Enzymes and Biochem principles

Question 1

UDP-glucuronyl transferase

Answer 1

conjugates bilirubin by adding glucuronyl group

• mild decrease = Gilbert
• absent = Crigler-Najjar Type 1
• mutated = Crigler-Najjar Type 2

Question 2

Rate limiting step in pyrimidine synthesis is catalyzed by which enzyme

Answer 2

Carbamoyl phosphate synthetase II

-converts glutamine + CO2 + ATP into carbamoyl phosphate

Question 3

Autosomal recessive defect in UMP synthase

Answer 3

Orotic aciduria

FTT, developmental delay, megaloblastic anemia that doesn’t respond to folate or B12

• no high ammonia
• orotic acid in urine
• tx with uridine monophosphate supplementation

Question 4

Rxn catalyzed by UMP synthase

Answer 4

orotic acid –> UMP

-needed or pyrimidine synthesis

Question 5

Disease resulting from absent HGPRT

Answer 5

Lesch-Nyhan

• X-linked
• excess uric acid production
• intellectual disability, hyperuricemia (orange “sand” in diaper), gout, dystonia, aggression, self-mutilation
• tx = allopurinol or febuxostat for gout

Question 6

Rxns catalyzed by HGPRT

Answer 6

hypoxanthine –> IMP, guanine –> GMP

-purine salvage pathway

Question 7

Rxn catalyzed by Adenosine deaminase

Answer 7

degradation of adenosine and deoxyadenosine in purine salvage pathway

Question 8

Result of a deficiency in ADA

Answer 8

SCID - autosomal recessive

-due to increase in dATP which is toxic to lymphocytes

Question 9

Rate limiting step in purine synthesis is catalyzed by which enzyme

Answer 9

Glutamine PRPP amidotransferase

PRPP –> IMP

Question 10

Disease due to defect in mismatch repair

Answer 10

Lynch syndrome (HNPCC)

Question 11

Disease due to defect in nonhomologous end joining

Answer 11

ataxia telangiectasia (also fanconi anemia)

Question 12

Disease due to defect in nucleotide excision repair

Answer 12

Xeroderma pigmentosum (can’t fix thymidine dimers - very sensitive to sun)

Question 13

Function of DNA pol alpha

Answer 13

synthesize lagging strand and make RNA primers

Question 14

Function of DNA pol delta

Answer 14

synthesize leading strand

Question 15

Function of DNA pol gamma

Answer 15

synthesize mitochondrial DNA

Question 16

Function of DNA pol beta

Answer 16

base excision repair

Question 17

Hyperphagia, obesity, intellectual disability, hypogonadism, hypotonia

Answer 17

Prader-Willi syndrome

Question 18

Defect in Prader-Willi syndrome

Answer 18

paternal gene on chromosome 15 is mutated/deleted; maternal gene is imprinted normally
POP - paternal, obesity/over eating, prader-willi

Question 19

inappropriate laughter, seizures, ataxia, severe intellectual disability

Answer 19

Angelman syndrome

Question 20

Defect in Angelman syndrome

Answer 20

maternal gene on chromosome 15 is mutated/deleted (paternal is imprinted)

• think “angel’s miss their mom”
• MAMA = angelMan, ataxia, maternal gene, mood change (very happy/laughing)

Question 21

Enzyme that converts glucose to G-6-P

Answer 21

glucokinase - liver, beta cells of pancreas

hexokinase - all other tissues

Question 22

Rate limiting enzyme in glycolysis

Answer 22

phosphofructokinase-1 (PFK-1)

converts Fructose-6-phosphate to Fructose-1,6-bisphosphate

Question 23

What substrates promote PFK-1?

Answer 23

AMP, Fructose-2,6-bisphosphate

Question 24

What substrates inhibit PFK-1?

Answer 24

ATP, citrate

Question 25

What are the two enzymes that control production of F-2,6-BP (either decrease or increase its production)?

Answer 25

PFK-2 makes Fructose-2,6-BP (induced by insulin to increase glycolysis)

Fructose bisphosphatase-2 converts F-2,6-BP back to F-6-P (induced by glucagon under fasted states in order to promote gluconeogenesis)

Question 26

What is the most common glycolytic enzyme deficiency?

Answer 26

pyruvate kinase deficiency

Question 27

What is the clinical consequence of a pyruvate kinase deficiency?

Answer 27

hemolytic anemia

Question 28

What enzyme is missing in muscle cells to prevent them from doing gluconeogenesis?

Answer 28

glucose-6-phosphatase

gluconeogenesis occurs in liver mostly (some in kidney and intestinal epithelium)

Question 29

What are the sources for gluconeogenesis?

Answer 29

odd chain fatty acids, TCA molecules, AA

Question 30

What is the rate limiting step in gluconeogenesis?

Answer 30

fructose-1,6-bisphosphatase

converts fructose-1,6-bisphosphate to fructose-6-phosphate

Question 31

What promotes and what inhibits fructose-1,6-bisphosphatase?

Answer 31

promotes = citrate (means high energy state)
inhibits = fructose-2,6-bisphosphate

Question 32

What are the four irreversible enzymes of gluconeogenesis?

Answer 32

pyruvate carboxylase, PEP carboxykinase, fructose-1,6-bisphosphatase, glucose-6-phosphatase

Question 33

How do epinephrine and glucagon raise blood sugar?

Answer 33

stimulate protein kinase A in the liver to activate glycogen phosphorylase kinase –> release glucose from glycogen

Question 34

How does insulin increase glycogen formation?

Answer 34

activated glycogen synthase

Question 35

What is the rate limiting step in glycogenesis?

Answer 35

Glycogen synthase - forms the alpha-1,4 glycosidic linkages

Question 36

What enzyme is not found in muscles and is found in liver and acts to release glucose after glycogenolysis?

Answer 36

glucose-6-phosphatase

-reason glucose stored by muscles cell stays in that cell

Question 37

Rate limiting enzyme in glycogenolysis

Answer 37

glycogen phosphorylase

Question 38

Deficient enzyme in Von Gierke disease

Answer 38

Glucose-6-phosphatase

Question 39

Deficient enzyme in Cori disease

Answer 39

debranching alpha-1,6-glucosidase

Question 40

Deficient enzyme in Pompe disease

Answer 40

lysosomal alpha-1,4-glucosidase

Question 41

Deficient enzyme in McArdle disease

Answer 41

skeletal muscle glycogen phosphorylase

Question 42

Presents with lactic acidosis, hyperlipidemia, hyperuricemia (gout)

Answer 42

Von Gierke

Question 43

Presents with cardiomegaly

Answer 43

Pompe disease (infantile type)

Question 44

Presents with diaphragm weakness leading to resp. failure

Answer 44

Pompe disease

Question 45

Presents with increased glycogen in liver, severe fasting hypoglycemia

Answer 45

Von Gierke

Question 46

Presents with hepatosplenomegaly, hypoglycemia, hyperlipidemia (normal kidneys, lactate, uric acid)

Answer 46

Cori disease

Question 47

Presents with painful muscle cramps, myoglobinuria with strenuous exercise which can lead to renal failure

Answer 47

McArdle disease

Question 48

Severe hepatosplenomegaly, enlarged kidneys

Answer 48

Von Gierke disease

Question 49

Tx for Von Gierke disease

Answer 49

frequent oral glucose and cornstarch

Question 50

Which glycogen storage disease is most lethal?

Answer 50

Pompe disease, infantile type

Question 51

Which glycogen storage disease can lead to seizures if untreated?

Answer 51

Von Gierke disease - due to high lactic acid

Question 52

Possible products of pyruvate

Answer 52

oxaloacetate (gluconeogenesis), alanine (carries nitrogen), lactate (anaerobic glycolysis), acetyl-CoA (glycolysis)

Question 53

Two main nitrogen transporters in the blood

Answer 53

alanine, glutamine

Question 54

Major regulatory enzymes in TCA cycle

Answer 54

alpha-ketoglutarate dehydrogenase, citrate synthase, isocitrate dehydrogenase

Question 55

Rate limiting step in TCA

Answer 55

isocitrate dehydrogenase

Question 56

What are the mitochondrial uncouplers?

Answer 56

aspirin OD, 2,4-dinitrophenol, thermogenin in brown fat

Question 57

What are the cofactors required by pyruvate dehydrogenase complex (links glycolysis to TCA cycle by converting pyruvate to acetyl-CoA)?

Answer 57

TLC for Nobody

• Thiamine pyrophosphate (Vit B1)
• Lipoic acid
• CoA (Vit B5, pantothenic acid)
• FAD (Vit B2, riboflavin)
• NAd (Vit B3, niacin)

Question 58

What toxin causes GI distress + garlic breath and inhibits pyruvate dehydrogenase?

Answer 58

arsenic

Question 59

What are the effects a deficiency in pyruvate dehydrogenase?

Answer 59

pyruvate gets shunted to lactate and alanine

• lactate acidosis, neuro defects, increase serum alanine
• tx = increase fat in diet, supplement with lycine and leucine to be used for energy instead of glucose
• can be X-linked, due to arsenic, or Vit B def.

Question 60

Rate limiting enzyme in Pentose Phosphate Pathway

Answer 60

Glucose-6-phosphate dehydrogenase

converts G-6-P to Ribulose-5-P and NADPH
*important for forming NADPH

Question 61

Purpose of PPP/HMP shunt

Answer 61

form NADPH for reductive reactions

Question 62

How does G6PD deficiency presents?

Answer 62

hemolytic anemia - RBCs are unable to reduce oxidative species due to decrease in NADPH

-usually sets in after stressing factor = infection, fava beans, TB drugs, sulfonamides, nitrofurantoin

Question 63

What are the two distinct cell types seen in hemolytic anemia with G6PD def?

Answer 63

bite cells, heinz bodies (denatured Hb precipitates within cells)

Question 64

Presents with failure to thrive, jaundice, hepatomegaly, infantile cataracts, intellectual disability

Answer 64

Classic galactosemia

tx - exclude galactose, lactose from diet

Question 65

Deficiency in classic galactosemia

Answer 65

galactose-1-phosphate uridyltransferase

Question 66

Presents with galactosemia and galactosuria, infantile cataracts

Answer 66

Galactokinase deficiency

Question 67

Presents with hypoglycemia, jaundice, cirrhosis, vomiting, urine dipstick is negative for sugar

Answer 67

Fructose intolerance - severe hypoglycemia because the Fructose-1-P accumulates and there is no phosphate for glycogenolysis or gluconeogenesis

Tx - decrease intake of fructose and sucrose
*dipstick cannot pick up fructose

Question 68

What is the deficiency in fructose intolerance?

Answer 68

aldolase B

-aldolase B means this is the bad fructose dz

Question 69

What is the deficiency in essential fructosuria?

Answer 69

fructokinase

-kinase is the kind disease

Question 70

Benign dz that presents with fructose in blood and urine

Answer 70

Essential fructosuria

Question 71

What disease results from protein malnutrition?

Answer 71

Kwashiokor

Question 72

How does kwashiokor present?

Answer 72

FLAMES - fatty liver, anemia, malnutrition, edema, skin lesions (child in Africa with swollen belly)

Question 73

What disease results from total calorie malnutrition and causes muscle wasting, loss of subcutaneous fat, and edema?

Answer 73

Marasmus

Question 74

What is the rate-limiting enzyme in ketone body synthesis?

Answer 74

HMG CoA synthase

Question 75

What occurs in refeeding syndrome?

Answer 75

cells reuptake lytes –> drop in serum mag, phosphate, potassium
-can lead to arrhythmias and neuro problems

Question 76

What leads a fruity odor on the breath?

Answer 76

conversion of acetoacetate to acetate in someone who is producing ketone bodies

Question 77

What ketone body is detected on urine test?

Answer 77

acetoacetate (not Beta-hydroxybutyrate)

Question 78

What occurs in starvation and DKA to cause ketone synthesis?

Answer 78

depletion of oxaloacetate depleted for gluconeogenesis –> build up acetyl-CoA more than TCA cycle can handle

-results in glucose and FFA shunted to ketone synthesis

Question 79

What occurs in alcoholism to cause ketone synthesis?

Answer 79

excess NADH (low NAD+) shunts oxaloacetate to malate –> build up acetyl-CoA more than TCA cycle can handle

-results in glucose and FFA shunted to ketone synthesis

Question 80

What are the fuels used during fasting states?

Answer 80

glucose (glycogenolysis and gluconeogenesis), FA from fat

-glucose is used by all tissues

Question 81

What are the fuels made/used after fasting for 24 hours?

Answer 81

glucose and FA produced

• brain uses glucose
• muscles/other tissues use mostly FA, some glucose

Question 82

What are the fuels made/used after fasting for 48 hours?

Answer 82

glucose, FA, ketone bodies produced

• brain uses mostly glucose, some ketones
• muscles/other tissues use mostly FA, some ketones

Question 83

What are the fuels made/used after fasting for 5 days?

Answer 83

glucose, FA, ketone bodies produced

• brain uses mainly ketone bodies
• muscles/other tissues mainly use FA, some ketones

after 3 days, 60% of energy comes from ketones

Question 84

Apolipoprotein that activates LCAT

Answer 84

ApoA-I

Question 85

Apolipoprotein that mediates chylomicron secretion

Answer 85

ApoB-48

Question 86

Apolipoprotein that mediates VLDL secretion and allows particles to leave the liver

Answer 86

ApoB-100

Question 87

Apolipoprotein that mediates remnant particle uptake

Answer 87

ApoE

Question 88

Apolipoprotein that acts as a cofactor for lipoprotein lipase

Answer 88

ApoC-II

Question 89

Autosomal recessive mutation in MTP gene, presents with decrease ApoB-48 and ApoB-100, steatorrhea, night blindness and ataxia (due to decrease uptake of fat soluble vitamins)

Answer 89

Abetalipoproteinemia

Question 90

Key cells seen on a peripheral smear of a pt with abetalipoproteinemia

Answer 90

acanthocytosis of RBCs (defect in cell membrane)

Question 91

Functions to deliver dietary TGs to peripheral tissues and delivers cholesterol back to liver

Answer 91

chylomicron

Question 92

Functions to deliver hepatic TGs to peripheral tissues

Answer 92

VLDL

Question 93

Degradation product of VLDL, delivers TGs and cholesterol to liver

Answer 93

IDL

Question 94

Delivers hepatic cholesterol to peripheral tissues, take up via receptor-mediated endocytosis

Answer 94

LDL

Question 95

Deficiency in familial hypercholesterolemia

Answer 95

LDL receptor deficiency

Question 96

Mediates reverse cholesterol transport from periphery to liver, repository for ApoC and ApoE

Answer 96

HDL

Question 97

Presents with pancreatitis, hepatosplenomegaly, pruritic xanthomas, but no increased risk for arthersclerosis

high TGs, chylomicrons, cholesterol

Answer 97

Type I Hyperchylomicronemia

Question 98

Defect in Type I hyperchylomicronemia

Answer 98

lipoprotein lipase or apolipoprotein C-II deficiency

Question 99

Defect in Type IIa Familial hypercholesterolemia

Answer 99

absent or defective LDL receptors

Question 100

Presents with high LDL cholesterol, can present with an MI in a very young person (before 20), tendon xanthomas (achilles typically), increased risk or atherosclerosis

Answer 100

Familial hypercholesterolemia

Question 101

Presents with high TGs (>1000), acute pancreatitis

Answer 101

Hypertrigyceridemia - hepatic overproduction of VLDL

Question 102

Rate limiting enzyme for fatty acid synthesis

Answer 102

Acetyl-CoA carboxylase (occurs in cytoplasm)

Question 103

Rate limiting enzyme for Beta-oxidation of fatty acids

Answer 103

carnitine acetyltransferase I (occurs in mitochondria)

Question 104

Rate limiting enzyme for cholesterol synthesis

Answer 104

HMG CoA reductase

Question 105

What compounds can be made from phenylalanine?

Answer 105

tyrosine, dopa, dopamine, NE, Epi

Question 106

What is the precursor to melanin?

Answer 106

dopa

Question 107

What enzyme converts dopamine to NE and what cofactor does it need?

Answer 107

dopa beta-hydroxylase

cofactor = Vit C

Question 108

What cofactor helps convert NE to Epi?

Answer 108

SAM (also uses cortisol)

Question 109

What compounds can be made from arginine?

Answer 109

creatine, urea, nitric oxide

Question 110

What compounds can be made from glutamate?

Answer 110

GABA (requires B6), Glutathione

Question 111

What compounds can be made from glycine?

Answer 111

porphyrin (need B6) –> heme

Question 112

What compounds can be made from histadine?

Answer 112

histamine (need B6)

Question 113

What compounds can be made from tryptophan?

Answer 113

niacin (requires B6, B2) –> NAD/NADP

serotonin (requires BH4, B6) –> melatonin

Question 114

Essential Amino Acids

Answer 114

PVT TIM HaLL - phenylalanine, valine, tryptophan, threonine, isoleucine, methionine, histadine, lysine, leucine

Question 115

Acidic Amino Acids

Answer 115

Aspartate, Glutamate (negative charge at body pH)

Question 116

Basic Amino Acids

Answer 116

Arginine, Lysine, Histadine

Question 117

Amino acids that are present in histones

Answer 117

lysine, arginine

Question 118

Amino acids needed during growth

Answer 118

arginine, histadine

Question 119

Rate limiting enzyme in urea cycle

Answer 119

carbamoyl phosphate synthetase I

• converts CO2 + NH3 (ammonia) to carbmoyl phosphate
• found in mitochondria

Question 120

Presents with increased orotic acid in urine and blood, decreased BUN, symptoms of hyperammonemia, presents in first few days of life

Answer 120

Ornithine transcarbamylase deficiency

• normally converts ornithine –> citrulline for elimination of ammonia
• tx = limit protein in diet

Question 121

Tremor, slurring speech, somnolence/lethargy, vomiting, cerebral edema, blurring vision

Answer 121

hyperammonia - due to defect in urea cycle or liver disease

Question 122

Presents with dermatitis, dementia, and diarrhea but not due to deficient Vit B3

Answer 122

Hartnup disease

Question 123

Deficiency in Hartnup disease

Answer 123

deficiency in neutral amino acid transporters in the proximal tubule and on enterocytes –> decrease tryptophan for conversion to niacin –> pellegra results

Question 124

Presents with vomiting, poor feeding, urine smells sweet; can lead to CNS defects, intellectual disability, death

Answer 124

Maple syrup urine disease

Question 125

Deficiency in maple syrup urine disease

Answer 125

decreased branched-chain alpha-ketoacid dehydrogenase –> blocked degradation of branched amino acids (leucine, isoleucine, valine)

-tx = restrict branched chain amino acids

Question 126

Presents with intellectual disability, growth retardation, seizures, fair skin, eczema, and musty body odor if untreated

Answer 126

Phenylketonuria (PKU)

Question 127

Deficiency in PKU

Answer 127

decrease in phenylalanine hydroxylase or decrease in BH4 (tetrahydrobiopterin) –> can’t make tyrosine from phenylalanine

• tx with decrease phenylalanine (aspartate, meat, dairy), increase tyrosine
• causes build up phenylketones –> in urine

Question 128

Presents with recurrent cystine hexagonal kidney stones

Answer 128

Cystinuria

Question 129

Defect in cystinuria

Answer 129

defect in renal PCT and interstitial AA transporter that prevents reabsorption of COLA - cysteine, ornithine, lysine, arginine

tx = acetazolamide to alkalinize the urine

Question 130

Presents with increased homocysteine in the urine, intellectual disability, osteoporosis, marfanoid habitus, kyphosis, lens subluxation (downward and inward), thrombosis, atherosclerosis

Answer 130

Homocystinuria

Question 131

Defect in homocystinuria

Answer 131

Cystathionine synthase deficiency, or
decreased affinity of cystathionine synthase for pyridoxal phosphate (B6), or methionine synthase

Tx = pyridoxine (Vit B6) supplements or decrease methionine intake

Question 132

Presents with bluish-black connective tissue (skin) and sclera (onchronosis), urine turns black on prolonged exposure to air, arthalgias

Answer 132

Alkaptonuria

Question 133

Defect in alkaptonuria

Answer 133

deficiency in homogentisate oxidase –> can’t break down tyrosine –> homogentistic acid builds up in tissues

benign

Question 134

Defect in albinism

Answer 134

decreased tyrosinase activity or defected tyrosine transport –> can’t make melanin

Question 135

Cherry red spot on macula, lysosomes with onion skin, progressive neurodegeneration

Answer 135

Tay-Sachs disease

deficiency in hexosaminidase A - accumulate GM2 ganglioside

Question 136

Peripheral neuropathy, developmental delay, optic atrophy, globoid cells

Answer 136

Krabbe disease

deficiency of galactocerebrosidase - build up galactocerebrosidase

Question 137

Central and peripheral demyelination, with ataxia and dementia, vision loss

Answer 137

Metachromatic leukodystrophy

deficiency of arylsulfatase A - cerebroside sulfate

Question 138

Progressive neurodegeneration (dysphagia, dysarthria, ataxia), hepatosplenomegaly, foam cells, cherry spot on macula

Answer 138

Niemann-Pick disaese

deficiency of sphingomyelinase- build up sphingomyelin

Question 139

Hepatosplenomegaly, pancytopenia, osteoporosis, lipid-laden macrophages that resemble crumpled tissue paper

Answer 139

Gaucher disease

deficiency in glucocerebrosidase - build up glucocerebroside

Question 140

Triad of episodic peripheral neuropathy, angiokeratomas (little papules around buttock/groin), hypohidrosis

-later leads to renal failure and CV dz

Answer 140

Fabry disease (X-linked)

alpha-galactosidase A - build up ceramide trihexoside

Question 141

Developmental delay, gargoylism (course facial features and short statures), corneal clouding, hepatosplenomegaly

Answer 141

Hurler syndrome

alpha-L-iduronidase deficiency

Question 142

Mild Hurler syndrome + aggressive behavior, without corneal clouding

Answer 142

Hunter syndrome (X-linked)

iduronate sulfatase