Lipoprotein Lecture (Lecture 1)

Question 1

Formula for total cholesterol

Answer 1

LDL cholesterol + HDL cholesterol + VLDL cholesterol

** VLDL cholesterol = triacylglycerol/5 **

Question 2

How are lipid levels different than blood glucose levels?

Answer 2

Unlike tight regulation of blood glucose levels, lipids levels are variable among people. Things are more complicated, principally because they are many different lipoprotein species involved, each of which is able to undergo significant changes in composition and size and to interact with many target tissues.

Question 3

Regulation of blood glucose levels

Answer 3

Blood glucose levels are tightly regulated and vary between 80 and 90 mg/dl after many hours of fasting

Question 4

What is a cholesterol? Where is it synthesized?

Answer 4

Cholesterol is a lipid (very hydrophobic compound) synthesized by virtually all cells, but especially live, intestine, adrenal cortex and reproductive tissues

Question 5

What are the functions of cholesterol?

Answer 5

(1) structural component of membranes

(2) precursor of bile salts, 5 major classes of steroid hormones, vitamin D

Question 6

Is cholesterol required in the human diet?

Answer 6

Cholesterol is not required in the human diet because our cells can synthesize cholesterol de novo

Question 7

Explain connection of cholesterol and cardiac pathologies

Answer 7

Cardiac pathologies associated with cholesterol stem from the regulation of its abundance in the serum, packages in lipoprotein particles, and the propensity of one class of these lipoproteins to accumulate in arterial walls.

Question 8

What does the structure of cholesterol consist of?

Answer 8

(1) 4 fused rings
(2) a hydrocarbon “tail”
(3) -OH group on C-3
(4) double bond at C-5 to C-6

** These are reactive sites for esterification and oxidation-reduction reactions **

Question 9

Characteristics of cholesterol

Answer 9

very hydrophobic compound, consists of four fused hydrocarbon rings, eight-carbon, branched hydrocarbon chain attached to carbon 17 of the D ring. Ring A has a hydroxyl group at carbon 3, and ring B has a double bond between carbon 5 and carbon 6

Question 10

How is plasma cholesterol different from cholesterol in the membrane?

Answer 10

Most plasma cholesterol is in an esterified form (with a fatty acid attached at carbon 3, which makes the structure even more hydrophobic than free (unesterified) cholesterol. Cholesteryl esters are not found in membranes, and are normally present only in low levels in most cells.

Question 11

What is the consequence of cholestrol’s hydrophobicity?

Answer 11

(1) must be transported in association with protein as a component of a lipoprotein particle
(2) solubilized by phospholipids and biles salts in the bile

Question 12

Talk about the liver and cholesterol.

Answer 12

Think of the liver’s role with cholesterol as one like a pool. The liver is a pool filled with cholesterol, instead of water. You can put water into the pool or take water out of the pool.

Question 13

Where does liver cholesterol come from?

Answer 13

(1) diet (via chylomicron remnants)
(2) local synthesis
(3) extrahepatic tissues (via HDL and LDL) - other cells synthesize cholesterol and ship it to the liver

Question 14

What does the liver do with cholesterol?

Answer 14

can export the cholesterol:

(1) in VLDL
(2) excrete cholesterol in bile
(3) use cholesterol to convert it to bile salts (remember, cholesterol is a precursor to bile salts)

Question 15

What are the different packaging types for cholesterol?

Answer 15

(1) Chylomicron - the lipoprotein particle derived from the intestine
(2) VLDL - lipoprotein from the liver
(3) LDL/HDL
* * to varying degrees each of the major lipoprotein particles function to transport cholesterol, to and from the peripheral tissues, to and from liver **

Question 16

What is the only mechanism the body possesses to eliminate cholesterol?

Answer 16

Bile acids in the feces

Question 17

Where does cholesterol synthesis take place in the cell?

Answer 17

Cytosol

Question 18

What compound is the source for all carbon atoms in cholesterol?

Answer 18

Acetyl-CoA

Question 19

What is the major co-factor required for cholesterol synthesis?

Answer 19

NADPH

Question 20

What are the only two major organs that contribute to de novo cholesterol that we have to care about?

Answer 20

Liver and intestine

Question 21

What is the enzyme that catalyzes the rate limiting step of cholesterol synthesis?

Answer 21

HMG CoA reductase

Question 22

What does HMG CoA reductase?

Answer 22

(1) converts HMG CoA to mevalonic acid (mevalonate)
(2) 2 NADPH is used up
(3) releases free CoA

Question 23

What does mevalonic acid give rise to?

Answer 23

Mevalonic acid gives rise to the isoprene squalene, which ‘folds up’

Question 24

What does squalene give rise to?

Answer 24

After ‘folding up’ and after a series of intramolecular reactions give rise to lanosterol; lanosterol in turn is converted to cholesterol in many reactions

Question 25

What does cholesterol synthesis require?

Answer 25

(1) requires several NADPH

(2) requires several ATP

Question 26

Besides giving rise to cholesterol, what else does mevalonic acid give rise to?

Answer 26

Mevalonic acid gives rise not only to cholesterol, but also to terpenes (isoprenoids, sometims also called isoprenes), such as farnesyl pyrophosphate, dolichol, ubiquinones, and geranylgeranyl pyrophosphate

Question 27

Purpose of farnesyl pyrophosphate and geranylgeranyl pyrophosphate?

Answer 27

Farnesyl pyrophosphate and geranylgeranyl pyrophosphate can be conjugaes with proteins and then serve as lipid anchors

Question 28

Purpose of dolichol pyrophosphate?

Answer 28

Dolichol pyrophosphate is required for the dolichol pathway of N-linked posttranslational protein glycosylation.

Question 29

Purpose of ubiquinones?

Answer 29

Ubiquinones can be reduced to ubiquinols, which can donate their electrons to the electrontransport chain as part of oxidative phosphorylation.

Question 30

What is the consequence of esterification on cholesterol?

Answer 30

Esterifiation makes cholesterol more hydrophobic, enabling it to be pakages, and stored and transported easily

Question 31

What enzymes are responsible for the esterification of cholesterol?

Answer 31

(1) ACAT

(2) LCAT

Question 32

Where is LCAT found?

Answer 32

LCAT (lecithin cholesterol acyl transferase) is found in HDL

Question 33

Where is ACAT found?

Answer 33

ACAT (acyl CoA choleserol acyl transerase in cells) is found epithelial cells of the intestine, hepatocytes, and steroid-producing cells (hepatocytes and steroid producing cells store cholesterol as cholesteryl esters inside lipid droplets in the cytosol, while most other cells contain virtually no cholesteryl esters)

Question 34

What are the effects of excess cholesterol?

Answer 34

(1) activate ACAT to make cholesterol esters
(2) inhibit uptake of cholesterol into liver cells
(3) reduce levels of HMG-CoA reductase through
a. stimulates proteolysis of HMG CoA reductase
b. regulate its expression by influencing RNA polymerase II’s rate of HMG-CoA reductase

Question 35

Effect of insulin on HMG-CoA reductase?

Answer 35

insulin stimulates HMG-CoA reductase; a signal of anabolism and growth; remember, insulin is released when glucose levels are elevated
(do not want to use acetly CoA to make cholesterol)

Question 36

Effect of glucagon on HMG-CoA reductase?

Answer 36

glucagon inhibits HMG-CoA reductase ; a signal to preserve acetyl-CoA for the TCA cycle; remember, glucagon is release when glucose levels are low

Question 37

How else is HMG-CoA Reductase modified?

Answer 37

covalent modification (phosphorylation or dephosphorylation)

Question 38

When is HMG-CoA Reductase most active?

Answer 38

In its unmodified form

Question 39

What is the result of phosphorylating HMG-CoA Reductase?

Answer 39

decreasing its activity

Question 40

What enzyme phosphorylates HMG-CoA Reductase?

Answer 40

AMP-activated protein kinase, AMPK

Question 41

Effect of glucagon and epinephrine on cholesterol biosynthesis?

Answer 41

Increase the activity of the phosphoprotein phosphatase inhibitor-1, PPI-1
(What does PPI-1 do? Inhibits phosphatase activity - inhibits the removal of phosphate groups)

Question 42

Effect of insulin on cholesterol biosynthesis?

Answer 42

Insulin stimulates the removal of phosphates and, thereby, activates HMGR activity.

Question 43

What is the role of HMGP phosphatase?

Answer 43

Remove phosphate from HMGR (stimulated by insulin)

Question 44

What is the role of AMPK?

Answer 44

Add phosphate to HMGR (stimulated by glucagon, sterols, and high levels of AMP)

Question 45

Who controls cholesterol synthesis transcriptionally?

Answer 45

SREBP2

Question 46

What is SREBP2?

Answer 46

It is a cholesterol sensor that is the man regulator of HMG-CoA reductase activity. SREBP2 is an integral membrane protein of the endoplasmic reticulum that sense the concentration of cholesterol in the ER membrane. When the concentration of cholestrol in the ER is abnormally low, SREBP-2 containing vesicles form and move to the Golgi apparatus. There, proteases cleave SREBP2. The N-terminal segment of SREBP2 then moves into the nucleus and enhances transcription of several genes, including the genes for HMG-CoA reductase and LDL-receptors. When the concentration of cholesterol is high, there is no such stimulation of transcription by an SREBP2 fragment.

Question 47

What is SREBP an abbreviation for?

Answer 47

Sterol regulatory element binding protein

Question 48

What class of drugs target HMG-CoA reductase?

Answer 48

Statins (reduce the risk of heart disease)

Question 49

How do statins reduce the risk of heart disease?

Answer 49

Statins are structural homologues of HMG-CoA, and compete for HMG-CoA binding on the reductase, reducing its ability to promote cholesterol synthesis

Question 50

How do statins affect LDL concentrations?

Answer 50

Increases the rate of LDL removal from the circulation by stimulating the functional activity of hepatic LDL receptors or by stimulating the expression of LDL receptor molecules on hepatocytes

Question 51

the lower the LDL …

Answer 51

the lower the risk for coronary artery disease (also called coronary heart disease)

Question 52

high LDL …

Answer 52

associated with atherosclerosis

oxidized LDL leads to plaque

Question 53

Problem with plaques

Answer 53

at some point, they rupture, and together with a newly forming blood clot, obstruct blood flow

Question 54

What are xanthomas?

Answer 54

cutaneous depositions of lipidosis; contain cholesterol-laden foam cells. location depends on the cause of the dyslipidemia

Question 55

Where do xanthelasmas form?

Answer 55

under the skin, typically of the eyelid

Question 56

Patients with hypercholesterolemia (no hypertriglyceridemia) have what types of xanthomas?

Answer 56

tendon xanthomas, most often on the hands and feed

Question 57

Patients with combined hypercholesterolemia and hypertriglyceridemia have what types of xanthomas?

Answer 57

tuberous xanthomas, which form over joint

Question 58

What is SLOS?

Answer 58

A metabolic disorder caused by a mutation in the DHCR& gene on chromosome 11. This gene codes for an enzyme that is involved in the production of cholesterol. People who have SLOS are unable to make enough cholesterol to support normal growth and development.

Question 59

Facial features because of SLOS?

Answer 59

microcephaly, drooping eyelid (ptosis), broad nasal bridge, upturned nose, undersized jaw (micrognathia), cleft palate

Question 60

Limb anomalies becaose of SLOS?

Answer 60

short thumbs, polydactyly, syndactyly of the second and third toes (partial or completely united)