GNG

Question 1

Gluconeogenesis

Answer 1

• GNG
• Metabolic pathway that results in the generation of glucose from non-carbohydrate precursors
• Anabolic

Question 2

GNG purpose

Answer 2

-to maintain blood glucose levels and avoid hypoglycemia under conditions of fasting(more than 10-18 hours)

Question 3

What organs is GNG?

Answer 3

• Liver:predominantly

- Kidney cortex: at lesser extent, only during prolonges fasting contribute up to 40% of total glucose production

Question 4

Where in cell is GNG?

Answer 4

Step 1: mitochondrial matrix
Middle steps: all reversible steps of glycolysis
Last Step: ER

Question 5

Substrates for GNG

Answer 5

glycerol

• AA
• lactate

Question 6

Glycerol

Answer 6

• release during hydrolysis of TAGs in adipocytes and is delivered by the blood to liver
• adipocytes lack glycerol kinase
• only in the liver: glycerol—>glycerol P—>DHAP

Question 7

Amino Acids

Answer 7

• major source are AA derived from tissue protein hydrolysis(use muscle mass in times of starvation)
• Alanine is major AA used, but most can be
• Most AA are converted in the TCA to intermediates that can yield OAA at some point

Question 8

Lactate

Answer 8

-can be converted back into pyruvate in the liver by lactate dehydrogenase(enzyme is only in the liver. lactate from RBC to liver to be converted and avoid build up)

Question 9

Cori Cycle

Answer 9

• -glucose converted into lactate under anaerobic glycolysis
• excreted to plasma
• sent to liver to be converted back to glucose
• released back into circulation

Question 10

Acetly CoA

Answer 10

• CANNOT BE CONVERTED TO PYRUVATE IN HUMANS

- PDH is irreversible

Question 11

Fatty Acids

Answer 11

• FA cannot be used as substrate for GNG

- FA oxidation provides the liver with the energy required to perform GNG

Question 12

reversible steps of GNG

Answer 12

• 7 reversible steps from glycolysis

- highly dependent on concentration of substrates and products

Question 13

Carboxylation of pyruvate to OAA(part 1)

Answer 13

• in mitochondrial matrix
• provide OAA for GNG and TCA replinishment
• pyruvate can’t go into mitochondria
• requires Biotin as coenzyme
• allosterically activated by acetyl CoA

Question 14

Biotin/Bicarbonate

Answer 14

• biocarbonate ion is not free floating, attached to CO2

- biotin is bound to pyruvate carboxylase so biocarbonate ion can attach and release C for pyruvate

Question 15

Carboxylation of pyruvate to OAA(part 2)

Answer 15

• OAA cant be exported so, converted to malate
• malate goes through to cytosol and is oxidatively decarboxylated back to OAA
• malate dehydrogenase and PEP carboxykinase

Question 16

Decarboxylation of cytosolic OAA

Answer 16

• irreversible
• driven by GTP hydrolysis
• pairing carboxylation with decarboxylation makes GNG energetically possible
• PEPCK
• remove one C from OAA and add P

Question 17

Dephosphorylation of fructose 1,6-bisphosphate

Answer 17

-hydrolysis reaction
-bypass the irreversible PFK-1 reaction
-important site for regulation
fructose 1,6-bisphosphatase

Question 18

Regulation of Fructose 1,6-bisphosphatase

Answer 18

• high AMP levels inhibit
• allosterically inhibited by fructose 2,6-bisphosphate
  
  • activator of PFK-1, made by PFK-2
  • common regulator shows glycolysis and GNG are mutually exclusive
• Activated by high ATP

Question 19

Dephosphorylation of glucose 6-P

Answer 19

• removal of P to free glucose and let it exit
• hydrolysis reaction
• bypass hexokinase irreversible reaction
• provides energetically favorable step to produce glucose
• GLUCOSE 6-PHOSPHATASE
• enzyme faces lumen so it can cleave glucose before it leaves

Question 20

Von Gierke disease

Answer 20

-glucose 6-phosphatase deficiency

Question 21

Energy summary of GNG

Answer 21

• endergonic pathway
• anabolic pathway
• for 1 glucose,
• 4 ATP and 2 GTP used
• 2 NADH are used

Question 22

Regulation by glucagon

Answer 22

• inhibits PFK-2, lowers fructose 2,6-bisposphate
• inhibits pyruvate kinase so PEP is used for GNG and not glycolysis
• stimulates transcription of PEPCK to activate it
• inhibits glycolysis, activates GNG

Question 23

Regulation by substrate availability

Answer 23

• protein breakdown in other tissues and AA release yields gluconeogenic precursors in the liver
• stimulates GNG
• ATP and NADH are provided by the oxidation of fatty acids in liver

Question 24

Allosteric activation by acetyl CoA

Answer 24

• build up of acetyl CoA signials diversion of OAA for GNG
• activates pyruvate carboxylase
• inhibits PDH so pyruvate goes to GNG and not TCA

Question 25

Allosteric inhibition by AMP

Answer 25

• fructose 1,6-bisphosphatase is inhibited by high AMP
• PFK-1 activated by High AMP
• assures two pathways are mutually exclussive