Lipid Biosynthesis

Question 1

Name the biological functions of lipids.

Answer 1

• Energy storage (TG)
• Constituents for membranes
• Anchors for membrane proteins (prenyl group, IP2/PIP3)
• Cofactors for enzymes (vitamin K)
• Signaling molecules (eicosanoids, IP3)
• Pigments (retinal); important for vision
• Detergents (bile salts); help the absorption of lipids and fats from the diet
• Transporters
• Antioxidants (vitamin A)

Question 2

What is the first step in the synthesis of fatty acids? Which enzyme catalyzes this step?

Answer 2

• Formation of Malonyl-CoA from Acetyl-CoA

- Acetyl-CoA carboxylase (ACC)

Question 3

Does Acetyl-CoA carboxylase (ACC) require energy?

Answer 3

Yes

Question 4

How is Malonyl-CoA formed?

Answer 4

• CO2 is added to biotin
• Conformational change: biotin shifts from biotin carboxylase to trans carboxylase
• CO2 is added to Acetyl-CoA, converting it to Malonyl-CoA

Question 5

What is the second step in the synthesis of fatty acids? Which enzyme catalyzes this step?

Answer 5

• Addition of 2-carbons to fatty acyl chains

- Fatty acid synthase

Question 6

Which reactions occur on fatty acid synthase (in order)?

Answer 6

1) Condensation
2) Reduction
3) Dehydration
3) Reduction

Question 7

How does Malonyl-CoA attach to fatty acid synthase?

Answer 7

By a thiol (SH) group, attached to Lysine in the ACP moiety

Question 8

To which domain on the fatty acid synthase does Malonyl-CoA attach itself?

Answer 8

ALWAYS attaches on the ACP domain

Question 9

What is on the KS domain of fatty acid synthase? What happens to it?

Answer 9

• Acetyl-CoA

- Structure is brought to ACP to get elongated

Question 10

Where does the elongated FA chain go?

Answer 10

Brought BACK to the KS domain

Question 11

Where does elongation occur?

Answer 11

• OCCURS in the ACP domain

- Brought back to the KS domain AFTER

Question 12

What does the reduction reaction do in fatty acid synthase?

Answer 12

Adds hydrogens to the carbons through NADPH

- In the second reduction, it creates a CH2-CH2 bond

Question 13

At which residue does the growth of the fatty acid chain occur?

Answer 13

On the lysine

Question 14

What fatty acid does fatty acid synthase typically synthesize?

Answer 14

Palmitate (16:0)

Question 15

Where are long fatty acid chains produced?

Answer 15

• In the ER

- In the mitochondria

Question 16

What is the precursor for longer FA chains?

Answer 16

Palmitate

Question 17

What is the precursor for unsaturated fatty acids?

Answer 17

Palmitate and stearate

Question 18

How are palmitate and stearate desaturated?

Answer 18

• By Fatty acyl-CoA desaturase

- Adds double bonds by an oxidative reaction (removes hydrogens)

Question 19

Where are the double bonds on palmitoleate? What about oleate? How many carbons do they have?

Answer 19

• Palmitoleate (16:1)
• Oleate (18:1)
• Double bonds are at C9-C10

Question 20

Which fatty acid cannot be synthesized in mammals?

Answer 20

• Linoleate (18:2)
• Double bonds at 9 and 12
• It is essential, must be eaten

Question 21

What is arachidonate synthesized from?

Answer 21

Linoleate

Question 22

Can arachidonate be synthesized by mammals?

Answer 22

Yes, but it requires linoleate (which can’t)

Question 23

What is the rate-limiting enzyme in the biosynthesis of fatty acids?

Answer 23

Acetyl-CoA carboxylase

Question 24

What is Acetyl-CoA carboxylase inhibited by?

Answer 24

Phosphorylation, which is regulated by the hormones epinephrine and glucagon

Question 25

What is the feedback inhibitor of Acetyl-CoA carboxylase?

Answer 25

Palmitoyl-CoA

Question 26

What is an activator of Acetyl-CoA carboxylase?

Answer 26

Citrate

Question 27

What does catabolism of fatty acids produce? Where does it occur?

Answer 27

• Produces Acetyl-CoA and electron donors (NADH)

- Takes place in the mitochondria

Question 28

What does anabolism of fatty acids produce? Where does it occur?

Answer 28

• Requires Acetyl-CoA, Malonyl-CoA, and electron donors (NADPH)
• Takes place in the cytosol

Question 29

What makes Acetyl-CoA be destined for B-oxidation?

Answer 29

When it is brought back into the mitochondria through carnitation

Question 30

What makes Acetyl-CoA be destined for fatty acid synthesis?

Answer 30

When it is converted to Malonyl-CoA

Question 31

_____________ inhibits all reactions towards B-oxidation.

Answer 31

Malonyl-CoA

Question 32

How does high levels of glucose regulate fatty acid synthesis/breakdown?

Answer 32

• Sufficient energy; release of glucose
• Signals to hormone-dependent phosphatase to remove a phosphate group of ACC
• Activates ACC and FA synthesis

Question 33

How does low levels of glucose regulate fatty acid synthesis/breakdown?

Answer 33

• Glucagon (GPCR) leads to the activation of PKA through cyclic AMP
• PKA phosphorylates ACC, which inactivates it
• Inactivation of FA synthesis

Question 34

What is the source of Acetyl-CoA for the synthesis of fatty acids?

Answer 34

• NOT B-oxidation
• Pyruvate carboxylation
• AA catabolism

Question 35

How does Acetyl-CoA escape from the matrix of the mitochondria?

Answer 35

• Acetyl-CoA is added to Oxaloacetate
• Citrate synthase in the TCA cycle makes citrate out of it
• Transporter for citrate transports it from the matrix to the cytoplasm
• Citrate lyase in the cytoplasm converts it to Acetyl-CoA and oxaloacetate

Question 36

What happens to the oxaloacetate in the cytoplasm produced by citrate lyase?

Answer 36

• Oxaloacetate gets converted to Malate by Malate dehydrogenase
• Malate is transported to the matrix through the malate-a-ketoglutarate transporter
• Or, malate is converted to pyruvate in the cytoplasm
• Pyruvate can go into the mitochondria easily through transporters

Question 37

What are the two steps to the biosynthesis of triacylglycerols?

Answer 37

1) Glycerol-3-phosphate to phosphatidic acid

2) Phosphatidic acid to TG

Question 38

Which enzyme catalyzes glycerol-3-phosphate to phosphatidic acid?

Answer 38

Acyl transferase

Question 39

What does acyl transferase do?

Answer 39

• Transfers two fatty acid chains (acyl chains)

- One phosphate still remains, which makes it phosphatidic acid

Question 40

What can phosphatidic acid become? (2)

Answer 40

1) Synthesized to a glycerophospholipid by adding a head group
2) Phosphate is removed, and one more acyl group is added to form a TG

Question 41

Which enzymes catalyze phosphatidic acid to TG?

Answer 41

1) Phosphatidic acid phosphatase (removes phosphate)

2) Acyl transferase (adds a FA)

Question 42

What promotes the synthesis of TG? How?

Answer 42

• Insulin

- Activation of acyl transferase

Question 43

Where does the biosynthesis of cholesterol occur?

Answer 43

• In the cytoplasm/microsomes

Question 44

What are the steps of the biosynthesis of cholesterol?

Answer 44

1) Condensation
2) Phosphorylation
3) Polymerization
4) Cyclization

Question 45

In the biosynthesis of cholesterol, what are the intermediates produced following condensation?

Answer 45

• Converts acetate to HMG-CoA by HMG-CoA synthase

- Converts HMG-CoA to Mevalonate by HMG-CoA reductase

Question 46

Where is HMG-COA synthase present? What is it used for?

Answer 46

1) Mitochondria: ketone body synthesis

2) Cytoplasm: biosynthesis of cholesterol

Question 47

What happens during polymerization and cyclization in the biosynthesis of cholesterol?

Answer 47

Polymerization: straight chains
Cyclization: straight chains –> cyclic rings

Question 48

What is the rate-limiting enzyme in cholesterol synthesis?

Answer 48

HMG-CoA reductase

Question 49

How does AMP-dependent protein kinase affect cholesterol synthesis?

Answer 49

• When AMP rises, kinase phosphorylates the enzyme

- Decreases cholesterol synthesis

Question 50

How do glucagon and epinephrine affect cholesterol synthesis?

Answer 50

• Cascades lead to phosphorylation

- Decreases cholesterol synthesis

Question 51

How does insulin affect cholesterol synthesis?

Answer 51

• Cascades lead to dephosphorylation

- Increases cholesterol synthesis

Question 52

What does Insig mean? What is its function in cholesterol synthesis?

Answer 52

• Insulin-Induced Gene Protein

- Senses cholesterol levels

Question 53

What does Insig trigger when cholesterol levels are high?

Answer 53

• Triggers ubiquination of HMG-CoA reductase
• Ubiquination triggers protein degradation
• Decreases cholesterol synthesis