Degradation of Amino Acids 1:Urea Cycle

Question 1

What are the products of the reactions catalyzed by the following enzymes:

• Glu DH
• Gln synthetase ( main brain detox)
• Carbomyl phosphate synthetase I (1 step of urea synthesis)

Answer 1

• Glu
• Gln
• Carbomyl phosphate

Question 2

The levels in type II hyperammonemia

• Urine orotate
• Blood citrulline
• Blood Arginine
• Blood NH3

Answer 2

• High
• low
• low
• high

Question 3

The reaction catalyzed by carbomyl phosphate synthetase I

Answer 3

• Formation of carbomyl phosphate
• reactants: CO₂ and NH₄⁺
• uses 2 ATPs
• 1st step in urea synthesis
• one of 3 enzymes that can “fix” free ammonia into organic molecules
• controls blood ammonia level

Question 5

Citruline synthesis

1. enzyme
2. location
3. transport of ractant and product
4. enzyme deficiency

Answer 5

catalyzed by ornithine transcarbamoylase

takes place in mitochondria.

ornithine is transported into the mitochondria from the cytosol by ornithine translocase.

citrulline is transported to the cytosol.

deficiency causes Type II Hyperammonemia.

Question 6

Glutamine transport to the liver

• Gln producers
• Gln users

Answer 6

Net glutamine producers: Muscle and brain.

Main glutamine users: Kidney, gut, immune cells and liver

Question 7

Glucose/Alanine Cycle

Answer 7

muscle: Glucose → pyr → Ala

Liver: Ala → C and N^*

N converts to urea and excreted in urine

C convers to glucose and enters the glycolytic tissue

* ALT converts the Alanine to glutamate (liver)

Question 8

Sources of alanine:

Answer 8

Main: muscle (result of protein degradation and transamination)

Other: kidney, intestines (conversion of glutamine to alanine)

1- Glutamine →¹ Glutamate →² Alanine

• rxn 1 catalyzed by glutaminase
• rxn 2 catalyzed by ALT

Question 9

Reaction catalyzed by glutamate dehydrogenase

Answer 9

• a-ketoglutarate and ammonia are reactants
• Glu is the product
• reversible raction
• utlizes NADH/NADPH
• one of 3 enzymes that can “fix” free ammonia into organic molecules
• controls blood ammonia level

Question 10

Primary hyperammonemias

• names and causes
• Mode of inheritance
• metabolites as a diagnostic tool

Answer 10

• Type I hyperammonemia (CPSI or N-acetylglutamate synthase deficiency)
• Type II hyperammonemia (ornithine transcarbamoylase) (X-linked recessive)
• Citrullinuria Type I (argininosuccinate synthetase deficiency)
• Argininosuccinic acidemia (argininosuccinate lyase deficiency)
• Argininemia (arginase deficiency)

All autosomal recessive except type II.

Metabolites before the deficiency accumulate in blood/urine.

Metabolites after the deficiency have much lower levels.

Question 11

Regulation of mt. CPSI

1. High [Arg]
2. High [N-acetyl-Glutamate

Answer 11

1. H. Arg leads to:

• High level of N-acetyl glutamate
• increased ornithine production ► inc urea production.

1. H. N-acetyl glutamate ► inc. CPSI activity ► inc urea production

Question 12

Reason for Ala transport to the liver

Answer 12

1. Removal of nitrogen through the urea cycle
2. Gluconeogenesis

Question 13

Argininosuccinate synthesis

1. enzyme
2. location
3. energy requirement
4. reactant formation
5. deficiency

Answer 13

1. catalyzed by argininosuccinate synthetase.
2. cytosol.
3. 1 ATP molecule.
4. aspartate is produced by transamination of oxaloacetate (AST); the aspartate nitrogen will incorporate into urea.
5. deficiency causes Citrullinuria Type I.

Question 14

Blood ammonia levels in:

1. Urea cycle disorders
2. liver damage

Answer 14

Both increased

Question 15

Two major mechanisms for the control of blood ammonia levels:

Answer 15

I.Transamination reactions “collect” nitrogen on glutamate rather than release free ammonia.

II.Three enzymes can “fix” free ammonia into organic molecules.

• Glu DH
• Gln synthetase ( main brain detox)
• Carbomyl phosphate synthetase (1 step of urea synthesis)

Question 16

Major source of alanine as a result of protein degradation and transamination:

Answer 16

Muscle

Question 17

The rxn catalyzed by glutamine synthetase

Answer 17

• major detox rxn in brain
• Glu and ammonia are reactants
• forms Gln
• requires energy in the form of ATP
• one of 3 enzymes that can “fix” free ammonia into organic molecules
• controls blood ammonia level

Question 18

Disorders of urea cycle and blood ammonia levels

Answer 18

• Deficiency in the urea cycle leads increased ammonia levels in the blood (hyperammonemia)
• Ammonia is especially toxic for the nervous system.

Symptoms:

encephalopathy, cerebral edema, seizures, nausea, vomiting, lethargy, coma and death if untreated.

Question 19

The condition treated with arginine (Arg as an intermediate of urea cycle)

The mechanism of action

Answer 19

if argininosuccinate lyase is deficient.

It generates more ornithine for the urea cycle to continue.

It also catalyzes the production of N-acetyl-glutamate so accelerates CPSI.

Question 20

Transamination

Answer 20

Transfer of an a-amino group from an amino acid to an a-keto acid (reversible, aminotransferase, PLP as coenzyme)

q The main pathway of amino acid nitrogen removal is transamination

qThe amino acid nitrogen is generally collected on glutamate.

Question 21

The levels in arginosuccinic acidemia

• Urine orotate
• Blood citrulline
• Blood Arginine
• Blood NH3

Answer 21

• -
• high (200 ug)
• low
• high

Question 22

Carbamoyl phosphate synthesis (for urea cycle)

• enzyme
• rxn characteristics
• location
• energy reguirement
• regulation
• enzyme deficiency
• Alt way for biosynthesis

Answer 22

• Carbamoyl phosphate synthetase I (CPSI).
• rate-limiting, committed step, irreversible.
• mitochondria.
• 2 ATPs.
• allosterically regulated also by N-Acetyl-glutamate.
• deficiency causes Type I hyperammonemia.
• • From glutamine and CO₂ by CPSII in the cytosol. ⇒ pyrimidine synthesis

Question 23

Major steps of amino acid degradation:

Answer 23

1- N removal

• Transamination
• deamination
• deamidation

2- NH4+ clearance - Urea formation

• 1 N from NH4
• 1 N from Asp
• C from Co2

3- C backbone utilization

• Fed: glycogen and TAG synthesis
• Fasting: energy production

Question 24

Three enzymes capable of fixing N into organic molecules

Answer 24

Three enzymes can “fix” free ammonia into organic molecules.

Glu DH

Gln synthetase ( main brain detox)

Carbomyl phosphate synthetase (1 step of urea synthesis)

Question 25

Energetics of the urea cycle

Answer 25

4 high energy phosphate bonds are broken, which makes the cycle irreversible.

Part of the energy can be recovered if fumarate enters the (TCA) cycle.

Asp+NH₃+CO₂+3ATP → Urea+Fumarate +2ADP+AMP+3H₂O

Question 26

The levels in citrullinuria

• Urine orotate
• Blood citrulline
• Blood Arginine
• Blood NH3

Answer 26

• -
• high (>1,000 ug)
• low
• high

Question 27

Blood uric acid level in:

1- gout

2- pregnancy

Answer 27

1. increased
2. decreased in pregnancy

Question 28

Major source(s) of alanine as a result of the conversion of glutamine to alanine:

Answer 28

Kidney and intestine

Glutamine →¹ Glutamate →² Alanine

rxn 1 catalyzed by glutaminase

rxn 2 catalyzed by ALT

Question 29

The condition treated with citruline as an intermediate of urea cycle

Mechanism of action

Answer 29

• Type I and II hyperammonemia
• Captures Asp, so at least one N can be excreted.

Question 30

Blood Urea Nitrogen (BUN) levels:

1. Kidney damage
2. liver damage
3. Pregnancy

Answer 30

1. Inc- kidney damage
2. dec- liver damage
3. dec- pregnancy

Question 31

The central role of glutamate in nitrogen removal

Answer 31

1.It collects nitrogen from other amino acids trough transamination.

● Transamination (N collector)

2.It can provide nitrogen (NH4⁺ ) to the urea cycle through deamination by glutamate dehydrogenase.

●deamination bu glutamate dehydrogenase

3.It can provide nitrogen to urea indirectly by transaminating oxaloacetate into aspartate. Aspartate then provides an amino group to urea.

●OXA→ Asp (transamination)

4.It is a precursor for the allosteric activator of the urea cycle.

Question 32

How to reduce the ammonia load on the urea cycle

Answer 32

1. Low protein diet
2. avoid fasting
3. scavenger drugs

Question 33

Deamidation and its importance

Answer 33

Removal of amide group from Asn and Glu

Gln → Glu (glutaminase)

§ important in kidney.

§ provides most of the NH4⁺ in the urine.

§ NH₃ aids H⁺ secretion into the urine and indirectly helps to balance blood pH.

Question 34

Serum ALT level after poisoning

Answer 34

• ~ 36 hr pst poisioning the max level of ALT (x20)

Question 35

Regulation of the urea cycle

All the factors, as well as the activators and diet

Answer 35

1. N-Acetylglutamate is the allosteric activator (CPSI) (i.e. the committed rate limiting step of the cycle).
2. The synthesis of N-Acetylglutamate is activated by high arginine levels.
3. High protein diet and excessive degradation a body proteins (during fasting) will generally increase urea synthesis. (increases the synthesis of urea cycle enzyme)
4. Concentration of substrates and intermediates

Question 36

Reactions catalyzed by ALT and AST

Answer 36

Question 37

4 diagnostically important N metabolites in blood

Answer 37

Urea Nitrogen- BUN

Creatinine

Uric acid

Ammonia

Question 38

Scavenger drugs and their function in treatment of urea cycle disorders

Answer 38

A way to reduce the ammonia load on the urea cycle.

conjugate and target AA’s for urinary excretion

e.g. benzoate and phenylbutyrate

Question 39

Hepatic encephalophaty and its main causes:

Answer 39

a form of secondary hyperammonemias, when hepatocytes cannot carry out the urea cycle. (hepatic encephalopathy)

Question 40

Name 2 scavenger drug and their rxn’s

Answer 40

Benzoate + glycine → Hippuric acid ⇒ excretion

Phenylbutyrate + glutamine → Phenylacetylglutamine ⇒ excretion

Question 41

Blood creatinine levels:

1. Kidney damage
2. Pregnancy

Answer 41

1. Inc- kidney damage
2. dec- pregnancy

Question 42

Major regulators of mt. CPSI

Answer 42

Arginine and N-acetyl glutamate

Question 43

Primary and secondary hyperammonemias

Answer 43

Primary hyperammonemias:

• Enzymes involved in the urea cycle are defective.

Secondary hyperammonemias:

• Main cause is hepatic failure (such as cirrhosis, hepatitis or hepatotoxins). Hepatocytes cannot carry out the urea cycle. (hepatic encephalopathy)

Question 44

PLP

Answer 44

Pyrodoxal phosphate

B₆ (pyridoxine) → PLP

Question 45

diagnostic serum aminotransferases

ALT- AST

Answer 45

ALT and AST are present at high levels in liver.

High levels of ALT and AST in plasma indicates liver damage (cirrhosis, hepatitis, liver toxicity).

ALT is more specific than AST.

AST has been used for diagnosing myocardial infarction in the past.

Question 46

Deamination

Answer 46

Deamination: removal of the a-amino group of certain amino acids as NH4+.

Glutamate → a-ketoglutarate + NH4⁺

Liver and kidney: Glu →a-ketoglutrate (in other tissues the reverse rxn is favored.

Both rvs and fwd rxns are catalyzed by glutamate dehydrogenase

Question 47

Arginine synthesis

1. enzyme
2. location
3. spc inf.
4. fate of by-products
5. enzyme deficiency

Answer 47

1. argininosuccinate lyase.
2. cytosol.
3. the only way arginine is produced in the human body.
4. the released fumarate can enter the TCA cycle and regenerate oxaloacetate and then aspartate.
5. deficiency causes Argininosuccinyl acidemia

Question 48

Urea cycle only takes place in the liver. But amino acids are degraded in all tissues.

How does N from other tissues get to the liver?

Answer 48

Nitrogen is carried to the liver by:

Alanine and Glutamine (other aa in smaller extent)

Question 49

Cleavage of Arg into urea and ornithine

1. enzyme
2. locaiton
3. fate of arginine
4. fate of ornithine
5. deficiency

Answer 49

1. arginase.
2. cytosol.
3. arginine can be used by other pathways
   
   • Protein synthesis
   • nitric oxide synthesis
4. ornithine moves back to the mitochondrium and can react with another molecule of carbamoyl phosphate
5. deficiency causes Argininemia

Question 50

Major N metabolite in urine

Answer 50

Urea

Urine N containing metabolites: urea, NH4⁺, creatinine, and uric acid.

Major sources:

1. urea cycle (liver)
2. glutamimne (kidney)
3. Creatine phosphate (muscle)
4. Purines

Question 51

The main pathway of aminoacid nitrogen removal

Answer 51

transamination

Question 52

Urea cycle starts in ——- and ends in ——- .

Answer 52

Starts in mitochondria and is completed in the cytosol

Question 53

Urea Cycle During Fasting

Answer 53

• During fasting muscle proteins are degraded and amino acids are transported to the liver and converted to glucose.
• The nitrogen of the used amino acids are converted to urea
• During starvation the brain switches from glucose to ketone bodies (mainly from fatty acids) as energy source.
• The utilization of amino acids decreases ► decreased urea production.

Question 54

The levels in argininemia

• Urine orotate
• Blood citrulline
• Blood Arginine
• Blood NH3

Answer 54

• -
• -
• high
• moderately high

Question 55

The levels in type I hyperammonemia

• Urine orotate
• Blood citrulline
• Blood Arginine
• Blood NH3

Answer 55

• low
• low
• low
• high

Question 56

2 major ways to treat urea cylce disorders

Answer 56

A- reduce ammonia load on the urea cycle

B- provide urea cycle intermediates