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Drugs Affecting the Autonomic Nervous System (ANS)
ANS PharmacologyLecture 1
Dr. Hiwa K. Saaed B.Sc, HD, MSc, Ph.D.College of Pharmacy/University of
Sulaimani
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General considerations
Autonomic Drugs: Drugs that produce their primary therapeutic effect by
Mimicking or altering the functions of the ANS.
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automatic nervous system (ANS)
The ANS is the major involuntary portion of
the NS is responsible for automatic,
unconscious bodily function, such as control of
HR and BP and both GIT and GUT functions.
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Two main divisionsI. CNS Brain & spinal cordII. PNS1. Afferent (sensory)2. Efferent (motor) Somatic & ANS
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Nervous System
Central Nervous System or CNS
Brain and spinal cord: receives and processes incoming sensory information
and responds by sending out signals that initiate or modify a process
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Peripheral Nervous System or PNS
Includes all the neurons and ganglia found outside the CNS
1. Afferent: sensory input to CNSAfferent neurons carry sensory input from the
periphery to the CNS and modify motor output through the reflex arc.
2. Efferent: motor output from CNS
Efferent neurons carry motor signals from the CNS to the peripheral areas of the body.
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Efferent Neurons
The efferent portion of the PNS is further divided into two major functional subdivisions,
1. somatic (SNS):The somatic efferent neurons one motor neuron innervates the skeletal muscles and control voluntary (consciously) functions: movement, respiration and posture.
2. automatic nervous system (ANS).
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The ANS is divided into 2 main divisions:
I. Parasympathetic autonomic nervous system (PANS)
dominates in sleep,
II. Sympathetic autonomic nervous system (SANS)
Dominates during activity; fight & flight.
III. Enteric NS located in the GIT,
send sensory input to both PANS & SANS
and receive motor output from them-Myenteric plexus (plexus of aurbach)
-Submucous plexus (plexus of Meissner)
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Location of Ganglia
Both the PANS and SANS have relay station, or ganglia, between the CNS and the end organ, but the somatic system does not;
The ANS, carries nerve impulses by
1. a preganglionic fiber that leaves the CNS,
2. a postganglionic fiber that innervates the effector.
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Central roots of originParasympathetic Division– also
called the craniosacral division
The preganglionic fibers arise from the cranial nerve nuclei III, VII, IX, and X and sacral region (usually S2-S4) of the spinal cord, and synapse in ganglia close to the effector organ.
Thus, in contrast to the sympathetic system, the preganglionic fibers are long, and the postganglionic ones are short.
Sympathetic Division – also called the thoracolumbar division
The preganglionic fibers arise from the thoracic (T1-T12) and lumbar (L1-L5) regions of the spinal cord, and they synapse in paravertebral ganglia close and parallel to the vertebral column. Postganglionic axons lead to an effector organ.
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Adrenal medulla
the adrenal medulla, like the sympathetic ganglia, receives
preganglionic fibers from the sympathetic system.
Lacking the axons, in response to stimulation by Ach, influences
other organs by secreting the epinephrine and lesser amounts of NEP into the blood.
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sympathetic and parasympathetic NS & effector organs
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Functions of the Sympathetic Nervous System
Is normally active, even at rest; however, it assumes a dominant role when the body becomes stressed (trauma, fear, hypoglycemia cold or exercise).
Fight or Flight – Protective mechanisms designed to help person cope with the stress or get away from it.
For example, if you sense danger: Your heart rate increase, BP rises, eyes dilates, blood sugar rises, bronchioles expand, and blood flow shift from skin to skeletal muscles.
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Functions of the Parasympathetic Nervous System
1. Rest and digest: maintains essential body functions; digestive process and elimination of wastes.
2. Save energy.
3. Dilation of blood vessels in skin.
4. Decrease heart rate (bradycardia).
5. Increase secretion of digestive enzymes.
6. Constriction of smooth muscle of bronchi.
7. Increase in sweat glands.
8. Contraction of smooth muscles of urinary bladder.
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The sympathetic NS
The sympathetic NS function as a unit and it often discharge as a complete system.
These reactions are triggered both by
1. direct sympathetic activation of the effector organs,
2. stimulation of the adrenal medulla to release epinephrine.
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is not a functional entity as such, and never discharges as a complete system. If it did it would produce massive, undesirable and unpleasant symptoms. Instead, discrete parasympathetic fibers are activated separately, and the system functions to affect specific organs, such as stomach or eye.
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The Parasympathetic NS
I. Opposite effects on...
Myocardium: Sympathetic= tachycardia: Parasympathetic= bradycardia
Intestinal smooth muscle: Sympathetic= decreased motility: Parasympathetic= increased motility
Pupil muscles of iris: Sympathetic= dilator pupil (radial muscle) which dilates pupil (mydriasis)
Parasympathetic= sphincter pupil (circular muscle) which constricts pupil (miosis)
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II. Innervated by one division of ANS…
Blood vessels: Sympathetic= Constriction Sweat glands: Sympathetic= increased
secretion Ciliary muscle: Parasympathetic=
accommodation reflex Pancreas and Stomach: Parasympathetic=
increased secretion
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Hormonal Feedback Loop22
Similarities between ANS & endocrine system:
The ANS, along with the endocrine system, coordinates the regulation and integration of body function.
Nervous system has several properties in common with the endocrine system:
1. High level integration in the brain2. The ability to influence processes in distant
regions of the body3. Extensive use of negative feedback4. Both systems use chemical for the
transmission of information
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Difference between ANS/ endocrine system:
ANS characteristics Endocrine system characteristics
Rapid response Slower response
Brief duration Long duration
Transmission of electrical impulses over nerve fibers
Sends signals to target tissue by varying the level of blood borne hormone
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Drugs affecting the ANS
are divided into two groups according to the type of neuron.
The cholinergic drugs act on receptors activated by acetyl choline.
The adrenergic drugs act on receptors stimulated by norepinephrine or epinephrine.
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The cholinergic neuron
All preganglionic fibers of both sympathetic and parasympathetic divisions.
All parasympathetic postganglionic. Few sympathetic postganglionic fibers
(sweat gland). All Somatic (non autonomic) fibers to
skeletal muscle
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The adrenergic neuron
Most sympathetic postganglionic fibers release norepinephrine; are noradrenergic or simply adrenergic.
Some peripheral sympathetic fibers release dopamine (dopaminergic).
The adrenal medulla, a modified sympathetic ganglion, receives sympathetic preganglionic fibers and releases epinephrine (~85%) and to a lesser amount norepinephrine (15%) into the blood.
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Receptor types
Parasympathetic – cholinergic receptors: muscarinic (M1 to M5) and nicotinic receptors
Sympathetic – adrenergic receptors: alpha (α1, α 2), beta (β1 to β 3), and dopamine (D1 to D5) receptors.
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ANS receptor classification30
Locations of muscarinic receptors:
these receptors have been found on: ganglia of the PNS the autonomic effector organs: heart,
smooth muscle, brain and exocrine glands.1. M1 :gastric parietal cells,2. M2 : cardiac cells and smooth muscle, 3. M3 : bladder, exocrine gland, and smooth
muscle. all five subtypes (M1-M5) have been found
on neurons,
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Mechanisms of Ach signal transduction: M1, M3 & M5 :interacts with a G protein,
designated Gq, which in turn activates phospholipase C this leads to the hydrolysis of PIP2 to yield IP3, DAG, which cause an increase in intracellular Ca+2 this cation can then interact to: stimulate or inhibit enzymes, or cause hyperpolarization, secretion, or contraction.
M2 : stimulates a Gi that inhibits adenylyl cyclase and increase K+ conductance.
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Nicotinic receptors: (NN, NM)
Locations of nicotinic receptors: nicotinic receptors are located in the:
CNS, adrenal medulla, autonomic ganglia, neuromuscular junction.
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Mechanisms of action:
Ligand-gated ion channel. Binding of two Ach molecules elicits a
conformational change that allows the entry of Na+ ions, resulting in the depolarization of the effector cells.
Nicotine initially stimulates and then blocks the receptors
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Mechanisms of action:36
Cholinergic Neurotransmission
1.synthesis2.storage3.release4.binding 5.degradation6.recycling of choline
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Key steps in neurotransmission
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