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Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
A.N. Emami R.
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
April 11, 2023 Total slide : 50 3
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Most mammals convert amino-acid nitrogen to urea for excretion
NH4+
ammonium ion
uric acid
H2N-C-NH2 urea
O
NH4+
O
O
HN
NH
NH
NH
O
most terrestrial vertebrates
birds & reptilesfish & other aquatic vertebrates
Some animals excrete NH4
+ or uric acid.
amino acids The carbon chains are broken down to molecules that feed into the TCA cycle.
April 11, 2023 Total slide : 50 4
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Major fate of waste nitrogen
O
H2N C NH2urea
April 11, 2023 Total slide : 50 5
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Why Urea?
Non toxic
Water soluble
Combines two waste products into one molecule:
CO2
NH3
April 11, 2023 Total slide : 50 6
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Ammonia is highly toxic
Main reason to form urea is to reduce levels of ammonia
“Ammonia” often refers to (NH3 + NH4+)
NH3 is really ammonia
NH4+ is the ammonium ion
NH4+
pKa = 9.3
NH3 + H+
April 11, 2023 Total slide : 50 7
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Ammonia rapidly equilibrates across membranes
NH4+
NH3
pKa = 9.3
NH4+
NH3
Lipid Bilayer
April 11, 2023 Total slide : 50 8
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Production of ammonia
NH4+
Amino acids -Ketoglutarate
-Keto acids
-Ketoglutarate
Glutamate GDH
Oxaloacetate
Aspartate Urea cycle
Urea
Other reactions
April 11, 2023 Total slide : 50 9
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Reaction catalyzed by glutamate dehydrogenase (GDH).
COO-
C HH3N+
CH2
COO-
C
COO-
O
CH2
CH2
COO-
CH2
NAD(P)+ NAD(P)H
+NH4
April 11, 2023 Total slide : 50 10
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Most of the ammonia is produced by other reactions…
H
N
N
CH2
H
NH3
H
H
COO
C
H
C
N
N
O
C
C
H
O
H
HNH4
histidase+
L-histidineurocanate
April 11, 2023 Total slide : 50 11
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Most of the ammonia is produced by other reactions…
H3N C
COO
H
CH2OH
OH
COO
H3N C H
CH
CH3
C
CH3
C
CH2
CH3
COO
COO
O
O
NH4
NH4
L-serine pyruvate
L-threonine 2-ketobutyrate
+
+
serinedehydratase
serinedehydratase
April 11, 2023 Total slide : 50 12
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
O
C NH2
CH2
H C NH3
H2O NH4
L-glutamine L-glutamate L-asparagine
glutaminase asparaginaseCH4
CH2
H C NH4
COO
CH4
COO O
C
CH4
NH2 H2O NH4
H C NH4
CHOO
H CH4
CH4
COO
CHOO
NH4
L-aspartateCOO
Gln Synthetase
NH4+ + glutamate glutamineATP ADP +Pi
glutamine synthetase
glutaminase
April 11, 2023 Total slide : 50 13
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Summary of sources of ammonia for urea cycle
April 11, 2023 Total slide : 50 14
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Closer look at transport of waste N from peripheral tissue to liver via alanine and glutamine
Waste N funnelled to pyruvate via transaminations
Net: N (muscle) Urea (liver)
Glucose – Alanine Cycle
April 11, 2023 Total slide : 50 15
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Synthesis of Glutamine in Peripheral Tissue and Transport to the Liver
April 11, 2023 Total slide : 50 16
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
UREA FORMATION
April 11, 2023 Total slide : 50 17
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Overview
Occurs primarily in liver; excreted by kidney
Principal method for removing ammonia
Hyperammonemia:Defects in urea cycle enzymes (CPS, OTC, etc.)
Severe neurological defects in neonates
Treatment: Stop protein intake
Dialysis
Increase ammonia excretion: Na benzoate, Na phenylbutyrate, L-arginine, L-citrulline
April 11, 2023 Total slide : 50 18
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Overview
Key reaction: hydrolysis of arginine
Arginine + H2O ==> urea + ornithine arginase
Resynthesis of Arginine
April 11, 2023 Total slide : 50 19
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Blood Urea Nitrogen
Normal range: 7-18 mg./dL
Elevated in amino acid catabolism
Glutamate N-acetylglutamate
CPS-1 activation
Elevated in renal insufficiency
Decreased in hepatic failure
April 11, 2023 Total slide : 50 20
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
COOH
NH
NH2
NH
C
NH2
COOH
CH2
CH2
CH2
CH
H2ONH2
NH2OC
CH2NH2
CH2
COOH
H
COOH
CH2
COOH
CH
CH2
NH2
O
NH2
NH
C
NH2
COOH
CH2
CH2
CH2
CH
CH2NATP
NH
NH
C
NH2
COOH
CH2
CH2
CH2
CH
NH CH
COOH
COOH
CH2
HC
COOH
CH
O
NH2
CH2NH2
COOH
NH2
NH
CH2
C
CH2
NH2
C
COOH
CH2
CH2
H
CH2
CH
O-
O-
O
POC
O
CO2 + NH4
H2N
2 ATP
Mitochondrion
+
ADP + Pi
carbamoylphosphate
synthetase I(CPSI)
1
Carbamoyl phosphate
Ornithineornithine
transcarbamoylase
Pi
Citrulline
2
Ornithine
Citrulline
Aspartate
AMP + PPiArgininosuccinate
Fumarate
Arginine
3
4
5
argininosuccinatesynthetase
argininosuccinase
Urine
Cytosol
urea
2
April 11, 2023 Total slide : 50 21
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
urea
arginine NH2+ NH3
+
H2N-C-NH-CH2CH2CH2CH-CO2-
H2O
argininosuccinate
-O2C-CH=CH-CO2- fumarate
-O2C-CH2CH-NH3+
CO2- Asp
The urea cycle
-O2C-CH2CH-NH-C-NH-CH2CH2CH2CH-CO2-
NH3+CO2
- NH2+
OH2N-C-NH2
ATP
AMP + PPi
HCO3-
NH4+
2 ATP 2 ADP + Picarbamoyl phosphate
ornithine
citrulline
NH3+
H2N-CH2CH2CH2CH-CO2-
NH3+
H2N-C-NH-CH2CH2CH2CH-CO2-
OPi
H2N-C-O-P-O-
O
O-
Omitochondria
cytosol
April 11, 2023 Total slide : 50 22
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
This occurs in the mitochondrial matrix. Carbamoyl-phosphate synthetase-1 catalyzes the reaction in three steps, using two molecules of ATP:
NH4+ + HCO3
-
2 ATP 2 ADP + Pi
H2N-C-O-P-O-
O O
O-
carbamoyl phosphate
carbamate
HCO3-
ATP ADP
Pi
NH4+
ATP ADP
carbonic-phosphoric acid
anhydride
O O
O-
HO-C-O-P-O-
H2N-C-O-
O
(1)
(2)
(3)H2N-C-O-P-O-
O O
O-
Incorporation of ammonia into urea begins with formation of carbamoyl phosphate
April 11, 2023 Total slide : 50 23
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
carbamoyl phosphate
Pi
ornithine
citrulline
This step also occurs in the mitochondrial matrix.
Carbamoyl phosphate reacts with ornithine to form citrulline
+ H+
H2N-C-O-P-O-
O O
O-
NH3+
+H3N-CH2CH2CH2CH-CO2-
NH3+
H2N-C-NH-CH2CH2CH2CH-CO2-
O
April 11, 2023 Total slide : 50 24
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
This reaction occurs only in the cytosol, so citrulline first must leave the mitochondria. A transporter exchanges ornithine for citrulline plus a proton across the mitochondrial inner membrane.
Combination of citrulline with aspartate to form argininosuccinate is driven by breakdown of ATP to AMP
ATP
AMP + PPi + H2O
aspartate
argininosuccinate
citrulline
NH3+
H2N-C-NH-CH2CH2CH2CH-CO2-
O-O2C-CH2CH-NH3
+
CO2-
-O2C-CH2CH-NH-C-NH-CH2CH2CH2CH-CO2-
NH3+CO2
- NH2+
April 11, 2023 Total slide : 50 25
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
This reaction occurs in the cytosol.
Argininosuccinate splits into arginine and fumarate
-O2C-CH=CH-CO2-
fumarate
argininosuccinate
arginine
-O2C-CH2CH-NH-C-NH-CH2CH2CH2CH-CO2-
NH3+CO2
- NH2+
NH2+ NH3
+
H2N-C-NH-CH2CH2CH2CH-CO2-
April 11, 2023 Total slide : 50 26
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
This reaction occurs in the cytosol. To continue the cycle, ornithine must return to a mitochondrion.
Hydrolysis of arginine releases urea and regenerates ornithine
arginine
H2O
NH2+ NH3
+
H2N-C-NH-CH2CH2CH2CH-CO2-
urea ornithineH+
NH3+
H2N-CH2-CH2-CH2-CH-CO2-
OH2N-C-NH2
April 11, 2023 Total slide : 50 27
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
urea
argininosuccinate
-O2C-CH2CH-NH3+
CO2-
Asp
Formation of urea consumes 4 phosphate anhydride bonds
-O2C-CH2CH-NH-C-NH-CH2CH2CH2CH-CO2-
NH3+CO2
- NH2+
OH2N-C-NH2
ATP
PPi + AMP
HCO3-
NH4+
carbamoyl phosphate
citrulline
NH3+
H2N-C-NH-CH2CH2CH2CH-CO2-
O
Pi
H2N-C-O-P-O-
O O
O-
ornithine
2 Pi
H2O
2 ATP 2 ADP + Pi
April 11, 2023 Total slide : 50 28
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Input-Output
2 ADP
1. NH4+ + CO2 + 2 ATP
2. carbamoyl phosphate + ornithine
3. citrulline + aspartate + ATP
4. AMP + ATP
5. PPi + ATP
6. argininosuccinate
7. arginine + H2O
SUM: NH4+ + CO2 + 4 ATP + aspartate
2 ADP
carbamoyl phosphate + 2 ADP + Pi
citrulline + Pi
argininosuccinate + AMP + PPi
arginine + fumarate
urea + ornithine
urea + fumarate + 4 ADP + 4 Pi
April 11, 2023 Total slide : 50 29
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
The aspartate consumed in the urea cycle can be regenerated from the fumarate that is produced
urea
carbamoyl phosphate
arginine
ornithine
citrulline
argininosuccinate
HCO3- +
NH4+
ATP
AMP + PPi
2 ATP 2 ADP + Pi
fumarate
H2O
malate
aspartate
oxaloacetate
NAD+
NADH
-keto acids amino acids
aspartate-oxaloacetate
aminotransferase
Urea cycle
malate dehydrogenase
Pi
This process also uses both cytosolic and mitochondrial enzymes
April 11, 2023 Total slide : 50 30
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Oxidation of malate in mitochondria generates ATP
cytosol
urea
fumarate
carbamoyl phosphate
arginine
ornithine
ornithine citrulline
citrulline
argininosuccinate
aspartate
malate
NADH
NAD
malate
-ketoglutarate glutamate
amino acids -ketoacids
aspartate
oxaloacetate
glutamate
-ketoglutarate
2 e- to O2 via NADH dehydrogenase generates ~ 2.5 ATP
ATP
AMP + PPi
2 ATP 2 ADP + Pi
NADH, NAD+ and oxaloacetate can’t cross the mitochondrial inner membrane, but there are transporters for malate, aspartate, glutamate and -ketoglutarate.
H2O
Pi
mitochondrionHCO3
-
+ NH4+
April 11, 2023 Total slide : 50 31
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Transport systems in the mitochondrial inner membrane exchange aspartate for glutamate and a-ketoglutarate for
malate
mitochondrion
cytosol
aspartate- malate-ketoglutarateglutamate- + H+
aspartate- malate-ketoglutarate
Because the Asp/Glu transporter also moves a proton across the membrane, it can be driven by an electrochemical potential gradient.
Mutations in this transporter have been linked to autism.
glutamate- + H+
April 11, 2023 Total slide : 50 32
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Alpha--ketoglutarate/malate and aspartate/glutamate transporters also participate in oxidation of cytosolic NADH
cytosol
aspartate malate-ketoglutarateglutamate
oxaloacetate
NAD+
NADH
glycolysis
oxaloacetate
NADH
aspartate malate-ketoglutarateglutamate
mitochondrion
NAD+
2 e- to electron-transport chain
April 11, 2023 Total slide : 50 33
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Well Fed State
NH4
Asp
OAA
Glu KAs
a.a.'s
a.a.'s
CO2 + H2O
KG
+
Mal
ureacycle
urea
fumarate
malate
Net: 2 NH4+ + CO2 + 4 ATP urea + 4 ADP + 4 Pi
April 11, 2023 Total slide : 50 34
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Fasted State
pyr Glu
OAA
Asp
NH4
OAA
ala
ala
Glucose
KG
+ureacycle
urea
fumarate
malate
2 ala + CO2 1 urea + 1 glucose
Gluconeogenesis
April 11, 2023 Total slide : 50 35
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Balancing the levels of ammonia and aspartate for entry into urea cycle
NADH
NAD
NH3
NAD
NADH
NH3
(a) NH3 in excess
-Ketoglutarate
Glutamatedehydrogenase
GlutamateAspartate
transaminase
Oxaloacetate Aspartate
Carbamoylphosphate
Citrulline
Urea
Urea Cycle
(b) Aspartate in excess
-KetoglutarateGlutamatedehydrogenase
GlutamateAspartate
transaminase
Oxaloacetate Aspartate
Carbamoylphosphate
Citrulline
Urea
Urea Cycle
April 11, 2023 Total slide : 50 36
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
The urea cycle is regulated in two ways
1. Allosteric activation of carbamoylphosphate synthetase-1 by N-acetylglutamate
CO2-
CO2-
+H3N C H
CH2
CH2
+ acetyl-CoA
CO2-
CO2-
CH3CO-NH C H
CH2
CH2CoA-SH
N-acetylglutamate
carbamoyl- phosphate
NH4+ + HCO3
-
2 ATP 2 ADP + Pi
OH2N-C-O-P-O-
O
O-
2. A high-protein diet or starvation leads to increased synthesis of all five enzymes used in the urea cycle, including carbamoylphosphate synthetase-1. Expression of the enzyme that synthesizes N-acetylglutamate also increases.
Glu
In mammals, N-acetylGlu appears to play only a regulatory role. Carbamoylphosphate synthetase-1 is completely inactive in its absence. A genetic deficiency in the enzyme that forms N-acetylGlu can cause a lethal defect in the urea cycle.
April 11, 2023 Total slide : 50 37
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Urea Cycle Disorders
Deficiency of any of the five enzymes in the urea cycle results in the accumulation of ammonia and leads to encephalopathy.
Episodes of encephalopathy and associated systems are unpredictable and, if untreated, are lethal or produce devastating neurologic sequelae in long-term survivors.
Although these disorders do not produce liver disease, the consequences of hyperammonemia resemble those seen in patients with hepatic failure or in a transient interference with the urea cycle, as seen in some forms of organic acidemias.
Investigate for hyperammonemia in any infant or child with altered mental status
April 11, 2023 Total slide : 50 38
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
The urea cycle Asterisk = N-acetyl glutamate synthetase; 1 = carbamyl phosphate synthetase; 2 = ornithine transcarbamylase; 3 = argininosuccinate
synthetase; 4 = argininosuccinate lyase; 5 = arginase
April 11, 2023 Total slide : 50 39
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
UREA CYCLE DISORDERS
Disorder Deficient Enzyme Inheritance Pattern
Carbamyl phosphate synthetase deficiency
Carbamyl phosphate synthetase
Autosomal recessive
Ornithine transcarbamylase deficiency
Ornithine transcarbamylase
X-linked
Citrullinemia Argininosuccinate synthetase
Autosomal recessive
Argininosuccinic aciduria Argininosuccinate lyase Autosomal recessive
Argininemia Arginase Autosomal recessive
April 11, 2023 Total slide : 50 40
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Case
The patient is a full-term newborn boy from a normal vaginal delivery. The pregnancy was uncomplicated. At 36 hours the baby became lethargic, irritable, and was hyperventilating. Over the next 24 hours lethargy increased and progressed to coma requiring mechanical ventilation. Hemodialysis was started at 5 days. Patient died at one week of age.Laboratory ResultsAt 36 hours arterial blood pH was 7.50 (7.35-7.45), carbon dioxide was 25 torr (35-45), and blood urea nitrogen was 2 mg/dl (5-20). Sepsis workup was negative. On day 5 plasma ammonium was 1800 :mol/l (<35). Plasma glutamine was 1500 :mol/l (550-650),arginine was below normal, and citrulline undetectable. Orotic acid in the urine was extremely elevated.Family HistoryTwo of the mother’s four brothers had died shortly after birth. Cause of death was given as encephalitis.Biochemical Basis of Disorder , same as..Diagnosis: ornithine transcarbamoylase deficiency
April 11, 2023 Total slide : 50 41
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Biochemical explanations for ornithine transcarbamoylase deficiency
Low BUN
Low blood arginine
Undetectable blood citrulline
Elevated blood ammonia
Elevated blood glutamine
Elevated orotic acid
April 11, 2023 Total slide : 50 42
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
COOH
NH
NH2
NH
C
NH2
COOH
CH2
CH2
CH2
CH
H2ONH2
NH2OC
CH2NH2
CH2
COOH
H
COOH
CH2
COOH
CH
CH2
NH2
O
NH2
NH
C
NH2
COOH
CH2
CH2
CH2
CH
CH2NATP
NH
NH
C
NH2
COOH
CH2
CH2
CH2
CH
NH CH
COOH
COOH
CH2
HC
COOH
CH
O
NH2
CH2NH2
COOH
NH2
NH
CH2
C
CH2
NH2
C
COOH
CH2
CH2
H
CH2
CH
O-
O-
O
POC
O
CO2 + NH4
H2N
2 ATP
Mitochondrion
+
ADP + Pi
carbamoylphosphate
synthetase I(CPSI)
1
Carbamoyl phosphate
Ornithineornithine
transcarbamoylase
Pi
Citrulline
2
Ornithine
Citrulline
Aspartate
AMP + PPiArgininosuccinate
Fumarate
Arginine
3
4
5
argininosuccinatesynthetase
argininosuccinase
Urine
Cytosol
ureaNH4+ + Glu Gln
Carbamoyl P orotic acid
April 11, 2023 Total slide : 50 43
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Carbamoyl P synthetase deficiency
April 11, 2023 Total slide : 50 44
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
COOH
NH
NH2
NH
C
NH2
COOH
CH2
CH2
CH2
CH
H2ONH2
NH2OC
CH2NH2
CH2
COOH
H
COOH
CH2
COOH
CH
CH2
NH2
O
NH2
NH
C
NH2
COOH
CH2
CH2
CH2
CH
CH2NATP
NH
NH
C
NH2
COOH
CH2
CH2
CH2
CH
NH CH
COOH
COOH
CH2
HC
COOH
CH
O
NH2
CH2NH2
COOH
NH2
NH
CH2
C
CH2
NH2
C
COOH
CH2
CH2
H
CH2
CH
O-
O-
O
POC
O
CO2 + NH4
H2N
2 ATP
Mitochondrion
+
ADP + Pi
carbamoylphosphate
synthetase I(CPSI)
1
Carbamoyl phosphate
Ornithineornithine
transcarbamoylase
Pi
Citrulline
2
Ornithine
Citrulline
Aspartate
AMP + PPiArgininosuccinate
Fumarate
Arginine
3
4
5
argininosuccinatesynthetase
argininosuccinase
Urine
Cytosol
ureaNH4+ + Glu Gln
Carbamoyl P orotic acid
April 11, 2023 Total slide : 50 45
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Autism is a neurodevelopmental genetic disorder
Deficits in verbal & nonverbal communication and social interactions
Repetitive or stereotyped behaviors
Incidence ~1 per 1000 people (possibly higher)
Strong evidence for heritability
Polygenic - between 5 & 10 genes may be involved
Single-nucleotide polymorphisms (SNPs) in the gene for a mitochondrial, Ca2+-dependent Asp/Glu exchanger increase the risk by a factor of 3 to 4.
This is the main form of the Asp/Glu exchanger that is expressed in the brain. Mutations in the gene impair the urea cycle.
N. Ramoz et al., Am. J. Psychiatry 161: 662 (2004)
L. Palmieri et al., EMBO J. 20: 5060 (2001)
April 11, 2023 Total slide : 50 46
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Urea Cycle Disorders (Diagnosis)
Cultured skin fibroblasts may be desirable if prenatal diagnosis is considered in future pregnancies. Carbamyl phosphate synthetase I and ornithine transcarbamylase (OTC) are not expressed in cultured fibroblasts.The enzymatic diagnosis of CPSD and OTCD requires liver biopsy. Biopsy should be done when establishing the diagnosis of the first case in a family.
April 11, 2023 Total slide : 50 47
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Urea Cycle Disorders(Treatment)
Once hyperammonemia is demonstrated in an infant,
protein-containing feedings should be discontinued immediately,
appropriate supportive care, (mechanical ventilation)
Maximal calories should be provided in the form of intravenous glucose and lipids in an effort to reduce catabolism.
Plans should be immediately made to initiate hemodialysis in infants who are encephalopathic and have plasma ammonia levels over 10 times the upper limit of normal.
April 11, 2023 Total slide : 50 48
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Urea Cycle Disorders(Treatment)
Maintenance therapy
dietary protein restriction+supplementation with citrulline or arginine+ the use of drugs
The primary drug now used( provides an alternate pathway for waste nitrogen excretion) for maintenance therapy in patients with urea cycle disorders is sodium phenylbutyrate (Buphenyl).
The drug is typically administered four times a day in a dose of 0.4 to 0.6 g/kg/day. It is supplied as a powder, which can be mixed with food or formula, or as a tablet.
April 11, 2023 Total slide : 50 49
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Liver transplantation for Severe neonatal OTC and CPS deficiency. Liver failure and cirrhosis in ASL deficiency. Failed medical-pharmacologic treatment.
Pretransplant care byaggressively managing intercurrent hyperammonemia, vaccinations and prophylaxis are given against infectious appropriate caloric intake
Gene replacement
Urea Cycle Disorders(Treatment)
April 11, 2023 Total slide : 50 50
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
Genetic deficiencies in some of the urea-cycle enzymes can be treated pharmacologically
benzoate
benzoyl-CoA
hippurate (benzoylglycine)
CO2-
ATP + CoA-SH
AMP + PPi
glycine
CoA-SH
phenylacetate
phenylacetyl-CoAO
S-CoA
phenylacetyl-glutamine
ATP + CoA-SH
AMP + PPi
glutamine
CoA-SH
The amide products of these reactions (hippurate and phenylacetylglutamine) are excreted in the urine. Replenishing the Gly or Gln removes ammonia.
CO2-
O
S-CoA
O
NH
CO2-
O
N
NH2
O
HCO2
-
Metabolic Disorders of Urea Cycle
Metabolic & Molecular Basis of Inherited Disease
THE END