Fatty Acid catabolism - Lecture 1

Question 1

90% of dietary lipids are ___________.

Answer 1

triacylglycerols

Question 2

Fatty acids are composed of what?

Answer 2

Long hydrophic HC chain (highly reduced) and a carbozylic polar group

Question 3

What are the different sources of fat available for oxidation?

Answer 3

1 - Dietary fat
2 - Excess dietary fat stores in adipose tissue
3 - Excess carbohydrate calories converted to fat in the liver and transported to adipose tissues

Question 4

What are the functions of fat?

Answer 4

• Stored fat acts as a major source of energy when there are no carbs available.
• Serves as a supply of FAs required for cellular function
• Provides insulation and complexion to the body

Question 5

FA are amphipolar and act as ________.

Answer 5

detergents

Question 6

How do excess carbs become fat?

Answer 6

Excess carbs, go to liver, converts glucose to fat via glycolysis, then PDC, then acetyl-CoA is stored as fat in adipocytes

Question 7

What transports fat from the liver to adipose tissues?

Answer 7

LDL and HDL

Question 8

Why are fats important for cellular function?

Answer 8

Lipid bilayer

Question 9

What are the issues with being too lean, i.e. low fat stores?

Answer 9

1 - Look sick - bad complexion
2 - Feel cold due to lack of insulation
3 - Cannot afford to starve since there are not fat stores to sustained survival

Question 10

What is a fatty acid glycerol?

Answer 10

3 fatty acids bound to a glycerol

Question 11

A fully saturated fatty acid glycerol will be ______.

Answer 11

Solid

Question 12

How does unsaturation affect the structure of a fat molecule?

Answer 12

Change in conformation, no more stacking of fatty acids, generally liquid

Question 13

What is hydrogenation

Answer 13

Artificial saturation.

Question 14

After triacylglercyrols are ingested, they are present in the form of _____ ______.

Answer 14

oil droplets

Question 15

What does the liver produce to emulsify fat? Where is it stored? Where is it released?

Answer 15

Liver produces bile acids
Collect in the gallbladder
Released into the small intestine to emulsify fat.

Question 16

A challenge in the physiological system is that the pipeline is _____-_____, but we need to absorb fat and transport it.
What is another issue with fat digestion?

Answer 16

water-based

All our enzymes are water based, work in aqueous solution. Fat doesnt mix with water.

Question 17

When triacylglycerols are digested, what do they produce? What are the dangers of this?

Answer 17

Produce glycerol (harmless) and FAs (detergents)

Question 18

How are the fatty acids, acting like detergents, kept in check?

Answer 18

Fatty acid binding proteins keep the detergents inactive.

These are only released when needed.

Question 19

What is the purpose of bile acids?

Answer 19

Emulsify fat so it can be digested by enzymes.

Question 20

What are bile acids?

Answer 20

Amphipathic (polar and non-polar structures), detergent-like molecules that are synthesized in the liver that help to solubilize or emulsify triglycerides in the small intestine.

Question 21

What are pancreatic lipases?

Answer 21

Pancreatic enzymes that catalyze the hydrolysis of fat to release fatty acids and glycerol in the intestine.

Question 22

What do both bile acids and fatty acid binding proteins do?

Answer 22

Facilitate absorption of lipids in the intestine.

Question 23

What are intestinal fatty acid binding proteins (-FABP)?

Answer 23

Proteins present inside the intestinal cells, they bind to fatty acids and protect cells from the detergent-like behaviour of FAs.

Question 24

What are chylomicrons?

Answer 24

Transport granules, cholesterol and lipids from intestine to liver and adipose tissue via blood.

Question 25

What are lipoprotein lipases?

Answer 25

These enzymes are present in the capillaries or the peripheral tissues. They digest tryglycerides into FA and glycerol.

Question 26

What are bile acids?

Answer 26

Detergent like molecule produced in the liver to help in digestion of fat in the intestine (emulsify fat)

Question 27

What are pancreatic lipases?

Answer 27

Synthesized in the pancreas and then secreted into the SI.

Enzymes that digest fat into FA and glycerol

Question 28

What do both bile acids and FABP do?

Answer 28

FABP and bile acid bind to fat molecules and keep their concentration low to prevent damage to the wall of the intestines or cells.

Question 29

What are I-FABP?

Answer 29

FABP in the intestinal cells that prevent fat from causing problems.

Question 30

What are chylomicrons?

Answer 30

Lipoproteins that can bind fat molecules and cholesterol and are assembled in the intesetinal cells.
Brings to different tissues and liver.

Question 31

What are lipoprotein lipases?

Answer 31

Located in tissue capillaries, digests fat into FA and glycerol which can be absorbed by the tissues.

Question 32

What is the hormone dependent lipase?

Answer 32

When starving, lipase activated dependent on hormones, will digest fat in tissues.

Question 33

Provide the summary of how fat is absorbed.

Answer 33

1 - Fat is ingested in the diet
2 - Bile salts emulsify ingested fats
3 - Pancreatic lipases digest triglycerides into FAs and glycerol which are absorbed into the intestinal cells and immediately converted back to triacylglycerol.
4 - Fat is loaded onto apolipoprotein C-2, along with cholesterol to form a chylomicron
5 - Chylomicron is shuttled into the blood and goes to the peripheral tissue
6 - Lipoprotein lipases digest the chylomicron into FA and glycerol, which is absorbed into the tissues
7 - In muscles, this is immediately catabolized
- in adipocytes, this is converted back to fat and stored as fat in water-soluble micelles, can also be used for energy

Question 34

What does a chylomicron contain?
How does a chylomicron have affinity for fatty tissues?
Where are chylomicrons generated?
What do they transport?

Answer 34

Cholesterol, lipoproteins and triacylglycerols.

Receptor that has affinity for fatty tissues to activate capillary lipase.

Generated in intestinal cells.
Transports fat in the blood to all the tissues.

Question 35

All DLs are generated where?

Answer 35

Liver

Question 36

What are the two sources of fat?

Answer 36

SI and liver

Question 37

What do lipoproteins carriers contain?

Answer 37

Lipoprotein, tryglycerides, cholesterol

Question 38

What is VLDL?

Answer 38

Produced in the liver
Loaded with the max amount of fat and cholesterol.
Goes out into the blood to different tissues and can deposit fat to hungry, metabolically active tissues.

Question 39

When does VLDL remain as VLDL?

Answer 39

When overeating and not burning any fat.

Question 40

When does VLDL become HDL?

Answer 40

When the tissues, like the muscles are active, such as when exercising, VLDL dumps off its fat and becomes HDL.

Question 41

What does HDL do?

Answer 41

Hungry for hydrophobic molecules, will go through the blood vessels back to the liver and mop up the arteries.

Question 42

Do chylomicrons go back to the intestine?

Answer 42

No, go back to the liver and get digested there

Question 43

What does blood plasma look like after a meal?

Answer 43

Turbid due to chylomicrons.

Question 44

Suppose that after a fast, blood plasma still looks like blood plasma after just eating. Why?

Answer 44

VLDL makes it turbid
Liver has to adjust and reload fat onto own vehicle.
Releases VLDL but, stores are full since not exercising,
So, lots of fat still in the blood.

Question 45

The liver takes unused fat from the _________ and fat from excess ________ and loads it onto lipoproteins to generate _______, which is thrown back into the blood.
If the tissues are active, they will accept fat and ______ will be converted to ______.
Circulating ______, will then mop up fatty deposition (________) in the blood _______. _____ then goes back to liver.

Answer 45

chylomicron
glucose
VLDL
VLDL
HDL
HDL
cholesterol
vessels

Question 46

What was a clever way to reduce cholesterol?

Answer 46

Designed bacteria that can be taken as a probiotic that destroys bile acid.
Liver then keeps taking cholesterol to produce new bile acid.

Question 47

In the intestine, there are bile acid binding proteins and fatty acid binding proteins. Why?

Answer 47

These would be detergents otherwise.

Question 48

Lots of HDL indicates that the person is ______ ___.

Answer 48

burning fat (tissues and muscles are taken in fat)

Question 49

Describe the pathway to utilize stored fat.

Answer 49

Low blood glucose and energy trigger the secretion of glucagon (and epinephrine in emergency situations).
This activates a G-protein, leading to activation of adnylate cyclase.
This produces cAMP, which activates PKA.
PKA phosphorylates and activates triacylglycerol lipase.
This causes release of fatty acids into the blood, which get bound by serum albumin.
FAs are then transported to the muscle tissues.
FA undergoes b-oxidation of FA to produce acetyl-coA

PKA also phosphorylates adipolipin, which causes it to get dissolved in solution and allow micellles to be free.

Question 50

How is glycerol utilized after digestion by lipase?

Answer 50

Glycerol can be converted to glycerol-3-phosphate and then to DHAP. DHAP is converted to GAP by reaction 5 of glycolysis (triose phosphate isomerase) and then enters the GAPDH reaction directly.

Question 51

How is glycerol converted to G3P?

Answer 51

By glycerol kinase

Question 52

How is G3P converted to DHAP?

Answer 52

G3P DH