Metabolism Part II

Question 1

What are the 4 fates of pyruvate?

Answer 1

1. Acetyl CoA
2. Oxaloacetate
3. Alanine
4. Lactate

Question 2

What enzyme converts pyruvate to Acetyl CoA

Answer 2

Pyruvate Dehydrogenase

Question 3

What factors regulate pyruvate dehydrogenase?

Answer 3

TLC for Nobody
Thiamine pyrophosphate (TPP) - active B1
Lipoic acid
Coenzyme A - B5
FAD - B2
NAD+ - B3

Question 4

What B vitamins are needed to make Acetyl CoA?

Answer 4

B1, B2, B3, B5

Question 5

What factor does arsenic inhibit

Answer 5

Lipoic acid - cofactor for PDH

Question 6

Arsenic poisoning features

Answer 6

Garlic breath, vomiting, rice water stool

Question 7

What happens in PDH deficiency and what clinical features result

Answer 7

Back up of pyruvate that gets converted to other things: Lactate, Alanine.
Lactic acidosis
Neurologic defects

Question 8

What is treatment of PDH deficiency

Answer 8

Increase intake of ketogenic nutrients (high fat, high lysine and leucine) - so can make Acetyl CoA from something else. Ketone bodies can be used for energy instead of glucose.

Question 9

How is PDH deficiency acquired?

Answer 9

Arsenic exposure, B vitamin deficiency (especially B1)

Question 10

What does TCA enzyme citrate synthase do

Answer 10

Makes citrate from Acetyl CoA and oxaloacetate

Question 11

What does isocitrate dehydrogenase do

Answer 11

Converts isocitrate into alpha ketoglutarate

Question 12

What is the rate limiting enzyme in the TCA cycle

Answer 12

Isocitrate dehydrogenase

Question 13

What does alpha ketoglutarate dehydrogenase do

Answer 13

Converts alpha ketoglutarate to succinyl-CoA

Question 14

Why is alpha ketoglutarate dehydrogenase so regulated

Answer 14

Requires same cofactors as PDH complex: TPP, lipoic acid, coenzyme A, NAD, FAD+

Question 15

How many moles of ATP are produced per NADH in ETC?

Answer 15

2.5

Question 16

How many moles of ATP are produced per FADH2 in ETC?

Answer 16

1.5

Question 17

What effect does Amytal (a barbiturate) have on ETC?

Answer 17

Blocks Complex I

Question 18

What effect does Rotenone have on ETC?

Answer 18

Blocks Complex I

Question 19

What effect does MPP have on ETC?

Answer 19

Blocks Complex I

Question 20

What effect does Antimycin A have on ETC?

Answer 20

Blocks Complex III

Question 21

What effect does CN have on ETC?

Answer 21

Blocks Complex IV

Question 22

What can inhibit complex IV of the ETC?

Answer 22

CO, N3-, CN, H2S (hydrogen sulfide)

Question 23

What can inhibit the ATPase of ETC?

Answer 23

Oligomycin A (macrolide antibiotic)

Question 24

What affect do uncoupling agents have on inner mitochondrial membrane

Answer 24

Make it more permeable to H+ ions - generate more heat in the bottom

Question 25

What is thermogenin

Answer 25

An uncoupling agent for heat in hibernation - found in brown fat

Question 26

What are some uncoupling agents?

Answer 26

Aspirin
Thermogenin
2,4-Dinitrophenol

Question 27

What enzymes convert lactate and pyruvate?

Answer 27

Lactate dehydrogenase

Question 28

What happens to lactate in the liver

Answer 28

Lactate (from anaerobic glycolysis in muscles, RBCs) gets converted back to pyruvate via LDH.
Pyruvate can be used for gluconeogenesis.

Question 29

How are the alanine cycle and cori cycle similar?

Answer 29

Muscles make something that goes to the liver to be made into glucose

Question 30

Describe steps of alanine cycle

Answer 30

Pyruvate gets converted to alanine in muscle It goes in serum to liver, where it is uptaken, converted back to pyruvate -> glucose

Question 31

Why are alanine and glutamine found in such high concentrations in the blood?

Answer 31

Ala and glutamine are two major carriers of nitrogen from tissues. Liver uses glutamine to make urea.

Question 32

What is generally involved in transamination?

Answer 32

transfer of amino group of an amino acid to alpha ketoglutarate to form glutamate.
the remaining deaminated amino acid is a ketoacid (eg pyruvate) that is used in energy metabolism

Question 33

What enzyme catalyzes transamination?

Answer 33

Aminotransferases

Question 34

How are aminotransferases named?

Answer 34

By donor of the amino group (alanine aminotransferase converts alanine to pyruvate and forms glutamate)

Question 35

In addition to substrates, what is required by all aminotransferases?

Answer 35

Pyridoxal phosphate (a derivative of B6)

Question 36

What are the substrates and products of alanine aminotransferase?

Answer 36

Alanine+aKG -> Glutamate + Pyruvate

Question 37

What are the substrates and products of aspartate aminotransferase?

Answer 37

Aspartate+aKG -> Glutamate + oxaloacetate

Question 38

What are the two main carriers of nitrogen in the blood?

Answer 38

Alanine + Glutamine

Question 39

What is NADPH needed for? 4 reasons

Answer 39

Make FA’s and Cholesterol
Make O2 free radicals
Inside RBCs to protect from O2 free radicals
Cytochrome p450

Question 40

Most important enzyme of the HMP shunt

Answer 40

G6PD

Question 41

What does G6PD do

Answer 41

Converts G-6-P to Ribulose 5-P and get 2 NADPH

Question 42

What is needed to create oxygen free radicals

Answer 42

Oxygen, NADPH, and NADPH oxidase

Question 43

What converts free radical oxygen to hydrogen peroxide

Answer 43

Superoxide dismutase

Question 44

What does myeloperoxidase do

Answer 44

Converts hydrogen peroxide to hypochlorus acid HOCl

Question 45

What disease results from deficiency of NADPH oxidase

Answer 45

Chronic granulomatous disease - susceptible to catalase positive organisms because neutralize environmental hydrogen peroxide to water

Question 46

What does glutathione peroxidase do

Answer 46

Converts hydrogen peroxide into water, by letting H2O2 react with reduced glutathione (GSH)

Question 47

What is reduced glutathione

Answer 47

An antioxidant required to neutralize H2O2 into water

Question 48

How is glutathione disulfide converted back to reduced glutathione?

Answer 48

Glutathione reductase

Question 49

What does glutathione reductase use as an electron donor

Answer 49

NADPH (to reduce glutathione)

Question 50

What keeps the steady supply of NADPH around in order to continue to reduce glutathione for antioxidation?

Answer 50

G6PD

Question 51

What are some drugs that “oxidize” red blood cells and so are problematic in G6PD deficiency (-> hemolytic anemia)

Answer 51

Anti malarial drugs primaquine and chloroquine
Nitrofurantoin
Dapsone
Sulfonamide
Isoniazid
Naphthalene (moth balls)
Fava beans
Ibuprofen
High dose ASA

Question 52

What enzyme is deficient in essential fructosuria

Answer 52

Fructokinase

Question 53

What enzyme is deficient in fructose intolerance

Answer 53

Aldolase B

Question 54

Why is essential fructosuria benign

Answer 54

Fructose doesn’t get trapped in cells - have it spilling out into blood and urine

Question 55

What is pathophysiology of fructose intolerance/ aldolase B deficiency?

Answer 55

Cannot correct fasting hypoglycemia - accumulation of fructose 1-P in cells causes decreased available phosphate(using it up), inhibits glycogenolysis and gluconeogenesis.

Question 56

What are clinical symptoms of fructose intolerance

Answer 56

Hypoglycemia
Vomiting - after fructose or sucrose
Hepatomegaly, jaundice

Question 57

What enzyme is deficient in galactokinase deficiency

Answer 57

Galactokinase - can’t convert galactose to galactose-1-p

Question 58

What is pathophysiology and clinical features of galactokinase deficiency

Answer 58

Galactose converts to galactitol which accumulates in the blood and can appear in blood and urine, cause infantile cataracts

Question 59

What enzyme is deficient in classic galactosemia

Answer 59

Absence of galactose-1-phosphate uridyltransferase

Question 60

Pathophysiology of classic galactosemia

Answer 60

Accumulation of toxic substances galactose-1P and galactitol

Question 61

Clinical features of galactosemia

Answer 61

Hepatomegaly, jaundice, FTT, infantile cataracts, intellectual disability

Question 62

What is the treatment for galactosemia

Answer 62

Exclude galactose and lactose from diet

Question 63

Rate limiting step of pentose phosphate pathway

Answer 63

G6PD

Question 64

Which tissues use pentose phosphate pathway

Answer 64

RBCs, Liver, Adrenal cortex, Mammary glands (during lactation)

Question 65

What disease is caused by deficiency of galactokinase

Answer 65

Galactokinase deficiency

Question 66

What disease is caused by deficiency of aldolase B deficiency

Answer 66

Fructose intolerance

Question 67

What disease is caused by deficiency of galactose-1-phosphate uridyltransferase

Answer 67

Classic galactosemia

Question 68

What disease is caused by deficiency of fructokinase

Answer 68

Essential fructosuria

Question 69

What is the primary energy source in a patient who has not eaten in 2 days

Answer 69

Fatty acids

Question 70

Rate limiting enzyme in ketone body synthesis

Answer 70

HMG CoA synthase

Question 71

Why do people get hypoglycemic after drinking alcohol?

Answer 71

NADH produced which shunts pyruvate toward production of lactate, shunts oxaloacetate toward production of malate, so pyruvate and oxaloacetate are not available to undergo gluconeogenesis

Question 72

Hallmark features of Kwashiorkor

Answer 72

FLAME
Fatty Liver
Anemia
Malnutrition (protein)
Edema
Skin lesion, skin and hair depigmentation

Question 73

When does gluconeogenesis start in the post-absorptive period?

Answer 73

Starts 4-6 hours after last meal

Full active when glycogen stores are depleted

Question 74

When are glycogen stores depleted

Answer 74

10-18 hours

Question 75

What are the two main ketone bodies made in the liver

Answer 75

Acetoacetate and Beta-hydroxybutyrate are made from fatty acids and amino acids using NADH

Question 76

What causes fruity breath smell in ketosis

Answer 76

Acetoacetate spontaneously becomes acetone

Question 77

What does urine test for ketones test for

Answer 77

Acetoacetate only

Question 78

When do you start making ketones?

Answer 78

When you have so many fatty acids and so much acetyl coA that TCA cycle can’t handle it all;
Oxaloacetate depleted for gluconeogenesis

Question 79

What metabolic scenario favors synthesis of ketone bodies

Answer 79

When production of acetyl CoA from beta oxidation of FA’s exceeds oxidative capacity of the TCA cycle

Question 80

What is marasmus

Answer 80

Total energy malnutrition (deficient in everything)

Question 81

What is refeeding syndrome

Answer 81

Drop in serum Mg, Phosphate, and K+, can lead to arrhythmias and neurologic problems
Overall ATP depletion - phosphorylating glucose in cells depletes it.