Chapter 17: Gluconeogenesis

Question 1

Where are the major sites of gluconeogenesis?

Answer 1

Liver and kidneys

Question 2

Gluconeogenesis is important for maintaining ________ during _____.

Answer 2

Normal blood glucose levels during starvation

Question 3

Brain uses only glucose, therefore the liver essentially works to…

Answer 3

Make the brain happy by maintaing blood glucose levels

Question 4

Most of the glucose generated in gluconeogenesis is used by _____ and ______.

Answer 4

Brain and contracting muscle

Question 5

Gluconeogenesis converts ______ to ______.

Answer 5

Pyruvate to Glucose

Question 6

What are the three precursors for gluconeogenesis?

Answer 6

1. Lactate (muscle)
2. Amino acids
3. Glycerol (adipose tissue)

Not present in glycolysis

Question 7

Glycerol enters gluconeogenesis as…

Answer 7

Dihydroxyacetone phosphate

Question 8

The 3 irreversible reactions of glycolysis are…

Answer 8

Bypassed in gluconeogenesis by new steps/enzymes

7/10 Enzymes are the same

Question 9

Pyruvate kinase reaction (irreversible) of glycolysis is bypassed by:

Answer 9

• Pyruvate carboxylase
• Phosphoenolpyruvate carboxykinase (PEP)

Question 10

Step 1 of gluconeogenesis

Answer 10

Pyruvate carboxylated to oxaloacetate by pyruvate carboxylase (mitochondrial enzyme)

Question 11

First step of gluconeogenesis occurs in the…

Answer 11

Mitochondrial matrix

Question 12

Oxaloacetate is transported to the cytosol as…

Answer 12

Malate

Question 13

Once reoxidized in the cytoplasm, oxaloacetate is decarboxylated and phosphorylated to…

Answer 13

PEP by PEP carboxykinase

Question 14

In glycolysis, PFK controls the rate. What enzyme controls the rate of gluconeogenesis, bypassing the PFK reaction?

Answer 14

Fructose 1,6-bisphosphatase (FBPase)

*Allosteric enzyme that controls gluconeogenesis

Question 15

Which enzyme is critical for free glucose levels?

Answer 15

Glucose 6-phosphatase

*Reverse of hexokinase

Question 16

Free glucose is generated mainly in the…

Answer 16

Liver

Question 17

Glucose 6-phosphatase is present only in…

Answer 17

Liver and kidney

Question 18

Glucose 6-phosphate is hydrolyzed to ______ in the _______.

Answer 18

Glucose in the ER lumen

Question 19

When glucose is abundant, which process will predominate?

Answer 19

Glycolysis

Question 20

When glucose is scarce, which process will take over?

Answer 20

Gluconeogenesis

Question 21

Both glycolysis and gluconeogenesis are highly _____ under cellular conditions.

Answer 21

Exergonic

Question 22

When synthesizing glucose from pyruvate, __________ are spent.

Answer 22

6 high transfer-potential phosphoryl transfer groups (4 ATP and 2 GTP)

Question 23

What is lactic acidosis?

Answer 23

Accumulation of lactic acid in the blood (lowers the pH) which is caused by a deficiency in gluconeogenic enzymes

Question 24

What is hypoglycemia?

Answer 24

Low blood glucose levels

-Liver cannot produce glucose to maintain normal glucose levels

Question 25

Gluconeogenesis and glycolysis are…

Answer 25

Coordinated

Question 26

Rate of glycolysis is determined by…

Answer 26

Glucose concentration

Question 27

Rate of gluconeogenesis is dependent on…

Answer 27

Lactate concentration and other precursors

Question 28

When high levels of AMP…

Answer 28

Low energy

Glycolysis turned on

Gluconeogenesis turned off

(AMP stimulates PFK, but inhibits Fructose 1,6-bisphosphatase)

Question 29

When high levels of ATP…

Answer 29

High energy

Turn off glycolysis

(Citrate inhibits PFK)

Question 30

Citrate is an activator of ________ and promotes ________.

Answer 30

Fructose 1,6-bisphosphatase and promotes gluconeogenesis

Question 31

Pyruvate carboxylase - what activates/inhibits?

Answer 31

Activated by ADP

Inhibited by acetyl CoA

Question 32

PEP carboxykinase is inhibited by…

Answer 32

ADP

Question 33

If ATP is required, ________ predominates.

Answer 33

Glycolysis

Question 34

If glucose is required, ________ is favored.

Answer 34

Gluconeogenesis

Question 35

Blood glucose levels regulate glycolysis and gluconeogenesis in _____ by changing _______.

Answer 35

Liver

Fructose 2,6-bisphosphate levels

Question 36

Fructose 2,6-bisphosphatase is an ________ and stimulates _______. Also inhibits __________.

Answer 36

Allosteric regulator

Stimulates PFK

Inhibits Fructose1,6-bisphosphatase

Question 37

At high blood glucose levels, fructose 2,6-bisphosphate levels _____.

Answer 37

Increase

Question 38

When blood glucose levels are low, fructose 2,6-bisphosphate is converted to…

Answer 38

Fructose 6-phosphate

Question 39

PFK2 and FBPase2 are present in a single polypeptide chain. This is a ________ enzyme with three domains. What are they?

Answer 39

Bifunctional enzyme

Domains: N-terminal regulatory, kinase and phosphatase

Question 40

PFK2 and FBPase2 are controlled ________ by ________ of a single serine residue.

Answer 40

Reciprocally by phosphorylation

Question 41

Phosphorylation activates _____ and inhibits _____ to turn off _______.

Answer 41

FBPase 2 activated

PFK2 inhibited

Turns off glycolysis

Question 42

When glucose is scarce, _______ levels rise in the blood and trigger a cascade of _______ to activate ____.

Which process is active? (Glycolysis/Gluconeogenesis)

Answer 42

Glucagon levels rise, trigger cyclic AMP and activate PKA

Gluconeogenesis is active

Question 43

When glucose is abudant, the enzyme becomes dephosphorylated, which activates _______ and inhibits ________.

Which process is active? (Glycolysis/Gluconeogenesis)

Answer 43

Activates PFK2

Inhibits FBPase2

Glycolysis is active

Question 44

Insulin levels rise after each meal in response to __________. Insulin promotes _______.

Answer 44

Increasing blood glucose levels

Promotes glycolysis

Question 45

Glucagon levels rise during ______ when glucose is _____. This promotes…

Answer 45

Fasting when glucose is scarce

This promotes gluconeogenesis

Question 46

Insulin normally inhibits _______. In type 2 diabetes, insulin _________. This condition is called __________.

Answer 46

Inhibits gluconeogenesis

Insulin fails to do this in type 2 diabetes. This is called insulin resistance.

(Liver does not react to insulin, it just keeps making glucose, even if starving)

Question 47

What two factors enhance insulin sensitivity?

Answer 47

Exercise and diet

Question 48

What is the Cori cycle?

Answer 48

Lactate produced by muscle during contraction is released into the blood.

*Interrelationship between liver and muscle

Liver removes the lactate, converts to glucose via gluconeogenesis which is released into the blood and taken up by muscle.

Question 49

What are the 3 major factors that control glycolysis and gluconeogenesis?

Answer 49

1. ATP levels
2. Citrate
3. Blood glucose levels

Question 50

Glycolysis:

• Major control point
• Fructose 2,6-bisphosphate
• AMP
• Citrate
• Hormonal activation by

Answer 50

• PFK
• Activates
• Activates
• Inhibits
• Insulin

Question 51

Gluconeogenesis:

• Major control point
• Fructose 2,6-bisphosphate
• AMP
• Citrate
• Hormonal activation by

Answer 51

• FBPase
• Inhibits
• Inhibits
• Activates
• Glucagon

Question 52

The hexokinase reaction of glycolysis is bypassed during gluconeogenesis by the enzyme:

Answer 52

Glucose 6-phosphatase

Question 53

Which of the following molecules is NOT a precursor for gluconeogenesis?

Answer 53

Acetyl CoA

Question 54

Which enzyme controls the rate of gluconeogenesis?

Answer 54

Fructose 1,6-bisphosphatase

Question 55

Deficiencies in enzymes specific for gluconeogenesis lead to:

Answer 55

Lactic acidosis and hypoglycemia

Question 56

When blood glucose levels are high, insulin activates _______ and stimulates _______.

Answer 56

Activates protein phosphatase-1; glycogen synthesis

Question 57

Which enzyme converts pyruvate to oxaloacetate in gluconeogenesis?

Answer 57

Pyruvate carboxylase

Question 58

Which compound is NOT a precursor for the synthesis of glucose by gluconeogenesis?

Answer 58

Acetyl CoA

Question 59

Which enzyme controls the rate of gluconeogenesis?

Answer 59

Fructose 1,6-biphosphatase

Question 60

Deficiencies in enzymes specific for gluconeogenesis lead to:

Answer 60

Lactic acidosis and hypoglycemia

Question 61

What type of glycosidic bond causes the branching of glycogen?

Answer 61

alpha 1,6-glycosidic bond

Question 62

Glycogen phosphorylase cleaves glycogen and produces:

Answer 62

Glucose 1-phosphate

Question 63

When blood glucose levels are high, insulin activates____________
and stimulates _______________.

Answer 63

Protein phosphatase-1; glycogen synthesis

Question 64

Which enzyme is specific for the gluconeogenesis pathway?

Answer 64

Phosphoenolpyruvate carboxykinase

Question 65

The enzyme _______________ controls the rate of gluconeogenesis and is allosterically inhibited by high levels of _______________.

Answer 65

Fructose 1,6-bisphosphatase; fructose 2,6-bisphosphate

Question 66

Glucagon ________________ glycogen degradation and signals the __________ state.

Answer 66

stimulates; fasted

Question 67

Which enzyme is NOT specific for gluconeogenesis?

Answer 67

Phosphoglycerate mutase

Question 68

. Gluconeogenesis occurs in the ____________ and is activated during ______________.

Answer 68

Liver; starvation