, 801 chronic administration, 155 immunocytochemistry, 785 limbic system, 635 medial geniculate body, 155 opioid peptide-receptor, 801 phencyclidine, 155, 635 proopiomelanocortin, 785

Rhythmical jaw movements, 147 central amygdaloid nucleus cortex hypoglossal motoneuron

Rostra1 brain stem, 353 caudal brain stem electrical stimulation preoptic area

Scent marking, 185 androgens gerbils lesions, sexually dimorph’ic area sexual behavior, male gerbils

Serotonin brainstem, 1 cats, 1 central autonomic nuclei, 437 chickens, 427 5_hydroxytryptamine, 427 immunocytochemistry, 1 immunoperoxidase, 559 monoamines, 709 norepinephrine, 437 raphe nuclei, 709 spinal cord, domestic fowls, 427 strain differences. 437 substance P, 559 topographic organization, 709

Serotonin-immunoreactivity, 299 adrenal medulla immunocytochemistry

Septohabenulointerpeduncular system, colchicine neuroanatomy neurotoxicity

Sexual behavior, male gerbils, 185 androgens gerbils lesions, sexually dimorphic area scent marking

Sleep-wakefulness states, 53 cats lesions, pontine paradoxical sleep reticular formation

Slow potential fluctuations, 79 latent period processes light adaptation huh ventral photoreceptors temperature environment

Slow wave sleep, 623 cats lateral habenula pineal recess vasotocin

Spinal cord, domestic fowls, 427 chickens 5-hydroxytryptamine serotonin

Spinal nociceptive reflex, 597 pain

substance P tail-flick test

Spontaneously hypertensive rats blood pressure, 257 brain acetylcholine, 257 hypertension, 433 locus coeruleus, 433 methyldopa, 257 turnover rates, 257

Steady-state stimulation, 287 monkeys visual evoked responses

Stereotaxic surgery, 457 animal anesthesia methoxyff urane neurotoxins

Stereotypy, 493 bursting activity jaw movements multiunit analysis pallidurn

Stimulation, hippocampal, 93 limbic modulation temperature regulation thermosensitive neurons

Stimulation, septum, 339 follicle-stimulating hormone lesions, septum luteinizing hormone prolactin

Strain differences central autonomic nuclei, 437 lymph nodes, 693 norepinephrine, 437 serotonin, 437 sympathetic innervation, 693

Stress, 643 hormones monoamines monosodium glutamate

Striatum, 269 regional study synaptic organization tyrosine hydroxylase ultrastructural immunocytochemistry

99 Subfornical organ age differences, 135 drinking, 43 ependymal cells. 135 fine structure, 135 glial cells, 135 osmoreceptors, 43 vasopressin, 43

Subiculum. 833 delta slkep-inducing peptide hippocampus immunocytochemistry

Subnuclear organization, 503 AChE-pharmacohistochemistry interpeduncular nucleus

Subnuclei. 203 cats interpeduncular nucleus

Substance P cats, 319 enkephalin, 3 19 immunohistochemical localization, 3 19 immunoperoxidase, 559 monkeys, 3 19 pain, 597 serotonin, 559 spinal nociceptive reflex, 597 substantia nigra, 319 tail-flick test, 597

Substantia nigra, 3 19 cats enkephalin immunohistochemical localization monkeys substance P

Sympathetic innervation, 693 lymph nodes strain differences

Sympathetic preganglionic neurons, 679 cardiovascular control cats oxytocin vasopressin

Synaptic organization, 269 regional study striatum tyrosine hydroxylase ultrastructural immunocytochemistry

Synephrine, 293 a,-adrenoceptors angiotensin II-induced drinking drug interaction octopamine

Tail-flick test, 597 pain spinal nociceptive reflex substance P

Taurine, 49 arcuate nucleus prolactin

Temperature environment, 79 latent period processes light adaptation limuluv ventral photoreceptors slow potential fluctuations

Temperature regulation antibody titre, 247

Abel. M. S., 253 Adams, J. C., 585 Akil, H., 785, 801 Allen, R. G., 287 Alper, R. H., 235 Anderson, W. J., 701 Arluison, M., 269 Armstrong, D. L., 565 Azmitia, E. C., 1

Backman, S. B.. 679 Banet, M., 247 Barnes, K. L., 401 Barone, F. C., 565. 573 Begassat, F., 69 Behrens, M. E., 79 Beleslin. D. B.. 461 Bellinger, D. L., 693, 701 Bellinger, P. L., 701 Benavides, J., 69 Bernardini, G. L.. 263 Bhargava, M., 651 Blaha, C. D.. 497 Brandt, S.. 247 Brown, B., 49 Brownlield, M. S., 299 Buccafusco, J. J., 257 Buchanan, S. L., 371 Buggy, J.. 371 Butcher, L. L., 751

fever, 247 immune system, 247 limbic modulation, 93 stimulation, hippocampal, 93 thermosensitive neurons, 93

Testosterone, 667 hypoglossal neurons nerve regeneration pre-pubertal rats

Thermoregulation, 263 cats D-Ala’-D-Leti-enkephalin opioid receptors

Thermosensitive neurons, 93 limbic modulation stimulation, hippocampal temperature regulation

Topographic organization, 709 monoamines raphe nuclei serotonin

Turnover rates, 257 blood pressure brain acetylcholine methyldopa spontaneously hypertensive rats

Tyrosine hydroxylase fade reduction, 109 fluorescence, 109 immunocytochemistry, 109 quantification, 109 regional study, 269 striatum, 269 synaptic organization, 269 ultrastructural immunocytochemistry,

269

Ultrastructural immunocytochemistry, 269 regional study

Cannon, M. S., 685 Carnevale, T., 225 Carlson, S. L., 693 Carreras, A.. 339 Chen, M. C., 601 Chemicky, C. L., 401 Chhina, G. S., 353 Chronister, R. B., 109 Clark, W. G.. 263 Cohen, M. S., 205 Commins, D., 185 Conomy, J. P., 401 Contestabile. A., 99 Corrigall, W. A., 241 Cowley, J. J., 541 Cranston, W. I., 335 Cynader, M., 331

Daniel, M., 69 Dellmann, H.-D., 135 Demaine, C., 629 Desban, M., 69 Di Cori, S., 199 Diet], M., 269 Dobbs, R. E., 673 Dokas, L. A., 33 Dom, R., 49 Dowling, K. C., 155, 635 Dubroeucq, M. C., 69

AUTHOR INDEX

striatum synaptic organization tyrosine hydroxylase

Vagal afferents, 565 diencephalon mesencephalon neurotransmitters

Vagal CNS connections, 573 gastric CNS connections horseradish peroxidase

Varimax-rotated principal components analysis, 465

event-related potentials principal components analysis

Vasopressin cardiovascular control, 679 cats, 679 drinking, 43 osmoreceptors, 43 oxytocin, 679 subfomical organ, 43 sympathetic preganglionic neurons,

679 Vasotocin, 623

cats lateral habenula pineal recess slow wave sleep

Visual cortex, cat, 331 cats in vitro muscimol binding sites ontogenesis

Visual evoked responses, 287 monkeys steady-state stimulation

Eckenstein, F., 751 Eisner, C., 623 Elsasser, T., 49 Everett, P. W.. 493

Fahy, J. L.. 79 Fass, B., 503 Fawcett, C. P., 673 Feldman, S. C., 833 Felix, B., 509 Felten, D. L., 433, 437, 693,

701) 737 Felten, S. Y., 433, 437, 693 Ferrario, C. M., 401 Fitzgerald, J. A., 613 Fregly, M. J., 293 Friedman, L., 53 Frostholm, A., 487

Gallo, R. V., 235 Gannon, P. J., 1 Ganong, W. F., 43 Garcia, J., 457 Garcia-Rill, E., 613 Gash, D. M., 737 Geiger, J. D., 657 Gispen, W. H., 33 Goodlett. C. R., 343 Goodman, S. R., 813 Goodson, R. A., 287

Greenleaf, J. E., 293 Griffin, S., 613 Gueremy, C., 69 Gupta, M., 737

Haber, S. N., 785 Hallman, H., 383 Hamill, G. S., 203, 503, 527 Hancock. M. B.. 559 Harper, R. K., 519 Harvey, F. E., 541 Haycock, J. W., 109 Hellon, R. F., 335 Hemmendinger, L. M., 163 Hendelman, W. J., 181 Henry, J. L., 195, 199,597,679 Hirano, M., 413 Ho, R. H., 427 Holzwarth, M. A., 299 Hori, T., 93 Howard-Butcher, S., 497 Hunter, J. F., 443

Inagaki, S., 319

Jackson, E. A., 309 Jacobowitz, D. M., 527 Jacobs, B. L., 1 Jacobson, W., 481 Jande, S. S., 181

Johnston, C. A., 363, 643 Jones, B. E., 53 Jones, D. L., 127 Jones, S. M., 573 Jonsson, G., 383

Kaku, T., 147 Kanaseki, T., 413 Kapes, E. D., 685 Kastin, A. J., 833 Keil, L. C., 43 Kelly, P. H., 309 Khachaturian, H., 785, 801 Kiyohara, T., 93 Klemm, W. R., 287 Krug, M., 39 Kumar, V. M., 353 Kunze, W. A. A., 493

Lane, R. F., 497 Laplace, C., 69 Lasiter, P. S., 457 LaValley, A. L., 427 Lawson, D. E. M., 181 Le Fur, G., 69 Leibowitz, S. F., 591 Leipheimer, R. E., 235 Lenn, N. J., 203 Leslie, R. A., 357 Lesse, H., 519 Lewis, M. E., 785, 801 Lichtenstein, S. S., 591 Linseman, M. A., 241 Livnat, S., 693 Lossner, B., 39 Loy, R., 743

McCandless, D. W., 253 McKenzie, J. S., 493

Maley, B., 391 Malgouris, C., 69 Mallick, B. N., 353 Mangiapane, M. L., 43 Marinescu, C., 591 Matsuzaki, M., 155, 635 Mendoza, C., 339 Miles, T. S., 229 Mitsumasu, T., 413 Miyazaki, T., 413 Molliver. M. E.. 709 Moltz, J: H., 673 Moore, R. Y., 163 Mora, F., 421 Mueller, W. J., 79 Mugnaini, E., 585 Myatt, G. A., 651 Myers, R. D.. 421

Nagy, J. I., 657 Nakashima, T., 93 Nance, D. M., 651 Needler, M. C., 331 Negro-Vilar, A., 363, 643 Nelson, R., 613 Newton, B. W., 391

O’Connell, R. J., 601 O’Heam, E., 709

Ondo, J. G.,49 Ortega, E., 339 Osaka, T., 93 Osborne, N. N., 357

Osorio, C., 339 Ott, T., 39

Pang, L-H., 263 Parent, A., 319 Pavel, S., 623 Pfaff, D. W., 205 Phelps, C. J., 727 Powell, D. A., 371 Pritchard, W. S., 465

Renault, C., 69 Renfroe, J. B., 109 Rieke, G. K., 443 Robles, R., 339 Roesch, T., 509 Rotter, A., 487 Rowland, N. E., 293 Rubin, L. R., 433 Ruiz, E., 339 Ryan, L. J.. 549

Samardzic, R., 461 Samson, W. K., 673 Sasek, C., 391 Savaki, H. E., 69 Sawetawan, C., 299 Scarfe, A. D., 443 Scharoun, S. L., 573 Scheibel, J., 49 Schultz, C. M., 487 Semm, P., 629 Shaw, C., 331 Shibata, M., 93 Silverman, G., 601 Simpson, J. B., 43 Singh, B., 353

Skinner, R. D., 613 Sladek, J. R., Jr., 727 Spinedi, E. J., 643 Stahl, S. J., 135 Stavinoha, W. B., 253 Stundel, A., 601

Tayrien, M. W., 743 Tesone, M., 363 Thibault, J., 269 Thrasher, T. N., 43 Townsend, Y., 335 Traurig, H., 391 Trulson, M. E., 685 Tiirker, K. S., 229

Uzan, A., 69

Villani, L., 99

Watson, S. J., 785, 801 Waymire, J. C., 109 Wayner, M. J., 565, 573 Weyhenmeyer, J. A., 433, 437 Wilkinson, M., 481 Williams, C. M., 293 Woolf, N. J., 751 Wulff, V. J., 79

Yahr, P., 185 Yashpai, K., 195, 597 Yeh, P., 693 Yoshida, Y., 413 Yu, W.-h. A., 667

Zagon, 1. S., 813 Zarco de Coronado, I., 565 Zwiers, H., 33

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Index to volume 13 1984

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