SYLLABUS 8: Fatty acid oxidation & ketone body production

Question 1

what does oxidation of fatty acids provide

Answer 1

9 Kcal/g of energy

Question 2

where are fatty acids important

Answer 2

major source of energy for most tissues; but not RBC or BRAIN

major storage form of energy, as triglycerides

Question 3

where does out dietary fat come from

Answer 3

triglycerides, 3 fatty-acid esters of teh alcohol, glycerol

Question 4

general chemical structore of a fatty acid?

Answer 4

CH3 - (CH2)n - COOH

Question 5

structure of triglycerides?

Answer 5

glycerol backbone

3 fatty-acids in ester linkage

Question 6

size of most fatty acids in our diet?

Answer 6

16 to 18 carbons

some contain double bonds in methylenes = unsaturated fatty acids - i.e. oleic acid

if >1 double bond, = polyunsaturated fatty acids, i.e. linoleic acid

Question 7

what are fatty acids synthesized from

Answer 7

acetyl CoA

which came from pyruvate, which came from glucose

requires lots of energy to make fatty acids - NADPH - from pentose cycle, shuttles

Question 8

what is the function of lipases in our diet?

what organs produce lipase?

what organs are involved w/ its action?

Answer 8

pancreas produces lipase;

lipase hydrolyzes dietary triglycerides to fatty acids + glycerol

bile salts from liver aid this

Question 9

function of adipose tissue re: triglycerides?

Answer 9

fatty acids and glycerol are taken up by adipose tissue

triglycerides are resynthesized and stored largely in adipose tissue

Question 10

functions of fatty acids?

Answer 10

1. component of phospholipids & glycolipids of biological membranes
2. major energy source for most tissues
3. major storage form of energy as triglycerides
4. produce signal transduction molecules, eg inositol phosphates, diacylglycerol
5. produce prostaglandins and leukotrienes

Question 11

when are fatty acids the main fuel for tissues?

Answer 11

in the fasted state

Question 12

what activates or inactivates lipase? result re: fatty acids?

Answer 12

in the FASTED STATE: glucagon, epinephrine, norepinephrine activate lipase via cAMP-dependent PKA phosphorylation

in the FED STATE: insulin inhibits lipase by dephosphorylation

Question 13

where does fatty acid oxidation take place?

Answer 13

mito & some peroxisomes

Question 14

describe process of Fatty Acid oxidation in Mito and Peroxisomes, before B-oxidation

Answer 14

1. glucagon, epi, or norepi activate the hormone-sensitive lipase by cAMP-dependent PKA phosphorylation
2. activate lipase hydrolyses stored triglycerides to glycerol + fatty acids
3. glycerol exits adipose tissue, goes to liver, enters gluconeogenesis or glycolysis at G3P & DHAP level
4. fatty acids also can bind albumin in blood, transport to tissues; but albumin-fatty acid complex can’t cross blood brain barriers, so fatty acids do not reach brain for oxidation
5. fatty acids are transported from albumin to fatty acid binding proteins for delivery inside the tissue

Question 15

pathway of fatty acid oxidation?

Answer 15

B-oxidation pathway

Question 16

once fatty acid is in the cell, how does it get into the inner mito membrane?

Answer 16

1. fatty acid is brought to cell membrane by fatty acid binding protein
2. fatty acid is activated to the fatty acyl CoA ester by acyl CoA synthase

this involves exchange of ATP + CoA for AMP + Pi

if short or medium chain acyl CoA synthase, fatty acid can directly enter the mito

if long, need a carnitine shuttle to enter

3. carnitine shuttle converts long-chain fatty acyl CoA to long-chain fatty acyl carnitine
4. long-chain fatty acyl carnitine enters the mito via carnitine translocase carrier
5. in mito, fatty acyl carnitine interacts w/ carnitine transferase 1 or 2 to regenerate carnitine & fatty acyl CoA
6. fatty acyl CoA undergoes B-oxidation

carnitine is shuttled out of matrix by carnitine translocase carrier, so it can do more carries of fatty acyl CoA into mito matrix

Question 17

what fatty acids need carnitine shuttle? fxn?

Answer 17

brings fatty acids from long chain fatty acyl CoA synthases (>12 C) into the inner mito matrix

short or medium chain (4-8 C or 8-12 C) do not need carnitine shuttle

Question 18

what is B-oxidation? products of it?

Answer 18

a series of 4 enzyme catalyzed reactions that acyl CoA undergoes

splits a 2C fragment of the acyl CoA to produce acetyl CoA + new fatty acyl CoA shortened by 2 C atoms

reaction produces 1 NADH and 1 FADH2 in steps 1 and 3 of the rxn

Question 19

how long does the B-oxidation process continue for?

Answer 19

it’s a spiral, repeats until all the carbons are oxidized to acetyl CoA

each spiral produces 1 FADH2 and 1 NADH

Question 20

how many times would an 18 C fatty acid undergo B oxidation?

products?

Answer 20

8 spirals

this produces 8 NADH, 8 FADH2, and 9 2C acetyl CoA products

Question 21

how are odd chain fatty acids differently oxidized in B oxidation?

Answer 21

products are acetyl CoA (2C product) and propionyl CoA (3C product)

propionyl CoA undergoes 3 step metabolism reaction to become succinyl CoA

1. propionyl CoA acted on by biotin produces D-Methyl malonyl CoA
2. MMA epimerase acts on D-MM CoA, produces L-MM CoA
3. MMA mutase, using B12, acts on L-MM CoA, produces succinyl CoA

Question 22

what regulates the rate of B-oxidation?

Answer 22

1) availability of fatty acids via activated hormone-sensitive lipase
2) availability of **carnitine **
3) **malonyl CoA **is the rate-limiting step of fatty acid synthesis, inhibts carnitine acyl transferases 1 and 2
4) rate of the electron transport chain

Question 23

what controls the availability of carnitine?

Answer 23

1) inborn errors of metabolism which lower carnitine synthesis
2) lysine synthesizes carnitine in mammals

Question 24

how many ATPs are produced by B-oxidation of a C18 fatty acid?

Answer 24

8 NADH -> 20 ATP

8 FADH2 -> 12 ATP

9 acetyl CoA -> 90 ATP

• 2 ATP used to activate the fatty acid

= net ~120 ATP prouced

Question 25

what happens to acetyl CoA if the TCA cycle isn’t functioning?

i.e. if OAA is depleted by gluconeogenesis?

Answer 25

it cannot enter the TCA cycle

do not want this acetyl CoA to pile up, as this would deplete CoASH and fatty acid oxidation wouldn’t continue

**liver (and small extent kidneys) do ketone bodies formation / ketogenesis to metabolize actyl CoA **

Question 26

when isn’t OAA available

Answer 26

gluconeogenic conditions, since then OAA is pulled out of the mito to make glucose

Question 27

where does ketogenesis occur

Answer 27

the liver mitochondria

Question 28

describe the process of ketogenesis?

Answer 28

overall, 2 acetyl CoAs are converted to acetoacetate

occurs in the mitochondria

1. acetyal CoAs -> acetoacetyl CoA, by thiolase
2. acetoacetyl CoA -> HMG COA, by HMGCoA synthase
3. HMGCoA -> Acetoacetate + Acetyl CoA, by HMGCoA lyase
4. **Acetoacetate **-> B-OH butarate or -> acetone + CO2 (by spontaneous decarboxylation)

Question 29

on whom is acetone detectable? why?

Answer 29

breath of diabetics, fasting individuals, alcoholics

because acetoacetate is produced from ketogenesis, and this spontaneously decarboxylates to acetone + CO2; an spell acetone on these ppl

Question 30

what happens to the products of ketogenesis?

Answer 30

they leave the mito of the liver on carrier 5; leave the liver; go to the blood; go to different tissues, where they’re converted back to acetyl CoA, oxidized in the TCA cycle

Question 31

effect of high levels of ketone bodies in the blood?

Answer 31

= ketosis

ketone bodies are strong aids

alter (lower) blood pH greatly

Question 32

who has ketosis?

Answer 32

diabetics, poorly nourished alcoholics

Question 33

where do ketone bodies made in liver supply energy to?

Answer 33

othe rtissues

esp muscle, heart, kidney cortex

Question 34

does brain oxidize ketone bodies?

when/if?

Answer 34

no

because the transferase that converts acetoacetate to acetoacetyl CoA isn’t present in the brain

ONLY under conditions of stress i.e. starvation, which allows brain to oxidize ketone bodies, use them for fuel - lowers brain’s need for glucose utilization

Question 35

what happens to the products of ketogenesis?

Answer 35

are converted to acetyl CoA which circulates in blood, goes to other tissues, undergoes teh TCA cycle and makes energy

Question 36

what is the peroxisomal fatty acid system?

Answer 36

makes some acetyl CoA

preferentially oxidized very long chain fatty acids of C22-26, to median chains, which will go to the mito, where they’re oxidized

produces acetyl CoA and NADH, NO FADH2 - instead, O2 is used as an e- acceptor, producing H2O2 which **peroxisomal catalse **removes

Question 37

how do the products of peroxisomal fatty acid oxidation enter the mito?

Answer 37

1) acetyl CoA enters the mito as acetyl carnitine, where it’s oxidized in the TCA cycle
2) NADH is transported into mito by malate-aspartate shuttle
3) spiraling continues til medium chain fatty acid’s produced, which enters mito B-oxidation pathway

Question 38

what induces the peroxisomal fatty acid oxidation pathway?

Answer 38

clofibrate and fibrates, drugs that are used to lower serum lipid levels by enhancing peroxisomal fatty acid oxidation