Digestion of fats

Question 1

What type of bile acids are formed in the liver?

Answer 1

Primary bile acids.

Question 2

What type of bile acids are formed by bacterial action in the intestine?

Answer 2

Secondary bile acids.

Question 3

Name two primary bile acids.

Answer 3

Cholic acid. Chenodeoxycholic acid.

Question 4

Where in the enterocyte are the products of lipase digestion built back up into TAG to for chylomicrons?

Answer 4

The smooth endoplasmic reticulum.

Question 5

Describe peristalsis.

Answer 5

The circular muscle fibres behind the bolus of food contract to constrict the gastrointestinal tract and force the bolus of food forwards; and the longitudinal fibres in front of the bolus of food contract to shorten the gastrointestinal tract so the walls bulge out so it can receive the bolus. This wave of contraction is repeated many times.

Question 6

What are the two pathways of lipid metabolism?

Answer 6

Exogenous (happens after a meal), and endogenous (happens all the time).

Question 7

What enzyme converts chylomicrons to chylomicron remnants?

Answer 7

Lipoprotein lipase on the luminal surface of the endothelium.

Question 8

What proportion of bile salts are excreted in the faeces, what proportion are reabsorbed?

Answer 8

5% excreted in faeces, 95% reabsorbed in ileum to be recycled.

Question 9

What protein transports free fatty acids in the blood?

Answer 9

Albumin.

Question 10

Why is cholesterol transported in lipoproteins as cholesterol ester?

Answer 10

Cholesterol is amphipathic, cholesterol ester is non-polar, it needs to be non-polar to be inside the phospholipid monolayer.

Question 11

Name one of the biggest apoproteins, which is found on the surface of VLDLs and is very important.

Answer 11

Apoprotein B-100.

Question 12

What is the function of chylomicrons?

Answer 12

To deliver dietary lipids to adipose tissue for storage, and to the liver via chylomicron remnants.

Question 13

What is the function of VLDLs?

Answer 13

To deliver triglycerides synthesised in hepatocytes to adipose tissue for storage, and therefore form IDLs and LDLs.

Question 14

What is the function of LDLs?

Answer 14

To deliver cholesterol to any cells in the body that need it, including macrophages.

Question 15

What is cholesterol used for?

Answer 15

Repairing plasma membranes, synthesising steroid hormones and bile salts.

Question 16

What is the function of HDLs?

Answer 16

Reverse cholesterol transport, remove excess cholesterol and transport it to the liver.

Question 17

What is the function of Apo C-2?

Answer 17

Apo C-2 activates the enzyme endothelial lipoprotein lipase, which breaks down TAG in chylomicrons and VLDLs to produce free fatty acids.

Question 18

What is the function of Apo E?

Answer 18

Apo E is the docking protein for chylomicron remnants to be taken up into hepatocytes by receptor-mediated endocytosis.

Question 19

What is the function of Apo B-100?

Answer 19

Apo B-100 is the apoprotein on LDLs, and is the docking protein that binds to LDL receptors so that LDL is taken up by cells by receptor-mediated endocytosis. The cholesterol ester is then broken down inside the cell to supply the cell with cholesterol.

Question 20

What is a coated pit?

Answer 20

Region of plasma membrane specialised for receptor-mediated endocytosis.

Question 21

What is the only way to remove cholesterol from the body?

Answer 21

HDL takes cholesterol from extrahepatic tissues to liver by reverse cholesterol transport, liver converts it into bile salts. small portion of bile salts excreted in the faeces each day.

Question 22

What is newly formed HDL?

Answer 22

Discoidal HDL produced by liver and intestine - a disc of phospholipid bilayer enriched with the apoproteins LCAT and A-1.

Question 23

Which transporter does discoidal HDL interact with so that cholesterol is pumped out of cells?

Answer 23

ABC-1.

Question 24

What is the function of LCAT?

Answer 24

Converts cholesterol (amphipathic) to cholesterol ester (non polar) so that it can be stored between the two layers of the bilayer disc - swelling them out to form a spherical lipoprotein particle.

Question 25

What happens after HDL3 is converted to HDL2 after taking up more cholesterol ester?

Answer 25

HDL2 is taken up into the hepatocytes by receptor-mediated endocytosis at SR-B1 receptor, then hepatic lipase converts cholesterol ester back to cholesterol, then cholesterol converted to bile salts.

Question 26

What does LCAT stand for?

Answer 26

Lecithin Cholesterol Acyl Transferase.

Question 27

Which enzyme do cells use to synthesise cholesterol directly from acetyl coA?

Answer 27

HMG CoA reductase (the enzyme statins inhibit).

Question 28

What forms the plaques in coronary heart disease?

Answer 28

Macrophages have a “scavenger system” so their uptake of LDL can’t be regulated. They become saturated with cholesterol ester, the cells die and plaques form.

Question 29

How do cells regulate their cholesterol level?

Answer 29

Inhibit HMG CoA reductase, or inhibit synthesis of LDL receptors.

Question 30

Name the major function of white adipose tissue.

Answer 30

Releases fatty acids for use for energy during exercise and starvation.

Question 31

Why does the blood glucose level not drop to zero during starvation?

Answer 31

Glucose is a universal fuel for all cells - it is needed by the central nervous system and used for aerobic glycolysis in cells that lack mitochondria like erythrocytes and retina cells. Fatty acids CAN’T cross the blood-brain barrier, so can’t be used by the CNS, and fatty acids can’t be used in respiration except in mitochondria, so can’t be used by erythrocytes. Ketone bodies are used to fuel the CNS also.

Question 32

Name two main ketone bodies.

Answer 32

Acetoacetate, and 3-hydroxybutyrate.

Question 33

What produces the sweet smelling breath of a patient with very high ketone body concentration (e.g severe diabetic)?

Answer 33

Acetoacetate spontaneously decarboxylating to acetate.

Question 34

Name the hormone that controls glucose entry into cells.

Answer 34

Insulin.

Question 35

What is insulin’s role in the glucose-fatty acid cycle?

Answer 35

When glucose levels increase, insulin inhibits lipolysis and stimulates glucose uptake into white adipose tissue for conversion to pyruvate and oxidation and also conversion to TAG and storage. Insulin also stimulates glucose uptake into muscle cells.

Question 36

What happens when blood glucose level decreases?

Answer 36

The hormones adrenaline, noradrenaline, growth hormone, and glucagon all stimulate lipolysis and the secretion of fatty acids into the blood for oxidation and energy release. The level of insulin in the blood decreases, which decreases entry of glucose into the cells, so the blood glucose level does not drop to zero.

Question 37

Which enzyme is not found in white adipose tissue, which means that a fall in blood glucose level will lead to an increase in free fatty acid level in the blood?

Answer 37

Glycerol kinase.

Question 38

What’s different about brown adipose tissue?

Answer 38

It generates heat in neonates (who can’t shiver). It has lots and lots of mitochondria (appears brown due to the iron in the cytochromes in the mitochondria), and it has a special protein channel called thermogenin, which opens to uncouple oxidative phosphorylation. It’s under nervous, rather than hormonal, stimulation. It’s very vascular - to distribute heat around the body.

Question 39

What factors regulate the rate of gastric emptying into the small intestine?

Answer 39

1) Presence of fats, protein, or very acidic chyme in the stomach promotes pyloric contraction and delays emptying.
2) Presence of 2-monoacylglycerol and fatty acids in the duodenum stimulate the release of CCK and GIP which delay gastric emptying.
3) Products of protein digestion delay emptying via endocrine pathways.
4) Gastrin released from G cells in the antrum and duodenum in response to peptides promotes contraction of the pyloric sphincter and delays emptying.
5) When acidic chyme enters the duodenum it stimulates secretion of secretin which delays gastric emptying by inhibiting contraction of the pyloric antrum.

Question 40

What is the function of HDL?

Answer 40

Reverse cholesterol transport (from peripheral tissues to liver), and acts as a reservoir of apolipoproteins for VLDL and chylomicron metabolism.

Question 41

How does high plasma LDL cause angina?

Answer 41

Macrophages take up LDL via scavenger receptors, and this process can’t be regulated. If the macrophages get overloaded then they form foam cells which are a major component of atheromatous plaques.

Question 42

Why are statins effective?

Answer 42

They inhibit HMG-CoA reductase, which is the rate-limiting enzyme in the synthesis of cholesterol.

Question 43

How is the HMG-CoA reductase enzyme regulated?

Answer 43

The cell can regulate expression of the HMG-CoA reductase gene, via a transcription factor.
Also, the enzyme can be phosphorylated or dephosphorylated. The phosphorylated form of the enzyme is inactive, the dephosphorylated form is active. Insulin increases the activity of the enzyme, glucagon decreases it.

Question 44

What is the channel called in brown fat cells that allows oxidative phosphorylation to be “unhooked”?

Answer 44

Thermogenin.

Question 45

How do fibrates lower blood lipids?

Answer 45

Reduce transcription of the lipoprotein lipase gene.

Question 46

Why does cholestasis lead to post-hepatic jaundice?

Answer 46

The bile is regurgitated into the serum, leading to increased conjugated bilirubin in the serum and dark urine (and raised ALP).

Question 47

What does it mean if both ALP and GGT are raised in cholestasis?

Answer 47

The ALP is coming from the liver.
If ALP is raised and the calcium and phosphate levels are abnormal then the ALP may be coming from the bone.
If only ALP is raised then it is coming from the bile ducts.

Question 48

What two things do we take in along with the bulk fat (triglycerides) in our diet?

Answer 48

Fat soluble vitamins (vitamins A, D, E, K)

Essential fatty acids (omega 3 and omega 6 - linoleic acid and linolenic acid)

Question 49

Why is it important that products derived from milk are made up of short chain fatty acids?

Answer 49

They are small enough after hydrolysis by gastric lipase to be absorbed into the blood through the stomach wall - ready energy source for neonates.

Question 50

Why do phospholipids in the membrane have one cis-unsaturated fatty acid?

Answer 50

So the core of the phospholipid bilayer is liquid and diffusion is more efficient.

Question 51

What lipids are absorbed in the intestine along with triacylglycerol?

Answer 51

Phospholipids from animal and plant cell membranes, cholesterol esters from animal cell fat stores, cholesterol from animal cell membranes.

Question 52

What property of TAG makes its digestion a challenge?

Answer 52

It is imiscible with water, and the digestive system is in aqueous phase.

Question 53

What is emulsification?

Answer 53

Breaking up the globule formed by TAG in water (bulk lipid phase) into tiny lipid droplets .
Bile salts and amphipathic lipids stop the lipids re-aggregating.

Question 54

What are micelles?

Answer 54

The products of lipase digestion (2-monoacylglycerol, fatty acids) are solubilised by bile acids into micelles to uptake by enterocytes.

Question 55

Name 6 types of enzymes degrading the lipids.

Answer 55

Lingual lipase, gastric lipase, pancreatic lipase, bile-salt activated lipase, phospholipase, cholesterol esterase.
Also churning and a 37 degrees temperature in the stomach.

Question 56

Which hormone is released by the duodenum in response to chyme, and causes the gall bladder to contract and sphincter of Oddi to relax so bile is secreted into the duodenum?

Answer 56

Cholecystokinin (CCK).

Question 57

Which of the ester bonds of TAG do gastric and pancreatic lipase quickly hydrolyse?

Answer 57

Ester bonds of carbon 1 and 3.

Question 58

What are the main products of TAG digestion?

Answer 58

2-monoacylglycerol and fatty acids

Question 59

What are the products of digestion of cholesterol esters?

Answer 59

Free cholesterol and fatty acids

Question 60

Why do the micelles formed by bike salts make it easier for enterocytes to take up the products of lipase digestion?

Answer 60

There is a layer of unstirred water around the enterocytes, so bile salts solubilise the products and deliver them much faster to the micro villi so they can diffuse into the cells.

Question 61

Where are 95% bile salts reabsorbed?

Answer 61

Terminal ileum.

Question 62

Where in the enterocyte 2-monoacylglycerol and fatty acids built back up into TAG and combined with phospholipids and proteins to form chylomicrons?

Answer 62

Smooth endoplasmic reticulum

Question 63

Why can’t TAG just be released into the blood?

Answer 63

It would re-aggregate and block blood vessels, it must be stabilised with proteins and a mono layer of phospholipids.

Question 64

Where are chylomicrons remnants formed?

Answer 64

In the blood capillaries.

Question 65

Where are very-low density lipoproteins formed?

Answer 65

Formed from chylomicrons remnants in the liver and intestines.

Question 66

What are low-density lipoproteins formed from?

Answer 66

Intermediate-density lipoproteins.

Question 67

Where are high-density lipoproteins formed?

Answer 67

Liver and intestines.

Question 68

How are chylomicrons metabolised?

Answer 68

They bind to proteoglycans on the luminal surface of the capillary, and are broken down by lipoprotein lipase to release fatty acids.

Question 69

What does the exogenous pathway involve?

Answer 69

Dietary fat and cholesterol being broken down, entering the circulation, then going to the liver.
Happens after a meal.

Question 70

What does the endogenous pathway involve?

Answer 70

Regulation of lipid and cholesterol levels in blood and cells.
Happens all the time.

Question 71

Of the lipoproteins in the blood, which are the only ones that are only present in the blood after a meal because they are secreted by the enterocytes, and not the liver OR intestines like the others?

Answer 71

Chylomicrons and chylomicrons remnants.

Question 72

What is the main lipid component of chylomicrons and of chylomicrons remnants?

Answer 72

Chylomicrons = triacylglycerol

Chylomicrons remnants = triacylglycerol, cholesterol ester, phospholipids

Question 73

What’s the main lipid component of LDL?

Answer 73

Cholesterol ester?

Question 74

What’s the main lipid component of HDL1 and of HDL2?

Answer 74

HDL1 = phospholipid
HDL2 = cholesterol ester

Question 75

What lipid component is carried in the blood bound to albumin?

Answer 75

Fatty acids

Question 76

Where exactly are VLDLs synthesised?

Answer 76

In the smooth endoplasmic reticulum of hepatocytes, then released by exocytosis into the blood.

Question 77

What is the difference between how chylomicrons are released from enterocytes and how VLDLs are released from hepatocytes?

Answer 77

Chylomicrons are too large to fit through the fenestrations in the capillary so have to be released into lymphatic vessels first, VLDLs are small enough to be released directly into the capillary.

Question 78

What is HDL1?

Answer 78

Newly-formed discoidal HDL (a disc of phospholipid bilayer, enriched by proteins A-1 and LCAT)

Question 79

How is HDL1 converted to HDL2?

Answer 79

LCAT converts cholesterol to cholesterol ester so it is hydrophobic instead of amphipathic and can be stored between the phospholipid bilayer. The cholesterol ester swells out the bilayer disc to become a spherical particle with a core of cholesterol ester and a surrounding phospholipid monolayer.

Question 80

How do cells synthesise cholesterol?

Answer 80

From acetyl co-A, using the enzyme HMG-coA reductase.

Question 81

How is cholesterol stored in cells?

Answer 81

As cholesterol ester.

Question 82

How do the plaques form in coronary heart disease?

Answer 82

Scavenging macrophages become loaded with so much cholesterol ester that it kills the cells and plaques form.

Question 83

What are the two ways cholesterol levels in cells can be regulated?

Answer 83

Inhibit HMG-coA reductase, to reduce cholesterol synthesis.

Inhibit LDL receptor synthesis to block cholesterol uptake.

Question 84

Why can’t LDL uptake be regulated in macrophages?

Answer 84

They have a scavenger system.

Question 85

Name 8 ways to treat hypercholesterolaemia.

Answer 85

1) Statins - HMG-coA reductase inhibitor
2) Ezetimibe - blocks absorption of cholesterol by enterocytes
3) more dietary fibre - so more bile salts are excreted in faeces, and more cholesterol delivers back to liver (e.g Beta-glucans from oats)
4) nicotinic acid raises HDL
5) exercise raises HDL levels
6) fibrates alter transcription of lipoprotein lipase gene
7) red wine raises HDL
8) bile acid sequestrians - beads that bind to bile salts so more is secreted in the faeces

Question 86

Why can’t cholesterol be metabolised?

Answer 86

It has a sterol ring which can’t be broken down.