24 - Lipid Utilization and Transport

Question 1

What is a monolayer?

Answer 1

A layer of phospholipids that spontaneously forms on the surface of an aqueous solution

Question 2

What is a bilayer vesicle?

Answer 2

A vesicle made of a double layer of phospholipids, spontaneously made in aqueous solution

Question 3

What is a lysophospholipid?

Answer 3

Any derivative of a phospholipid in which one or both acyl derivatives have been removed by hydrolysis (eg. only have one chain descending form headgroup)

Question 4

Where are pilant chain segments found? Stiff chain segments?

Answer 4

They are the ends of hydrophobic side chains of fatty acids in cell membrane lipid bilayers.

Stiff chain segments are the segments of the side chains that are next to the polar hydrophilic headgroups and the pilant chain segments

Eg. (In a membrane)

• Polar hydrophilic headgroups 1
• Stiff chain segments (hydrophobic chain 1)
• Pilant Chain segments (hydrophobic chain 1)
• Pilant chain segments (hydrphobic chain 2)
• Stiff chain segments (hydrophobic chain 2)
• Polar hydrophilic headgroups 2

Question 5

What do scramblases do?

Answer 5

They are energy-independent, can flip-flop phospholipids across a membrane

Question 6

What do flippases do?

Answer 6

Flippases (otherwise known as phospholipid translocases) can can flip-flop phospholipids in one direction using ATP (they are ATPases)

Question 7

What are two ways that phospholipids in membranes can move spontaneously and one way that they can move with facilitation?

Answer 7

Spontaneously

• Lateral diffusion
• Rotation

With Help
- Flip-flop

Question 8

Cell membranes must be fluid at body temperatures. How do they achieve this through fatty acid composition?

Answer 8

Be creating the right balance of fatty acids with more double bonds to create less tighter packing and greater fluidity.

This is also in response to temperature, which can affect the fluidity of the membrane (around a transition temperature)

Question 9

What keeps lipid membranes fluid over broad ranges of temperature to increase membrane stability? How?

Answer 9

Cholesterol. When it intercalates it creates looser packaging of lipids in the membrane.

Question 10

What is cholesterol? What type of ring system does it have?

Answer 10

A steroid with a hydrophobic, planar ring system. It has a hydrophilic hydroxyl group and a hydrophobic side chain.

Question 11

What two things does cholesterol most strongly interact with?

Answer 11

Sphingolipids

Saturated side chains (with rigid structure)

Question 12

What are integral membrane proteins? What do they require?

Answer 12

Proteins embedded in the membrane. Must have hydrophobic stretches (transmembrane domains)

Question 13

What are peripheral membrane proteins?

Answer 13

Associated with membrane through non-covalent interactions which integral proteins or through a covalently linked hydrophobic side chain (eg. a fatty acid)

Question 14

What part of a membrane can connect extracellular and intracellular sides?

Answer 14

Transmembrane proteins

Question 15

What are lateral microdomains in lipid membrains?

Answer 15

Lipid rafts. They are membrane domains of more rigid structure, often with cholesterol and sphingolipids. They are very tiny (nanoscale) and transient (rapid assembly and disassembly).

They can serve to cluster proteins so that they can interact int the membrane

Question 16

What cannot cross the cell membrane by simple diffusion? (2)

Answer 16

Hydrophilic molecules

Ions

Question 17

What two things serve to regulate compartmentation at membranes?

Answer 17

Transporters and channels

Question 18

What is facilitated diffusion?

Answer 18

A channel that allows molecules to diffuse across a membrane

Question 19

What is secondary active transport?

Answer 19

Where molecules are diffused across a membrane in exchange for another molecule being diffused in the other direction.

Question 20

What is primary active transport?

Answer 20

Where a transporter uses the hydrolysis of ATP to generate energy to pump a molecule across a membrane

Question 21

What is passive transport?

Answer 21

Transport down the concentration gradient, from the side of higher concentration to the side of lower concentration.

Question 22

How is passive transport thermodynamically favourable?

Answer 22

When something is transported down a concentration gradient it generates higher randomness, and therefore increased entropy.

This means that transport with the concentration gradient does not cost energy.

Question 23

What is simple diffusion?

Answer 23

Solute diffuses through membrane with no protein required. (eg. oxygen and some lipophilic substances)

Question 24

What is facilitated diffusion?

Answer 24

Diffusion of solute through channel or transporter (eg. glucose through GLUT). Some channels are regulated (gated)

Question 25

List three types of concentration gradients

Answer 25

ions
molecules
protons (pH gradient)

Question 26

Describe transport driven by ATP hydrolysis

Answer 26

Transporter is an ATPase, often called pumps.

Examples are Na/K pumps and H+ATPases which acidify organelles (like lysosomes)

Question 27

Describe transport driven by ion gradient. List two types

Answer 27

Active co-transport

One solute is transported against its concentration gradient, but another one is co-transported down its gradient. Transport down the gradient drives the transport against the gradient.

Cotransporters (same direction, symport)
Exchangers (opposite direction, antiport)

Question 28

What are two types of transporters for glucose? What is the point of having both types of these in a single cell?

Answer 28

Na glucose symport transports glucose against its concentration gradient and sodium down its concentration gradient (both into cell). Active co-transport driven by sodium gradient, can transport glucose even when there is lots of it in cell.

Glucose uniport (GLUT) is a passive transporter that transports glucose down its concentration gradient (always to side of lower concentration)

By having both of these in a single cell (but at different locations) there can be a direct movement of a solute (eg. glucose) in the cell from one part and out the cell at another. (eg. in absorption of nutrients into bloodstream at intestinal brush border cells)

Question 29

What are membrane proteins and what two domains must they have?

Answer 29

Integral membrane proteins with extracellular and intracellular domains.

Generally a ligand binds to extracellular domain, which leads to a conformational change in cytosolic (intracellular) domain (leading to a cellular response)

Question 30

What are three types of fat consumed in the diet?

Answer 30

Fat (traicylglycerols), phospholipids, cholesterol

TGs can’t cross membranes by simple diffusion, not soluble in water and in the diet in big droplets

Question 31

What is the path a lipid takes to get into cells that need energy? (4)

Answer 31

Intestine
Enerocyte (intestinal wall)
circulation
cell

Question 32

What is emulsification and where does it take place in body?

What acts as a detergent?

Answer 32

Big fat globules are broken down into small droplets (to increase surface area for exposure to lipase) in the intestinal lumen.

Bile acids from the gall bladder act as detergents.

Question 33

What digests small fat droplets that have been emulsified by bile acids?

Answer 33

Pancreatic lipase

Question 34

What is lipolysis?

Answer 34

Breakdown of triacylglycerols (TGs) by pancreatic lipase to form 2 fatty acids and 1 2-monoacylglycerol

Monoacylglycerols can be taken up by intestinal cells (enterocytes)

Question 35

What is special about 2-monoacylglyerol?

Answer 35

It is hydrophilic and smaller, therefore can be transported across membranes. Intestinal cells can uptake monoacylglycerols

Question 36

Describe phospholipid hydrolysis?

Answer 36

Different phospholipases hydrolyze different bonds in a phospholipid.

Phospholipase A
Phospholipase C
Phospholipase D

Question 37

What bond does phospholipase A hydrolyze?

Answer 37

Releases fatty acids and lysophospholipid

Question 38

What does phospholipase C do?

Answer 38

Removes headgroup with phosphate group

Question 39

What does Phospholipase D do?

Answer 39

Removes headgroup without phosphogroup, makes phosphatidic acid

Question 40

What are the 5 steps of transport of lipids from enterocytes (intestinal cells) into circulation?

Answer 40

1. Uptake of hydrolyzed lipids (2 fatty acids and 1 monoacylglycerol)
2. Resynthesis of triacylglycerols (2 fatty acids plus 1 monoacylglycerol combine to make 1 TG) in enterocyte
3. Packaging of TG with some phospholipids, cholesterol and a specific protein into a lipoprotein particle (chylomicron)
4. Secretion into lymphatic system through lymph duct
5. Secretion into circulation

Question 41

What is a chylomicron?

Answer 41

A lipoprotein particle formed in enterocytes, that house TGs, phospholipids, cholesterol and apoliprotein. Also cholesteryl esters

All for secretion into lymphatic and circulatory system

Question 42

What do chylomicrons have in their shell? Is it amphipathic, hydrophobic or hydrophilic?

Answer 42

Phospholipid
Cholesterol
Apolipoproteins

Amphipathic

Question 43

What do chylomicrons have in their core? Is it amphipathic, hydrophobic or hydrophilic?

Answer 43

Triacylglycerols
Cholesteryl esters

Hydrophobic

Question 44

What are four major classes of plams lipoproteins in order of size?

Answer 44

Chylomicrons
Very Low Density Lipoproteins
Low density Lipoproteins
High density lipoproteins

Question 45

What is the composition of chylomicrons and very low density lipoproteins (VLDL)?

Answer 45

85% triacylglycerols
9 % phospholipids
1-5% cholesterol
little protein, cholesteryl esters and others

Question 46

What is the composition of Low density lipoproteins (LDL)?

Answer 46

5% triacylglycerol

50% cholesteryl ester

Question 47

Where are triacylglycerols from? (two sources)

Answer 47

diet (chylomicrons)

liver to adipose (VLDL)

Question 48

What type of cholesterol is in very low density lipoproteins?

Answer 48

Bad cholesterol from the liver

Question 49

What type of cholesterol is in high density lipoproteins (HDL)?

Answer 49

Good cholesterol going to the liver

Question 50

What are the primary apolipoproteins of chylomicrons and very low density lipoproteins (VLDL)?

Answer 50

apoB
apoC
apoE

Question 51

What are the primary apolipoproteins of low density lipoproteins (LDL)?

Answer 51

apoB

Question 52

What are the primary apoliproteins of high density lipoproteins (HDL)?

Answer 52

apoA1

apoE

Question 53

What activates fatty acids in adipocytes?

Answer 53

CoA

Question 54

How is fat stored into adipose tissue?

Answer 54

1. TG-rich lipopoproteins (chylomicrons or VLDL) from diet or liver are exposed to lipoprotein lipase in blood circulation (capillaries of adipose tissue)
2. Lipoprotein lipase hydrolyzes TGs into glycerol (stays in bloodstream) and 3 fatty acids
3. These three fatty acids enter an adipocyte
4. The fatty acids are activated by CoA and become fatty-acyl-CoA
5. The 3 Fatty-acyl-CoA are then esterified with glycerol-3-phosphate (from glucose) into triacylglycerols (TGs)

Question 55

How are LDL made and what are they?

Answer 55

They are cholesterol-rich lipoproteins that remain after hydrolysis of TGs from VLDL

Question 56

What remains in the bloodstream after fat is stored in adipose tissue?

Answer 56

Chylomicron remnants (if TG from chylomicron ) or LDL (if TG from VLDL)

Question 57

What type of lipoprotein can lead to atherosclerosis?

Answer 57

High levels of LDL can lead to atherosclerosis and a higher risk for heart disease

Question 58

How is LDL in the bloodstream taken up?

Answer 58

First it deposits cholesterol in peripheral tissue. Then the liver takes up the rest of LDL by receptor mediated endocytosis.

Question 59

Cardiovascular risk has a positive correlation with what types of serum lipoproteins and serum lipids?

Answer 59

LDL
LDL/HDL ratio
Serum cholesterol

Question 60

Cardiovascular risk has a negative correlation with what type of serum lipoprotein?

Answer 60

HDL

Question 61

What is an atheroma?

Answer 61

atheroma is an accumulation and swelling in artery walls made up of (mostly) macrophage cells, or debris, and containing lipids (cholesterol and fatty acids), calcium and a variable amount of fibrous connective tissue

Question 62

What is the endothelium of an artery?

Answer 62

The inside cells of an artery.

Question 63

What are 8 things that can cause chronic endothelial injuries?

Answer 63

Hyperlipidemia (elevated levels of lipids/lipoproteins in the blood)

Hypertension (high blood pressure)

Hyperinsulinimia (excess levels of insulin to glucose)

Smoking damage

Hemodynamic factors

toxins

viruses

immune reactions

Question 64

What are the steps of atheroma formation? (8)

Answer 64

1. Initial changes in endothelial lining of artery
2. Monocytes adhere to enothelial cells
3. Infiltration of monocytes into intima (second inside layer of artery wall)
4. Differentiation of monocytes into macrophages
5. Increased permeability for LDL
6. Entry and retention of LDL into intima
7. Modification of LDL (eg. mild oxidation)
8. Uncontrolled uptake of LDL into macrophages and foam cell formation

Question 65

What are the steps after atheroma formation that lead to cell death? (9)

Answer 65

1. Smooth muscle cells migrate into intima and proliferate
2. Further accumulation of lipids
3. Increased synthesis of extracellular matrix (hardening of arteries)
4. Beginning cell death
   - —
5. Cell death begins with formation of necrotic core
6. Calcium deposition
7. Cholesterol crystal formation
8. Plaque instability
9. Plaque rupture

Question 66

What is Nile Red dye used for?

Answer 66

To stain fatty lesion in arteries. Shows that high cholesterol diet leads to increased lesion area and occlusion of the arterial lumen

Question 67

What is a chylomicron remnant?

Answer 67

A chylomicron with very little TG, taken up into the liver

Question 68

Where from VLDLs from?

Answer 68

From the liver, carry TG and cholesterol.

Question 69

How does hypercholesterolemia (high levels of cholesterol in blood) happen?

Answer 69

If LDL clearance is defective, high risk for heart attacks

Question 70

What does HDL do?

Answer 70

High density lipoproteins mediate the transport of cholesterol form peripheral tissues back to the liver. The liver can excrete cholesterol from the body

Question 71

How many direction does glucose move in the intestine?

Answer 71

Only one, from intestines to capillaries through the intestinal epithelial cell (enterocytes)

Question 72

What is the injury model of atheroma formation?

Answer 72

1. A chronic endothelial injury leads to inflammation and an injury response of the the endothelium
2. Endothelial dysfunction sets in with increased permeability of the endothelial layer, leukocyte and monocyte adhesion, monocytes migrate into the intima
3. Smooth muscle cell migration from media to intima and macrophage activation. Monocytes differentiate into macrophages upon adhesion to endothelium and migration into the intima, macrophages become activated due to increased cytokine release from endothelial and smooth muscle cells. Smooth muscle cells migrate into the intima.
4. Lipid accumulation, macrophages and smooth muscle cells take up lipids without feedback control. The higher the LDL levels are in the plasma, the more lipid is deposited. HDL removes lipid form the arterial wall.
5. Smooth muscle cell proliferation, extracellular matrix deposition, necrosis, deposition of extracellular lipids
6. Calcification, calcium deposits in the arterial wall leads to hardening of the artery and increases the risk of plaque rupture
7. Plaque instability, rupture of plaques releases the necrotic core and lipids into the blood stream: thrombosis

Question 73

What is a thrombosis?

Answer 73

When plaque becomes so instable that it ruptures, releasing the necrotic core and lipids into the blood stream

Question 74

What does pancreatic ligase do?

Answer 74

It hydrolyzes fatty acid ester bonds in triglycerides for uptake into the intestine.