Amino Acids

Question 1

Both ketogenic and glucogenic amino acid

Answer 1

1. Phenylalanine and tyrosine (tyrosine transaminase)

Question 2

Tyrosine products

Answer 2

1. Melanin (tyrosinase)
2. Catecholamines (tyrosine hydrolase)
3. Thyroxine (iodination)

Question 3

Explain hydroxylation of phenyl alanine

Answer 3

Phenyl alanine hydroxylase

Tetra hydrobiopterin to dihydrobiopterin which is recycled by NADPH dependent dihydrobiopterin reductase

(tetrahydrobiopterin is formed from GTP by GTP Cyclo hydroxylase)

Irreversible reaction

Question 4

Defects in phenylalanine hydroxylase reaction

Answer 4

1. Defect in the enzyme is Phenyl ketonuria Type I (Classic)
2. In dihydrobiopterin reductase , causes PKU type 2 and 3 (non classic)
3. BH4 formation defect, PKU type 4 and 5 (non classic)

Question 5

Vitamin c requiring enzyme in tyrosine metabolism

Answer 5

PHPP hydroxylase
(dioxygenase)

Type 3 tyrosinemia

which converts PHPP ( pyruvate equivalent of tyrosine ) to homogentisate

Question 6

Step in tyrosine metabolism requiring Fe2+

Answer 6

Homogentisate oxidase (dioxygenase)

Alkeptonuria

Converting homogentisate to maleyl acetoacetate (MAA)

Question 7

GSH requiring enzyme in tyrosine metabolism

Answer 7

MAA cis trans isomerase

Which converts maleyl acetoacetate (MAA) to Fumaryl acetoacetate

(Which is later split by fumaryl acetoacetate hydrolase
Type 1 tyrosinemia)

Question 8

Substances that activate the steps of tyrosine metabolism

Answer 8

1. Vitamin C activates PHPP hydroxylase (Type 3 tyrosinemia)
2. Fe+2 activates Homogentisate oxidase (Alkeptonuria)
3. GSH activates MAA cis trans isomerase

Later fumaryl acetoacetate hydrolase acts
(Type 1 tyrosinemia)

Question 9

Tyrosinemia type 1

Answer 9

Hereditary Tyrosinemia/hepatorenal tyrosinemia
Most common

FAA hydrolase

Resembles porphyria
Cabbage like odour

Question 10

Treatment for hepatorenal tyrosinemia and alkeptonuria

Answer 10

Nitisinone NTBC

Inhibits PHPP hydroxylase

Question 11

Type 2 tyrosinemia

Answer 11

Oculocutaneous / Richner Hanhart syndrome

Tyrosine transaminase
Corneal ulcer
Nonpruritic hyperkeratotic plaque seen in soles and palms

Question 12

Type 3 tyrosinemia

Answer 12

Neonatal tyrosinemia

Least common

Question 13

Hawkinsonuria

Answer 13

Mutant enzyme is PHPP hydroxylase (enzyme of type 3 tyrosinemia)

Swimming pool odour
Compound hawkinson produced

Question 14

PKU

Answer 14

Phenyl alanine hydroxylase
Phenylacetate is responsible for mousy or musty odour
Hypopigmentation not albinism (blue eyes, blonde hair,fair skin)

Neurological manifestations(due to decreased thyroxine and neurotransmitter due to…)

Question 15

Infants and PKU

Answer 15

Severe vomiting often misdiagnosed as congenital hypertrophic pyloric stenosis

Question 16

Diagnosis of PKU

Answer 16

1. Guthrie bacterial inhibition test using Bacillus subtilis
2. Ferric chloride test (transient blue green colour) by phenyl pyruvate
3. Blood phenylalanine level >20 mg/dl
4. Tandem mass spectrometry /Fluorometric analysis

Question 17

Treatment of PKU

Answer 17

1. Restrict phenylalanine
2. Sapropterin dihydrochloride /Kuvan (synthetic tetrahydrobiopterin)
3. Large neutral amino acid (to prevent toxicity by phenylalanine saturation to tyrosine and tryptophan transport )
4. Recombinant therapy using phenylalanine ammonia lyase

Question 18

Alkeptonuria ( part of Garrods tetrad (CAAP))

First inborn error to be detected

Answer 18

Benzoquinone acetate (reducing agent) is polymerised to alkeptonuria bodies in pinna ,sclera,…(blackish spots)

Ochronosis due to accumulation in cartilage

Low back ache in middle age

Blackish discloration in the top layers
Black or red in diaper

Question 19

Lab diagnosis of alkeptonuria

Answer 19

1. Alkalanisation of urine
2. Ferric chloride test
3. AgNO3 test
4. X-ray of spine-
   parrot beak appearance
   Bamboo like spine

Question 20

Segawa syndrome

Answer 20

GTP cyclohydrolase

Autosomal dominant ,in females

Dystonia with diurnal variation
BH4 level reduced
Phenylalanine level normal

Question 21

Synthesis of DOPA

Answer 21

1. Tyrosine hydroxylase (RDS)
2. DOPA decarboxylase( with PLP)
3. Dopamine beta oxidase
4. N Methyl transferase (with SAM)

Question 22

The 3 aromatic amino acid hydroxylases requiring tetrahydrobiopterin, NADPH

Answer 22

1. Phenylalanine hydroxylase
2. Tyrosine hydroxylase
3. Tryptophan hydroxylase

These are monooxygenases

Question 23

Degradation of catecholamines

Answer 23

1. Dopamine- Homo Vanillic Acid
2. Epinephrine - (COMT) metanephrine - (MAO) Vanillyl Mandelic acid
3. Norepinephrine -(COMT) normetanephrine - (MAO) VMA

COMT - CatecholOMethyl transferase
MAO - Monoamine oxidase

Question 24

Triad of pheochromocytoma

Answer 24

Palpitation, headache, Profuse sweating

Question 25

Melanin

Answer 25

Tyrosine to DOPA then to Dopaquinone by tyrosinase

Then to melanin

Question 26

Albinism

Answer 26

Milky white skin and hair

Red eye reflex

Question 27

Sulphur test is answered by

Answer 27

Cysteine ,not methionine

Both are glucogenic

Question 28

Formation of SAM

Answer 28

Methionine adenosyl transferase (MAT)
This enzyme has 3 isoforms
MAT 1 and 3 are present in hepatic tissues
MAT 2 is present in the extra hepatic tissues

Question 29

Significance’s of SAM

Answer 29

1. Transmethylation reactions
   a) creatine
   b) epinephrine
   c) metanephrine
   d) choline
   e) anserine
   f) melatonin
2. Polyamines
3. DNA methylation

Question 30

Polyamines formation

Answer 30

1. Cadaverine (lysine on decarboxylation
2. Putrescin (ornithine on decarboxylation via ornithine decarboxylase RDS)
3. Spermidine (putrescin accepts amino group from decarboxylated SAM)
4. Spermine ( spermidine accepts amino in the same way)

Question 31

Polyamine function

Answer 31

Positively charged so interact with DNA and regulate gene expression
Excreted in some cancers

Question 32

Formation of Homocysteine

Answer 32

From SAH (formed via methyl transferase) which is acted by adenosyl homocysteinase to get homocysteine

Question 33

Formation of methionine from homocysteine

Answer 33

N5 Methyl THFA is coupled with methyl B12

If there is vitamin deficiency of B12 , folic acid or PLP, it leads to homocystinuria, not homocysteinuria. Thus CVA, CAD increases.

Question 34

Transulfuration reactions

Answer 34

Homocysteine + serine = cystathionine (via cystathionine beta synthase and PLP)
= homoserine + cysteine (via cystathionase and PLP)

Question 35

Fate of homoserine

Answer 35

Converted to propionyl CoA then to succinyl CoA then via TCA to glucogenic

Question 36

Oast House syndrome

/ Smith Strang disease

Answer 36

Defect in methionine transporter which transports methionine from intestine to blood

Question 37

Primary hyper methioninemia

Answer 37

Deficiency of MAT

Smell of boiled cabbage

Question 38

Classic homocystinuria (no E)

Answer 38

Deficiency of cystathionine beta synthase

Question 39

Cystathioninuria

Answer 39

Defect of cystathionase

Cyanide nitroprusside test -ve

Question 40

Non classic homocystinuria (no E)

Causes

Answer 40

Deficiency in N5 THFA (from folic acid) or methyl B12
1. N5 THFA deficiency may occur due to defect in MTHFR (Methylene THF reductase)
Megaloblastic anaemia absent
2. B12 deficiency
Megaloblastic anaemia present

Question 41

Classic homocystinuria

Clinical features

Answer 41

1. Developmental delay
2. Around 3 years, decreased vision, progressive myopia and quivering of eye (iridodonesis)
   Medial and downward dislocation of lens (ectopia lentis)
3. Skeletal deformities
4. Severe mental retardation
5. Thromboembolism

Resembles Marfans syndrome

Question 42

Skeletal deformities of classic homocystinuria

Answer 42

1. Pectus cavinatum or pectus excavatum
2. Arachnodactyly
3. Knee deformities
   Genu valgum/ varum
4. Coxa vara
   Pescavus
5. High arched palate

Question 43

Diagnosis and screening of homocystinuria

Answer 43

Diagnosis by Cyanide nitroprusside test (magenta colour) ,answered by homocysteine, homocystine, cysteine and cystine.

Screened by tandem mass spectrometry

Question 44

Treatment of classic homocystinuria

Answer 44

1. High doses of vitamin B6

Question 45

Non classic homocystinuria

Answer 45

Homocysteinemia

Methionine level is decreased but cysteine level is normal

Question 46

Cystinuria

Answer 46

Part of Garrods tetrad (CAAP)
Defect in diabetic amino acid transporter in intestine and renal tubules

COLA in urine
Cystine (no E) ,ornithine, lysine, arginine

Cyanide nitroprusside test +ve

Question 47

Cystinosis

Answer 47

Lysosomal storage disorder
H+ driven cystine transporter called cystinosin (of gene CTNS)
Hepatic failure, renal failure, corneal opacity, bone marrow also affected

Question 48

Treatment of cystinosis

Answer 48

Cysteamine which converts cystine to cysteine

Question 49

Cysteine functions

Answer 49

1. On decarboxylation gives betamercapto ethanolamine
2. CoA
3. Taurine (bile acids)
4. Glutathione
5. Cystine

Question 50

Glutathione

Answer 50

Tripeptide (gamma glutamyl cysteinyl glycine)

Pseudopeptide (not an alpha carboxyl bond)

Question 51

Functions of glutathione

Answer 51

1. Meister cycle (for amino acid transport)
2. RBC membrane integrity
3. Maintains Fe as +2
4. Phase 2 xenobiotic reactions- conjugating agent
5. Antioxidant
6. Coenzyme of cis trans isomerase MAA to FAA

Question 52

Enzymes involved in RBC membrane integrity

Answer 52

Glutathione peroxidase containing selenocysteine (which converts H2O2 to H2O by formation of GSSG)

GSSG is recycled back to GSH by glutathione reductase (containing riboflavin) and NADPH