Regulation of glycolysis and gluconeogenesis

Question 1

__ is regulated to maintain constant ATP levels

Answer 1

Glycolysis is regulated to maintain constant ATP levels

Question 2

Glycolysis occurs if __ is high and __ is low

Gluconeogenesis occurs if __ is low

Answer 2

Glycolysis occurs if AMP is high and ATP is low.

Gluconeogenesis occurs if AMP is low

Question 3

Which hormones regulate expression/function

of glycolytic enzymes

Answer 3

Glucagon, epinephrine and insulin

Question 4

What are the isoforms of hexokinase

Answer 4

1, 2, 3 and 4

Question 5

Where are hexokinase I &II found? What is their affinity for glucose ?

Answer 5

• Predominantly expressed in muscle

- High affinity for glucose (activity reaches maximum quickly)

Question 6

Where is hexokinase IV found? What is it’s affinity for glucose

Answer 6

• Predominant in liver

- Lower affinity for glucose

Question 7

What inhibits hexokinase IV

Answer 7

Inhibited by a regulatory protein (liver specific; GKRP

Question 8

How’s hexokinase IV and glucose concentration related?

Answer 8

• Activity increases at high glucose concn
• Glu escapes glycolysis at low concn
  High glucose concentration is required for max activity

Question 9

Are hexokinase I, II and IV inhibited by

Answer 9

Hexokinase IV is not inhibited by G-6-P
Hexokinase II and III are allosterically inhibited by G-6-P, which is the product of hexokinase I and II (negative feedback_

Question 10

How is hexokinase IV inhibited by GKRP?

Answer 10

GKRP (Glucokinase regulatory protein ) can take hexokinase away from the site of glycolysis (cytoplasm) into the nucleus. Occurs in the liver only
This translocation of Hex IV from cytoplasm to nucleus is stimulated by fructose 6-phsophate- downstream product of hexokinase IV->
If there’s a lot of glucose Hex IV will be drawn back to cytoplasm

Question 11

What happens when blood glucose level raises?

Answer 11

when the blood glucose level rises, insulin acts in muscle to

(1) increase glucose transport into cells by conveying GLUT4 to the plasma membrane
(2) induce the synthesis of hexokinase, and
(3) activates glycogen synthase by covalent alteration

Question 12

In which cells does glycolysis and gluconeogenesis occurs?

Answer 12

Glycolysis takes place in any cell.

Only few cells can do gluconeogenesis- hepatocytes, kidneys, intestinal epithelium

Question 13

Which enzymes are used in liver when:
Blood glucose is low
Blood glucose is high

Answer 13

• High blood glucose – Hexokinase IV

- Low blood glucose – Glu-6-phosphatase

Question 14

PFK-1
- Function 
Regulation: 
- Inhibitors
- Stimulators

Answer 14

PFK-1 (Phosphofructokinase-1) converts phospho-6-fructose to fructose 1,6-bisphosphate

• High ATP allosterically inhibits PFK-1 (No ATP is needed = no need to break down glucose)
• High citrate increases ATP-inhibition
• High AMP or ADP relieve ATP-inhibition

Question 15

FBPase-1
- Function
Regulation:
- Inhibitors

Answer 15

FBPase-1 (Fructose 1,6-Bisphosphatase) converts fructose 1,6-bisphosphate to fructose 6-phosphate
- High AMP allosterically inhibits FBPase-1 (Low energy inhibits FBPase as glucose doesn’t need to be made- it needs to be used )

Question 16

What is an enzymes in gluconeogenesis that replaces PFK-1 in glycolysis?

Answer 16

FBPase-1

Question 17

How are PFK-1 and FBPase-1 enzymes regulated?

Answer 17

They are regulated in the liver by enzymes FBPase-2 and PFK-2
PFK-2 uses ATP to add a phosphate group to fructose 6-phosphate making fructose 2,6-bisphosphate.
Fructose 2,6-bisphosphate is not a glycolytic intermediate- not used in glycolysis due to its asymmetry and is produced mainly in the liver. It is a allosteric activator of PFK-1 and inhibitor of FBPase-1
FBPase-2 removes a phosphate group from fructose 2,6-bisphosphate, turning it back into fructose 6-phosphate

Question 18

PFK-1 and FBPase-1 vs PFK-2 and FBPase-2

Answer 18

• PFK-1 and FBPase-1 are encoded by two genes, PFKM and FBP1

- PFK-2/FBPase-2 is a bifunctional enzyme, expressed from single gene, PFKFB1

Question 19

How is PFK-2/FBPase-2 regulated?

Answer 19

PFK-2/FBPase-2 is regulated by phosphorylation
Unphosphorylated-> PFK-2 activity -> increase in Fructose 2,6-bisphosphate
Phosphorylated-> FBP-2ase activity-> Fructose 2,6-bisphosphate is converted to Fructose 6-phosphate

Question 20

How is phosphorylation of PFK-2/FBPase-2 regulated?

Answer 20

Insulin/ Xylulose 5-phosphate stimulates phospho-protein phosphatase which removes phosphate group and converting it to PFK-2
Glucagon/cAMP activates cAMP-dependent protein kinase that comes from GPCR- glucagon receptor. It phosphorylates the enzyme and induces FBP-2ase activity

Question 21

What does high concentration of F26BP stimulates and inhibits?

Answer 21

High concentration of F26BP stimulates glycolysis and inhibits gluconeogenesis

Question 22

Why does Xylulose 5-phosphate stimulates PFK-2 activity?

Answer 22

Xylulose 5-phosphate comes from phosphate pathway-> no more glucose is required for pentose phosphate pathway
Thus PFK-2 will stimulate the production of fructose 2,6-bisphosphate which activates PFK-1 and leads to glycolysis, breaking down glucose that is no longer needed

Question 23

Does phosphorylation of pyruvate kinase activate or deactivate it

Answer 23

Deactivates

Question 24

How’s pyruvate kinases regulated in the liver?

Answer 24

Glucagon activates cAMP-dependent protein kinase, which phosphorylates the pyruvate kinase L isozyme, inactivating it.
When the glucagon level drops, a protein phosphatase (PP) dephosphorylates pyruvate kinase, activating

Question 25

What inhibits pyruvate kinase in all glycosidic cell, including liver?

Answer 25

Pyruvate kinase is allosterically inhibited by ATP, acetyl-CoA, and long-chain fatty acids.
Accumulation of alanine, which can be synthesized from pyruvate in one step, allosterically inhibits pyruvate kinase

Question 26

What activates pyruvate kinase in all glycosidic cell, including liver?

Answer 26

Accumulation of fructose 1,6-bisphosphate triggers its activation.

Question 27

Which step of glycolysis involves pyruvate kinase

Answer 27

The last step

Question 28

Why should liver isoform of pyruvate kinase be regulated?

Answer 28

his mechanism prevents the liver from consuming glucose by glycolysis when blood glucose is low; instead, the liver exports glucose.

Question 29

Are liver and muscle pyruvate kinases regulated hormonally and by phsophorylation?

Answer 29

The liver isozyme (L form) is regulated hormonally and is subject to further regulation by phosphorylation
The muscle isozyme (M form) is not affected by phosphorylation mechanism- muscles do not express glucagon receptor

Question 30

What activates pyruvate kinase in all glycosidic cell, including liver?

Answer 30

High concentration of precursor/ substrates (e.g. glucose-6-phosphate and F16BP)

Question 31

What are the 2 fates of pyruvate?

Answer 31

Acetyl CoA-> Citric acid cycle-> energy

Oxaloacetate-> gluconeogenesis -> glucose

Question 32

What are the 2 ways of production of AcetylCoA?

Answer 32

acetyl-CoA can be produced either by fatty acid oxidation or by the pyruvate dehydrogenase complex from pyruvate

Question 33

What is the effect of acetyl CoA on pyruvate carboxylase and pyruvate dehydrogenase?

Answer 33

Acetyl CoA stimulates pyruvate carboxylase and inhibits pyruvate dehydrogenase.

Question 34

Reaction of pyruvate to acetyl CoA

Answer 34

By pyruvate dehydrogenase complex

Pyruvate-> Acetyl CoA + CO2

Question 35

Reaction of pyruvate to oxaloacetate

Answer 35

By pyruvate carboxylase

Pyruvate-> Oxaloacetate

Question 36

When is Acetyl CoA concentration is high

Answer 36

When liver has sufficient FA for β-oxidation- fatty acids are being oxidized in high amounts

Question 37

Insulin __ expression of enzymes involved in glycolysis

Insulin __ expression of enzymes involved in gluconeogenesis

Effect of glucagon is the __

Answer 37

Insulin increases expression of enzymes involved in glycolysis

Insulin decreases expression of enzymes involved in gluconeogenesis

Effect of glucagon is the opposite

Question 38

What are the roles of the following enzymes? What is the effect of insulin on these enzymes? 
Hexokinase II
Hexokinase IV
Phosphofructokinase-1 (PFK-1)
PFK-2/FBPase-2
Pyruvate kinase

Answer 38

Essential for glycolysis, which consumes
glucose for energy
Insulin increases their expression

Question 39

What are the roles of the following enzymes? What is the effect of insulin on these enzymes?
Glucose 6-phosphate dehydrogenase
6-Phosphogluconate dehydrogenase
Malic enzyme

Answer 39

Produce NADPH, which is essential for conversion of glucose to lipids. Involved in glycolysis
Insulin increases their expression

Question 40

What are the roles of the following enzymes? What is the effect of insulin on these enzymes?
PEP carboxykinase
Glucose 6-phosphatase (catalytic subunit)

Answer 40

Essential for glucose production by gluconeogenesis

Insulin decreases their expression

Question 41

What’s ChREBP?

What is it’s role

Answer 41

ChREBP (carbohydrate response element binding protein) is a transcription. It serves to coordinate the synthesis of enzymes needed for carbohydrate and fat synthesis
It serves to coordinate the synthesis of enzymes needed for carbohydrate and fat synthesis.

Question 42

Where’s ChREBP expressed?

Answer 42

It is expressed primarily in liver, adipose tissue, and kidney.

Question 43

What is the inactive state of ChREBP and where is it found?

Answer 43

ChREBP in its inactive state is phosphorylated, and is located in the cytosol.

Question 44

Describe how does ChREBP regulate

Answer 44

When ChREBP in the cytosol of a hepatocyte is phosphorylated on a Ser and a Thr residue, it cannot enter the nucleus.
Dephosphorylation of p-Ser of ChREBP by protein phosphatase PP2A allows ChREBP to enter the nucleus, where a second dephosphorylation of P –Thr by nuclear PP2A activates ChREBP so that it can associate with its partner protein, Mlx.
ChREBP-Mlx now binds to the carbohydrate response element (ChoRE) in the promoter and stimulates transcription.

Question 45

What does protein phosphatase PP2A do?

Answer 45

Dephosphorylates p-Ser of ChREBP, allowing it to enter the nucleus

Question 46

What activates PP2A?

Answer 46

PP2A is allosterically activated by xylulose 5-phosphate, an intermediate in the pentose phosphate pathway.

Question 47

What is the role of FOXO?

Answer 47

FOXO1 (forkhead box other) stimulates the synthesis of gluconeogenic enzymes and suppresses the synthesis of the enzymes of glycolysis, the pentose phosphate pathway, and triacylglycerol synthesis. Induces expression of PEP carboxykinase and Glucose 6-phosphatase

Question 48

Describe functioning of FOXO1

Answer 48

Insulin activates the signaling cascade, leading to activation of protein kinase B (PKB).
FOXO1 in the cytosol is phosphorylated by PKB, and the phosphorylated transcription factor is tagged by the attachment of ubiquitin for degradation by proteasomes.
FOXO1 that remains unphosphorylated or is dephosphorylated can enter the nucleus, bind to a response element, and trigger transcription of the associated genes.
Insulin therefore has the effect of turning off the expression of these genes, which include PEP carboxykinase and glucose 6-phosphatase.

Question 49

What does FOXO1 suppress?

Answer 49

Transcription of enzymes of glycolysis, pentose phosphate pathway and FA synthesis

Question 50

What’s the effect of insulin on gluconegenisis enzymes?

Answer 50

Insulin activates a signaling cascade that degrades FOXOQ and therefore has the effect of turning off the expression of these genes, which include PEP carboxykinase and glucose 6-phosphatase.