lipid and fatty acid metabolism

Question 1

describe digestion and absorption

Answer 1

1. Dietary fats consumed through diet
2. Emulsified by bile salts into fat droplets
3. Triacylglycerols degraded by lipases producing FREE fatty acids
4. Free Fatty Acids are absorbed in epithelial cells  triacylglycerols then synthesised
5. Triacyclglycerols are insoluble in blood and lymph therefore transported via chylomicrons (LIPOPROTEIN)
6. Transported to MUSCLE for ENERGY (or ADIPOSE TISSUE for STORAGE)

Question 2

what happens in troglycerol breakdown

Answer 2

triclyglycerol is converted to glycerol

tricylglycerol = diacylglycerol (=lipase is removed)
diacylglycerol= monoacylglycerol (=lipase removed)
monoaacylglycerol = glycerol (=lipase removed)

Question 3

what happens in glycerol breakdown in the liver

Answer 3

glycerol is converted to dihydroxyacetone phosphate

glycerol = glycerol-3-phosphate = dihydroxyacetone phosphate

1st = glycerol kinase (ATP = ADP)
2nd = glycerol-3-phosphate dehydrogenase (NADH+ = NADH+ H+)

Question 4

What is dihydroxyacetone phosphate

Answer 4

an intermediate in glycolysis used for energy production

Question 5

what happens if blood glucose is low in triacylglycerol breakdown

Answer 5

energy is still needed and therefore breakdown of triacylglycerol

Question 6

what happens if blood glucose is high in triacylglycerol breakdown

Answer 6

insulin responds to high glucose levels and inactivates lipase and stops lipolysis

Question 7

what is fatty acid breakdown

Answer 7

called beta oxidation and occurs in the mitochondria (somoetimes the peroxisomes) and is a reoccurring cycle that has 4 steps and it produces FADH2 AND NADH

Question 8

What happens in the activation step

Answer 8

FA is activated by a coenzyme A resulting in an acyl-CoA. This allows FA and acyl CoA to diffuse into the mitochondria.

Question 9

what is the first step

Answer 9

Oxidation
Removes a pair of hydrogen atoms from the FA
Reduction of FAD to FADH2 (2ATP)
Outcome = forms a C=C bond on the fatty acyl chain

Question 10

what is the second step

Answer 10

hydration
Hydration of the double bond
Beta-carbon is hydroxylated

Question 11

what is the third step

Answer 11

Oxidation reaction
Hydroxyl group of the beta-carbon is now hydrogenated
NAD+ is reduced to NADH –

Question 12

what is the fourth step

Answer 12

Final reaction
Catalysed by thiolase
Cleavage and release of Acetyl CoA
The thiol is inserted between C-2 (alpha) and C-3 (beta)
An acetyl CoA molecule, and an acyl CoA molecule that is two carbons shorter

Question 13

what are peroxisomes

Answer 13

small organelles with single membrane and found in cytoplasm.
Longer chain FAs are initially broken down into shorter units in peroxisomes
Partly degraded FAs move to mitochondria where process is complete

Question 14

what happens in the first step of fatty acid breakdown in peroxisomes

Answer 14

Step 1 – enzyme converts electrons to H20 producing Hydrogen peroxide
Catalase converts hydrogen peroxide back to water and oxygen species
Associated with variety of toxic compounds such as phenols and alcohol

Question 15

what are the main points for tricylglycerol breakdown

Answer 15

broken down by lipases (releasing FAs to be further degraded)
Glycerol further degradation
Fatty acid breakdown (beta-oxidation):
Occurs in mitochondria or peroxisomes
Activation step Fatty acids converted to Acyl CoA derivatives
Carnitine used for longer and/or unsaturated FA
4 key steps
Outcome  to yield ENERGY

Answer 16

Glycolysis and Beta-oxidation occur at the same rate
Steady supply of pyruvate  oxaloacetate
An adequate supply of oxaloacetate is needed for acetyl CoA (from beta-oxidation) to efficiently enter TCA/Kerb cycle
Low supply of carbohydrates  energy comes from FA degradation
Ketone bodies are produced from Acetyl CoA

Question 17

what are three examples of ketone bodies

Answer 17

Acetone
Acetoacetic acid
Beta-hydroxybutyric acid

Question 18

what are ketones functions

Answer 18

Ketone bodies can be used by the heart and brain for energy

Question 19

how are fatty acids synthesised from acetyl-CoA and malonyl CoA

Answer 19

through fatty acid synthase FAS enzymes

Question 20

where does fatty acid synthase occurs

Answer 20

Occurs in the cytosol, when carbohydrate and energy supplies are plentiful

Question 21

what is fatty acid synthase not

Answer 21

a simple reverse of beta oxidation

Question 22

what cannot be synthesised and has to be obtained from the diet

Answer 22

Essential PUFA (alpha-linolenic and linoleic acid)

Question 23

what is the first stage of fatty acid biosynthesis

Answer 23

Elongation/Condensation of acetyl-ACP to malonyl-CoA to form acetoacetyl-ACP, a ketoacid, releasing CO2

Question 24

what is the second stage of fatty acid biosynthesis

Answer 24

Reduction of acetoacetyl-ACP to form β-hydroxy acid derivative, using NADPH

Question 25

what is the third stage of fatty acid biosynthesis

Answer 25

Dehydration to make a trans-double bond

Question 26

what is the fourth stage of fatty acid biosynthesis

Answer 26

Reduction by NADPH to form the saturated fatty acid butyryl-ACP (4 C)

Question 27

what number can humans synthesise

Answer 27

Humans can only synthesise up to 16-carbons long fatty acids
C18 fatty acids (i.e., ESSENTIAL) only obtained in DIET!

Question 28

what 2 acids are obtained from dietary sources and are deemed essential

Answer 28

Linoleic acid (LA) (C18 n-6)

Alpha-linolenic acid (ALA) (C18 n-3)

Question 29

what acids obtained from the diet are not termed essential

Answer 29

Arachidonic acid (AA) (C20 n-6)
Eicosapentaenoic acid (EPA) (C20 n-3)
Docosahexaenoic acid (DHA) (C22 n-3)

Question 30

what are the key differences between beta oxidation and fatty acid biosynthesis

Answer 30

beta= occurs in mitochondria, has 4 non associated enzymes, 2Cs removed as acetyl CoA, starts at the carboxyl end, occurs in muscle and liver, nutritional status is starvation and has a low insulin/glucagon ratio.

bio= occurs in cytosol, a multi enzyme complex, 2Cs added using malonyl CoA, starts at methyl end, occurs in liver, nutritional status is well-fed and has a high insulin/glucagon ratio

Question 31

what occurs in Triacylglycerol synthesis/storage

Answer 31

Adipose tissue  STORAGE
Muscle cells  ENERGY

Question 32

liver

Answer 32

Major role in regulation of blood glucose concentrations
role in lipid metabolism as Excess fuel
liver converts FA to ketones

Question 33

brain

Answer 33

Normal conditions – brain uses glucose as source of energy

Starvation depletes glycogen stores
ketone bodies (acetoacetate and beta-hydroxybutyrate) are used as alternative energy source

Question 34

muscle tissue

Answer 34

Energy demands of resting muscle is usually via beta-oxidation

Working muscle – energy obtained from degradation of own supply of glycogen

Heart muscle prefers ketone bodies over glucose

Question 35

adipose tissue

Answer 35

Adipose tissue is a major storage depot of fatty acids

Triglycerides released from liver are carried by VLDL and absorbed by adipose tissue