Fat as Fuel

Question 1

What are the biological functions of lipids?

Answer 1

1. Components of cell membranes
   (phospholipids & cholesterol)
2. Precursors of hormones cholesterol steroid hormones arachidonic acid prostaglandins
3. Long term fuels
   (triglycerides)

Question 2

What is the efficiency of triglycerides as fuel?

Answer 2

• Compact storage - triglycerides stored as large fat droplets in the fat cells of adipose tissue
• Large body stores -
  70 kg adult has: 11 kg fat (as TG)
  120 g glycogen in liver
  10 g glucose
  *Efficiency on weight basis –
  1 g fat yields 38 kJ
  1 g protein 21 kJ
  1 g carbohydrate 17 kJ

Question 3

Structure of triglyceride fat (triacylglycerols)?

common fatty acids

Answer 3

palmitic acid - 160
stearic acid 18:0
oleic acid 18:1
linoleic acid 18:2
linolenic acid 18:3

Question 4

How does the breakdown of stored triglyceride fat occur?

Answer 4

• in adipose tissue
• Triacylglcerol broken down into diaclycerol and a fatty acid then to monoacylglycerol and a fatty acid then glycerol and a fatty acid

Question 5

What enzymes are used to break triglycerol down?
and how is it activated?

Answer 5

Lipase activated by adrenaline and glucagon
* Broken down from triglycerol by triacylglcerol lipase (active)
* broken down from diacylglcerol by DAG lipase
* Broken down to glycerol MAG Lipase

Question 6

What happens to the free fatty acid after breakdown of triglycerol?

Answer 6

Free fatty acids travel in plasma bound to albumin
* Act as fuels for muscles,heart & liver

Question 7

What happens to glycerol after breakdown of triglycerol?

Answer 7

Metabolism of glycerol
* its water soluble due to 30OH Group and taken up by all tissues

In Most Tissues: Enters glycolysis pathway for conversion to pyruvate, then into TCA cycle for oxidation to CO2
In Liver/In Starvation: Enters glycolysis pathway and is converted to glucose by gluconeogenesis

Question 8

How does fatty acid matabolism occur?

Answer 8

• By B-oxidation pathway
• Occurs in mitochondrial matrix(transport across membrane)
• intermediates present as CoA thioesters (High Energy bonds)
• biological energy of fatty acid molecule is conserved as the transfer of 2 H atoms to the cofactors NAD + and FAD to form NADH & FADH 2 (no direct ATP synthesis)
• Series of four enzyme reactions results in removal of two carbon unit as acetyl CoA

Question 9

How are fatty acids activated?

Answer 9

Long chain fatty acids are activated in the cytosol by the addition of CoA.

Question 10

What are bonds formed in activation of fatty acid?

Answer 10

Coenzyme A forms thioester bonds with carboxylic acids

Question 11

Describe Transport of fatty acyl-CoA into mitochondria using the carnitine shuttle?

Answer 11

1) Fatty acyl-CoA freely diffuses across the outer mitochondrial membrane
2) Fatty acid group transferred to carnitine by carnitine acyltransferase I, creating fatty acyl-carnitine.
3)** Fatty acyl-carnitine crosses the inner mitochondrial membrane** via a translocase
4) Carnitine is switched back for CoA by carnitine acyltransferase II, recreating fatty acyl-CoA.
5) Carnitine transported back into the intermembrane space.

Question 12

How would you describe the energy of the process?

Answer 12

The process is energetically neutral.

Question 13

Describe stage 1 of the transport of fatty acids into mitochondria?

Answer 13

Question 14

Describe stage 2 of the transport of fatty acids into mitochondria?

Answer 14

Question 15

Why is it called B-oxidation?

Answer 15

Called β-oxidation because the β-carbon undergoes oxidation to produce a carbonyl group (carbon double-bonded to oxygen).

Question 16

Describe B-oxidation?

Answer 16

One round of β-oxidation produces acetyl-CoA and a fatty acyl-CoA that is 2 carbons shorter - the 2 carbons are now carried by acetyl-CoA.

Question 17

What is an overview of β-oxidation pathway?

Answer 17

1. Remove 2 hydrogens
2. Add oxygen (in water)
3. Remove 2 hydrogens
4. Cleave bond and add CoASH

Question 18

Describe the first reaction in beta oxidation?

Answer 18

Reaction 1 - Removal of 2 H atoms

Question 19

Describe the second reaction in beta oxidation?

Answer 19

Reaction 2 – Addition of water

Question 20

Describe the third reaction in beta oxidation?

Answer 20

Reaction 3 – Removal of 2 H atoms

Question 21

Describe the forth reaction in beta oxidation?

Answer 21

Reaction 4 - Removal of 2 C units

Question 22

What happens to the fatty acyl-CoA

Answer 22

Shorter fatty acid re enters reactions 1 - 4
Fatty acyl-CoA (2 C atoms shorter)

Question 23

Summary of B-oxidation pathway 1

Answer 23

Question 24

Summary of B-oxidation pathway -2
How many molecules produced?

Answer 24

Fatty acid with 16 C atoms will pass through 7 repeats of -oxidation pathway producing 7 NADH & 7 FADH2

Question 25

What will fatty acids with 16C C atoms produce?

Answer 25

Fatty acid with 16 C atoms will give rise to 8 acetyl CoA which CoA enter the TCA cycle

Question 26

What is the energy yield from fatty acid oxidation?

Answer 26

Fatty acid with 16 C atoms goes through 7 repeats of B-oxidation producing 7 NADH & 7 FADH2

ATP yield = 7 x 2.5 + 7 x 1.5 = 28

Fatty acid with 16 C atoms produces 8 acetyl CoA
ATP yield from complete oxidation of acetyl CoA by TCA cycle = 8 x10 ATP = 80

TOTAL = 80+28=108–1 =107
-1 is accounting for ATP used for activation

Question 27

Regulation of fat metabolism

Answer 27

• Release of fatty acids from adipose tissue adrenaline & glucagon activate lipase enzyme
• Rate of entry into mitochondria via carnitine shuttle
• Rate of reoxidation of cofactors NADH & FADH2 by Electron Transport Chain

Question 28

How does the metabolism of odd numbered fatty acids?

Answer 28

B-oxidation will result in the following:
C15—>C13—>C11—>C9—>C7—->C5—->C3

Question 29

How to deal with the last 3 carbons in metabolism of odd numbered fatty acids?

Answer 29

Question 30

Describe Ketone body formation?

Answer 30

• ‘Ketogenesis’ occurs when fat metabolism is the main source of energy:
  – in starvation
  – in Type I diabetes

Question 31

What does fatty acid oxidation in hepocytes lead to?

Answer 31

• Fatty acid oxidation in hepatocytes leads to high concentrations of Acetyl Co A - exceeds capacity of the TCA cycle.
• Excess Acetyl CoA is converted into ‘ketone bodies’ in liver
• acetoacetate and β hydroxybutyrate are released into the bloodstream

Question 32

How can Ketone bodies can be utilised for energy by most tissues?

Answer 32

• acetoacetate and β hydroxybutyrate are released into the bloodstream.
• In most cell types they can be converted back into TCA cycle intermediates (acetyl CoA and succinate).
• Most tissues oxidise a mixture of fatty acids and ketone bodies

Question 33

Why can’t some tissues utilise FA energy?

Answer 33

• Liver cannot utilise ketone bodies – WHY?
• Brain cannot utilise fatty acids – WHY?
  – uses glucose and small amount of ketone bodies (‘emergency fuel’)
• Red blood cells cannot utilise fatty acids or ketone bodies, use glucose only – WHY?

Question 34

Summary of mitochondrial events

Answer 34