13 - Lipoprotein Metabolism

Question 1

What are apolipoproteins? Describe the structure of lipoproteins

Answer 1

Emulsifying agents, proteins that bind with lipids to form lipoproteins (for structure, enzyme cofactors and ligands for receptors)

Lipoproteins are spherical complexes of lipids and proteins (phospholipid monolayer, unesterified cholesterol and mostly phosphatidylcholines)

Apolipoproteins are on the surface and TAG and cholesterol esters are sequestered in the central core

Question 2

How do the following methods isolate lipoproteins based on their composition?

• Ultracentrifuge
• Chromatography
• Electrophoresis

Answer 2

• Ultracentrifuge: density
• Chromatography: size
• Electrophoresis: protein charge/composition and size

Eg. with more lipid (TG) the lipoprotein will be least dense and will float (move to top of ultracentrifuge), or lag in chromatography or electrophoresis (maybe)

Question 3

List the four main types of lipoproteins that can be found and the amount of homogeneity of each one

Answer 3

Chylomicron: intestinal, heterogenous and biggest, most TG

VLDL: Heterogenous

LDL: More homogenous

HDL: most homogenous and smallest, least TG

Question 4

What is the function of apolipoprotein A-I?

Answer 4

Activates LCAT (lecithin-cholesterol acyltransferase)

On chylomicrons and HDL

Question 5

What is the function of apolipoprotein B-48?

Answer 5

Cholesterol clearance

On chylomicrons only

Question 6

What is the function of apolipoprotein B-100?

Answer 6

Cholesterol clearance

On VLDL, IDL, LDL (only apolipoprotein on LDL)

Question 7

What are the two broad classes of apolipoproteins?

Answer 7

• Based on their ability to exchange between lipoprotein particles (related to aqueous solubility of the protein)

ApoB proteins are non-exchangeable; all of the remaining apolipoproteins are exchangeable.

Exchangeable apolipoprotein structure and function is explained by the amphipathic alpha helix model (one side is hydrophilic and the other hydrophobic).

Question 8

How are lipoproteins assembled?

Answer 8

• mRNA is transcribed on rough ER, peptide has signal peptide attached.
• Glycosylation of peptide occurs with lipid synthesis in SER and the lipid is bound inside the apolipoprotein
• The particle is sent through golgi where it receives terminal glycosylation before being secreted as a secretory vesicle
• It fuses with the plasma membrane to receive post secretory modifications

Question 9

What happens if you have dysregulation in ApoE?

Answer 9

Accumulation in IDL

IDL is the product of VLDLs after they have deposited free fatty acids into adipose tissue or muscles. OR products of HDL after conversion from plasma LCAT (lecithin-cholesterol acyltransferase)

They are cleared at the liver after becoming LDLs

Question 10

Describe the fate of dietary fat through the circulatory system

Answer 10

Exogenous pathway

• Entrapped in chylomicrons at intestine
• Lipoprotein lipase liberates some TG as FA to leave remnants which are taken up into the liver by hepatic lipase, where the dietary cholesterol is processed

Endogenous pathway

• Liver secretes VLDL from the dietary cholesterol
• These deposit more FAs in adipose tissue/muscle, leaving IDL
• IDL are converted to LDL and cleared at the liver or in extrahepatic tissue
• Extrahepatic tissue makes HDL which may be converted into IDL

Question 11

Why is glycerol transferred to the serum from chylomicrons, other than adipose and/or muscle tissue (like TG are)?

Answer 11

Adipose tissue and muscle cannot phosphorylate glycerol, has to be picked up by the liver or kidney from the serum.

Question 12

Hydrolysis of TAG on chylomicrons by lipoprotein lipase is dependent on what?

Answer 12

Presence of apoCII (acquired from HDL by exchange)

Loss of apoCII and apoCIII exposes apoE for receptor mediated uptake of the remnant

Question 13

Describe the synthesis and actions of lipoprotein lipase

Describe deficiency of LPL

Answer 13

• Synthesized by adipocyte and transported to surface where it is anchored by heparan sulfate
• LPL binds to Apo-CII on chylomicron surface (from HDL exchange)
• Deficiency of either LPL or apoCII means that chylomicrons cannot be metabolized and accumulate in the blood

Question 14

Describe VLDL metabolism

Answer 14

• VLDLs made in golgi of liver
• ApoC and ApoE are transferred from HDL
• FA from TAG are hydrolyzed by lipoprotein lipase found in adipose, aorta, heart, spleen (etc. - non-hepatic tissue)
• As the TAG is removed from the VLDL, the particle becomes smaller and becomes an IDL
• Further loss of TAG and it becomes a LDL (by hepatic lipase)
• LDL are taken up by B-100 receptors found in the liver and non-hepatic tissue

Question 15

Describe three mechanisms for the accumulation of cholesterol from LDL

Answer 15

• Activation of ACAT leading to esterification
• Inhibition of HMGCoA reductase to decrease cell cholesterol synthesis
• Inhibition of synthesis of more LDL receptors

Question 16

Describe steps of LDL metabolism (and uptake of cholesterol)

Answer 16

1. ApoB-100 protein binds with LDL receptor in clathrin coated pit to make vesicle.
2. Vesicle is uncoated and becomes endosome
3. LDL is separated from receptor, receptor leaves endosome for recycling.
4. A lysosome comes and degrades LDL as amino acids, cholesterol and fatty acids.

Question 17

Describe HDL metabolism.

What is the function of this pathway?

Answer 17

Function of this pathway is to remove excess cholesterol from peripheral cells and back to the liver (reverse cholesterol transport)

• HDL synthesized in liver (some from intestines). ApoE and ApoC also synthesized in liver and added to HDL
• Contains PLs, cholesterol and LCAT
• ATP binding cassette transporters (ABCA1) transport cholesterol and PL to HDL unidirectionally
• Esterified cholesterol is taken up from HDL to liver and then converted to bile for excretion

Question 18

Why does HDL form a dish when it is being formed?

Answer 18

Contains no neutral lipids when it is first excreted from liver (nascent).

It becomes more spherical when LCAT is activated and it fills with hydrophobic lipids

Question 19

How is the LDL receptor structured in a way that facilitates binding with LDLs?

Answer 19

Negative charges (eg. aspartate and glutamate) are sporadically spaced apart so that they interact with positive charges (eg. arginine and lysine) on ApoB-100 and ApoE

Question 20

What happens when the LDL receptor is mutated?

Answer 20

Familial hypercholesterolemia, an autosomal dominant trait

Most common single gene disorder known.

Affects every stage of transport:

• Synthesis (class 1)
• Transport (golgi)
• Binding to LDL particle
• Clathrin coating/clustering
• Endosome forming (class 5)

Question 21

How is excess cholesterol removed from peripheral tissue and transported back to the liver for disposal?

Answer 21

• ABCA1, LCAT and CETP are key elements in HDL mediated removal
• ABCA1 is a membrane spanning transporter with ATP binding properties: transports PL and choesterol out of the cell where it acquires ApoA-I to become HDL
• Cholesterol is esterified by LCAT and moves to the core of the lipoprotein

Question 22

What is the difference between ApoB-100 and ApoB-48?

Answer 22

Their length

B-48 is about half the size, missing charged receptor interaction domain (won’t bind with LDL receptor)