Bioenergetics

Question 1

What are some characteristics of the TCA cycle?

Answer 1

A biochemical hub of the intermediary metabolism
Oxidizing carbon fuels for harvesting high energy e-
It is amphibolic and a source of precursors of biosynthesis
Takes place inside mitochondria

Question 2

Acetyl CoA is the activated form of what?

Answer 2

Acetate

Question 3

What are the three energy nutrients that acetyl CoA is obtained from?

Answer 3

Carbs, lipids and proteins

Question 4

How is acetyl CoA obtained from carbs?

Answer 4

Glucose –> oxidation –> 2 pyruvate –> 2 acetyl CoA

Question 5

How is acetyl CoA obtained from lipids?

Answer 5

TAG –> FAs –> acetyl CoA (beta oxidation)

Oxidation of KBs –> acetyl CoA

Question 6

How is acetyl CoA obtained from proteins?

Answer 6

Breakdown into various amino acids –> acetyl CoA

Question 7

Which form of PDC is active and what enzyme activates it?

Answer 7

Dephosphorylated form which is catalyzed by pyruvate dehydrogenase phosphatase (PDP)

Question 8

Which form of PDC is inactive and which enzyme inactivates it?

Answer 8

Phosphorylated form which is catalyzed by pyruvate dehydrogenase kinase (PDK)

Question 9

What three enzymes made up the pyruvate dehydrogenase complex (PDC)?

Answer 9

E1 (pyruvate decarboxylase), E2 (dihydrolipoyl transacetylase) and E3 (dihydrolipoyl dehydrogenase) which are all derived from vitamin B derivatives

Question 10

What are the 5 coenzymes needed by PDC?

Answer 10

Thiamine pyrophosphate (TPP), lipoic acid, FAD, CoA and NAD+

Question 11

Which 3 conenzymes of PDC act as prosthetic groups and are permanently bound to PDC?

Answer 11

TPP, lipoic acid and FAD

Question 12

Which 2 coenzymes of PDC act as co-substrates and associate with PDC temporarily?

Answer 12

CoA and NAD+

Question 13

Which vitamin is TPP derived from?

Answer 13

B1 (thiamine)

Question 14

Which vitamin is CoA derived from?

Answer 14

B5 (pantothenic acid) (PENTothenic acid)

Question 15

Which vitamin is lipoic acid derived from?

Answer 15

None

Question 16

Which vitamin is FAD derived from?

Answer 16

Vitamin B2 (riboflavin)

Question 17

Which vitamin is NAD+ derived from?

Answer 17

Vitamin B3 (niacin)

Question 18

List factors that activate PDC activity

Answer 18

Its substrates and low energy signals (elevated [NAD] and [ADP])
High insulin concentrations in adipose
Ca2+ and Mg2+ via allosteric activation
ADP, CoA, NAD and pyruvate via inhibition of PDK

Question 19

List factors that inhibit PDC activity

Answer 19

Its end products and high energy signals (elevated NADH and ATP)
Fasting conditions where acetyl CoA and NADH are high due to oxidation of FAs via activation of PDK
Arsenite by binding to lipoic acid in E2

Question 20

What reaction is catalyzed by PDC?

Answer 20

Pyruvate + NAD + CoA –> Acetyl CoA + CO2 + NADH + H+

Question 21

What occurs in a phosphatase deficiency?

Answer 21

PDC is always in its phosphorylated inactive form
Glucose made into lactate instead of acetyl CoA resulting in lactic acidosis (high lactatic acid in the blood)
CNS is mostly affected
Alanine intake should be restricted due to pyruvate accumulation and a ketogenic diet may be recommended

Question 22

Describe how PDC is affected in the tissues

Answer 22

Ca released during muscle contraction activates PDC
Cardiac muscle Ca may inhibit PDK thus activating PDC
PDP is a Mg dependent enzyme and in adipose tissue insulin may activate the enzyme by lowering the Km for Mg

Question 23

Describe pyruvate dehydrogenase deficiency (neonatal lactic acidosis)

Answer 23

May be due to PDC defects specifically in E1 (TPP)
Males more affected bc gene for E1 is on the X chromo
Pts will have high serum pyruvate and lactate
Tx: vitamin B1 (replaces deficient E1 subunit), lipoic acid (stimulates activity of PDC), or biotin (metabolizes pyruvate by the alternate enzyme pyruvate carboxylase)
Dicholoracetate (inhibits PDK) or ketogenic diet may also be suggested

Question 24

How does arsenite (derived from aresenic) affect lipoic acid?

Answer 24

Arsenite irreversibly binds to two SH groups on lipoic acid subunit (E2) and limits its availability
This affects PDC, alpha-KG dehydrogenase and branched chain keto acid dehydrogenase which rely on lipoic acid

Question 25

What is Beriberi?

Answer 25

Vitamin B1 (thiamine) deficiency (no TPP)
sx: weight loss, SOB, mental confusion, speech difficulties, pain, etc
tx: thiamine supplements along with water soluble vitamins
Leads to increased levels of pyruvate and alpha KG in the blood due to impaired action of PDC and alpha KG dehydrogenase which need TPP

Question 26

Wet vs Dry Beriberi

Answer 26

Dry form involves peripheral neuropathy

Wet form affects cardiovascular function

Question 27

Wenicke-Korsakoff syndrome

Answer 27

Form of vitamin B1 deficiency/Beriberi in alcoholics

Question 28

Describe steps 1 and 2 of the TCA cycle

Answer 28

Condensation of Acetyl CoA and OAA to form citrate catalyzed by citrate synthase
Citrate then isomerized to isocitrate by aconitase

Question 29

What regulates citrate synthase?

Answer 29

Activators: insulin, acetyl CoA, and OAA
Inhibitors: ATP, citrate, NADH and sucicnyl CoA

Question 30

What is aconitase inhibited by?

Answer 30

Fluorocitrate (metabolic product of rat poison)

Question 31

Describe steps 3 and 4 of the TCA cycle

Answer 31

Isocitrate oxidized and decarboxylated into alpha KG by isocitrate dehydrogenase (RLE)
Another oxidation and decarboxylation rxn catalyzed by alpha KG dehydrogenase converting alpha KG into succinyl CoA

Question 32

What activates isocitrate dehydrogenase?

Answer 32

ADP (allosteric) and Ca2+

Question 33

What inhibits isocitrate dehydrogenase?

Answer 33

ATP and NADH

Question 34

What is the RLE of the TCA cycle?

Answer 34

isocitrate dehydrogenase

Question 35

Describe step 5 of the TCA cycle

Answer 35

High energy thioester bond of succinyl CoA is cleaved to form succinate which is coupled to the substrate phosphorylation of GDP into GTP
Catalyzed by succinate thiokinase (succinyl CoA synthetase)

Question 36

Describe steps 5-8 of the TCA cycle

Answer 36

Succinate oxidized into fumarate with the production of FADH2 catalyzed by succinate dehydrogenase
Fumarate converted to malate by fumarase
Malate converted to OAA by malate dehydrogenase with the production of NADH

Question 37

Which enzyme is the only one in the TCA cycle that is located in the inner mito membrane?

Answer 37

Succinate dehydrogenase (complex II in ETC) and only one that generates FADH2

Question 38

What competitively inhibits succinate dehydrogenase?

Answer 38

Malonate

Question 39

What is malate dehydrogenase inhibited by?

Answer 39

NADH

Question 40

Which three enzymes of the TCA cycle are highly regulated?

Answer 40

Citrate synthase, isocitrate dehydrogenase (RLE) and alpha ketoglutarate dehydrogenase

Question 41

Which steps of the TCA cycle form NADH?

Answer 41

Isocitrate to alpha KG by the RLE
Alpha KG to succinyl CoA by alpha KG dehydrogenase
Malate to OAA by malate dehydrogenase
(first two also make CO2)

Question 42

Which step of the TCA cycle makes FADH2?

Answer 42

Succinate to fumarate by succinate dehydrogenase

Question 43

How many FADH2 and NADH are made in one turn of the TCA cycle?

Answer 43

3 NADH

1 FADH2

Question 44

Which step of the TCA cycle forms GTP by substrate level phosphorylation?

Answer 44

Succinyl CoA to succinate by succinate thiokinase

also forms CoA

Question 45

What differential effects does citrate have on RLE?

Answer 45

Capable of inhibiting PFK-1 (RLE of glycolysis) and ACC (RLE of FA synthesis)
Promotes storage of excess energy as fat and prevents further production of ATP which maintains the energy charge of the cell in the desired range

Question 46

When cellular ATP is low the TCA cycle is

Answer 46

increased/stimulated

Question 47

How does the rat poison, fluoroacetate, inhibit the TCA cycle?

Answer 47

Fluoroacetate reacts with CoA to form fluoroacetyl CoA instead of acetyl CoA and condenses to with OAA to form fluorocitrate
Fluorocitrate inhibits aconitase causing citrate to accumulate therefore inhibiting citrate synthase
Also allosterically inhibits PFK-1

Question 48

What role does succinyl CoA play in heme synthesis?

Answer 48

Is condensed with aa glycine to form delta-ALA which is the first step in heme synthesis
Catalyzed by ALA synthase (RLE) which also requires pyridoxal phosphate as a cofactor (vitamin B6)

Question 49

What are anaplerotic reactions and that are the two major types?

Answer 49

Reactions that replenish TCA cycle intermediates

Degradation of aa and carboxylation of pyruvate are the two major types

Question 50

Describe how degradation of aa can replenish TCA cycle intermediates

Answer 50

Replenishes OAA, alpha KG, succinyl CoA and fumarate

Occurs via transamination runs, deaminations, and oxidation of aromatic rings

Question 51

Describe how the carboxylation of pyruvate can replenish TCA cycle intermediates

Answer 51

Replenishes OAA
ATP consuming rxn catalyzed by pyruvate carboxylase (requires biotin) and is stimulated by acetyl CoA
Occurs under glucose deprived conditions resulting in the OAA being used for gluconeogenesis

Question 52

Which aa can form OAA?

Answer 52

Asparagine –> Aspartate –> OAA

Question 53

Which aa can form alpha KG?

Answer 53

Glutamine, proline, histidine, arginine

Question 54

Which amino acids can be used to form propionyl CoA which can then form succinyl CoA?

Answer 54

Threonine, methionine, isoleucine and valine

Question 55

What amino acids can form fumarate?

Answer 55

Phe, tyrosine and aspartate

Question 56

What anabolic functions do intermediates of the TCA cycle serve?

Answer 56

Several intermediates serve as precursors for anabolic pathways that synthesize biomolecules such as glucose, lipids and amino acids

Question 57

What are the three biomolecules that can be formed by TCA cycle intermediates and how?

Answer 57

OAA contributes to synthesis of glucose
Citrate contributes to synthesis of lipids
OAA and alpha KG contribute to aa synthesis

Question 58

What is pyruvate carboxylase deficiency?

Answer 58

Mutations in the pyruvate carboxylase gene that alter the activity of this enzyme leading to this deficiency
Causes more pyruvate to be converted to lactic acid instead of OAA which accumulates in the blood
sx: appear shortly after birth and include seizures, muscle weakness (hypotonia) and uncontrolled muscle movements (ataxia)
More prevalent among Algonkian Indian tribes in eastern Canada
autosomal recessive

Question 59

Describe 2-oxoglutaric acid aciduria

Answer 59

Sx: chronic metabolic acidosis, severe microcephaly, mental retardation, variable urinary excretion of 2-oxoglutarate and fulmaric acid, hypoketonic hypoglycemia
Lethal w/in first 10 years of life

Question 60

What are the similarities between 2-oxoglutaric acid aciduria and fumarase deficiency?

Answer 60

Both are rare disorders w/ global developmental delay and serve neurologic problems in infants
sx in common: hypotonia, spasticity, developmental delay and extrapyramidal sx
Diagnosis established by clinical features, metabolic findings and biochemical enzyme activity w/ molecular testing
No curative tx

Question 61

Describe fumarase deficiency

Answer 61

Characterized by severe neurological impairment
Fatal outcome w/in first 2 years of life
sx: encephalomyopathy, dystonia, increased urinary exertion of fumarate, succinate, alpha KG and citrate
Autosomal recessive
Mutation in fumarase gene contains Q319E

Question 62

Describe succinyl CoA synthetase (SCS) deficiency

Answer 62

Associated with mutations in 2/3 subunits for the enzyme in the SUCLA2 and SUCLG1 genes
Recognizable pattern of dystonia, deafness syndrome, mild methylmalonic aciduria, altered mtDNA maintenance
Diagnosis made w/ direct genetic testing
Recently discovered

Question 63

What are oncometabolites?

Answer 63

Key components of the communication b/w mitochondria and nucleus
Accumulation results in the cell eliciting oncogenic signaling cascades leading to cancer
Studies have found several mutations in TCA cycle enzymes in human tumors which demonstrates a connection b/w TCA and cancer occurrence

Question 64

What is mitochondrial depletion syndrome associated with?

Answer 64

Profound hypotonia, progressive dystonia, muscular atrophy and several sensory neural hearing impairment

Question 65

What are free radicals?

Answer 65

Generated during the respiratory burst in response to invading microbes
Oxygen is converted by NADPH oxidase to superoxide which is then able to be further converted to the bacteria killing agents H2O2 and hypercloride (bleach)

Question 66

What is an example of signaling molecule that is used to kill invading microbes?

Answer 66

NO is capable of acting as a signaling molecule which uses cGMP as its 2nd messenger

Question 67

What is an example of a cellular response to invading microbes?

Answer 67

In X linked G6PD deficiency erythrocytes are susceptible to rupture by oxidative stress caused by oxidant drugs or fava beans containing oxidizing agents

Question 68

What are the four major antioxidants?

Answer 68

Superoxide dismutase, Catalase, glutathione peroxidase, vitamin E and C

Question 69

Where is the Cu/Zn form of SOD found (SOD1)?

Answer 69

Cytosol

Question 70

Where is the Mn/Zn form of SOD found (SOD2)?

Answer 70

Mitochondria