Biochemical aspects of liver metabolism

Question 1

What are the principle roles of the liver?

Answer 1

• First destination of most nutrients and xenobiotics absorbed by the GI tract
• Bile production
• Elimination of unwanted molecules (metabolism, or excretion into the biliary tree and faecal excretion)
• Secretion of plasma proteins (e.g. albumin)
• Storage of important molecules (e.g. fuels, iron, vitamins)
• Regulation of metabolism (carbohydrate and lipid metabolism, which leads to storage, and amino acid metabolism, which leads to the urea cycle).

Question 2

What is the urea cycle?

Answer 2

This is the pathway which makes urea.
It occurs in the liver, and it is the way in which we get rid of excess nitrogen.
The kidneys excrete the urea.

Question 3

What can be used to separate plasma proteins by size?

Answer 3

Electrophoresis

Question 4

What are the main groups of plasma proteins?

Answer 4

Albumin, alpha globulins, beta globulins and gamma globulins (which include immunoglobulins).

Question 5

What are the main functions of plasma proteins?

Answer 5

• Maintenance of oncotic or colloid osmotic pressure
• Transport of hydrophobic substances (steroid hormones, free fatty acids, bilirubin, cholesterol)
• pH buffering (amino acid side chains can carry net charges)
• Enzymatic (e.g. blood clotting)
• Immunity

Question 6

What is the most abundant plasma protein?
What percentage of all plasma proteins does it make up?
How many grams per litre should be present in the blood?

Answer 6

Albumin.
It makes up 50% of all plasma proteins.
There should be 35-45 g/L

Question 7

What is the main determinant of plasma osmotic pressure?

Answer 7

Albumin

Question 8

Which hormone stimulates the production of albumin?

Answer 8

Insulin

Question 9

What can cause low levels of albumin?

Answer 9

Liver disease

Starvation/ low protein diet

Question 10

How does albumin bind to the substances which it transports?

Answer 10

It has hydrophobic clefts in globular domains where the substances it transports can bind.

Question 11

Describe the affinity of albumin for the substances it transports

Answer 11

It has a low affinity, but a high capacity because of its high concentration

Question 12

What sort of substances does albumin transport?

Give examples.

Answer 12

It transports important, endogenous lipophilic substances
E.g:
- Fatty acids
- Bilirubin
- thyroid hormones

It also transports exogenous substances e.g.
- drugs like aspirin

Question 13

Why is iron important?
How is it transported?
How is it stored?

Answer 13

It is a component of heamoglobin, myoglobin and cytochromes.
It is transported as the ferric ion (Fe3+) bound to transferrin
It is stored in cells bound to ferritin

Question 14

How is copper transported?

In what disease is there a deficiency of copper?

Answer 14

Bound to ceruloplasmin

Wilson’s disease

Question 15

Which hormones are hydrophobic?

Answer 15

The steroid hormones (which are derived from cholesterol)

T3/T4 thyroid hormones

Question 16

How is thyroxine transported in the blood?

Answer 16

Bound to thyroid-binding globulin

Question 17

How is cortisol transported in the blood?

Answer 17

Bound to cortisol-binding globulin

Question 18

What is the effect have transporters on hormones?

Answer 18

It extends the biological half life of the hormones and increases their plasma concentration.
If they were not bound to transporters they would rapidly be eliminated by the liver or the kidney.

Question 19

What is the origin and function of chylomicrons?

Answer 19

They originate in the small intestine and transport exogenous fat to the liver

Question 20

What is the origin and function of VLDL?

Answer 20

They originate in the liver and transport endogenous fat to peripheral cells

Question 21

What is the origin and function of ILD?

Answer 21

The origin is VLDL and it is a precursor of LDL

Question 22

What is the origin and function of LDL?

Answer 22

Originate from liver/VLDL/IDL. The function is to transport cholesterol to the peripheral tissues.

Question 23

What is the origin and function of HDL?

Answer 23

Originate from the intestine and the liver.

The function is to transport cholesterol from peripheral tissues to the liver.

Question 24

Which lipoprotein transports dietary fat?

Answer 24

Chylomicrons

Question 25

Which lipoprotein transports endogenous/synthesised fat?

Answer 25

VLDL

Question 26

Describe reverse cholesterol transport

Answer 26

This is the function of HDL.
Excess cholesterol is removed from cells and is esterified with fatty acids. It is then transported back to the liver and excreted as bile salts via the biliary system and faeces.

Question 27

What is the only organ capable of metabolising and excreting cholesterol?

Answer 27

The liver

Question 28

What is stored in the liver?

Answer 28

Vitamin A- stored as retinol palmitate
Vitamin D
Vitamin B12
Iron (from the breakdown of haemoglobin), stored bound to ferritin.

Question 29

What is the function of cholesterol in mammalian cell membranes?

Answer 29

It increases rigidity

Question 30

Cholesterol is the precursor for which 3 important classes of biologically active compounds?

Answer 30

Bile acids
Steroid hormones
Vitamin D

Question 31

What sort of disease is linked to cholesterol metabolism?

Answer 31

Cardiovascular disease, and the formation of gallstones

Question 32

What are the main dietary sources of cholesterol?

Answer 32

Meat, eggs and dairy

Question 33

How much cholesterol do humans synthesise per day on average?

Answer 33

About 1 g

Question 34

how much circulating cholesterol is in the free form?

Answer 34

About 30%

Question 35

What form is the majority of cholesterol in?

What effect does this have on its solubility?

Answer 35

The majority is esterified to a wide range of long chain fatty acids
This makes it even less soluble than it is in its free form

Question 36

how can cholesterol be solubilised?

Answer 36

By being incorporated into lipoproteins, where it is located in the core.

Question 37

Which human cells can synthesise cholesterol?

Answer 37

Virtually all of them.

Question 38

What is the main site of cholesterol synthesis?

Answer 38

The liver.

Less contributions come from the intestine, the adrenal cortex and the gonads

Question 39

What is HMG-coA reductase?

Answer 39

A rate-limiting enzyme which catalyses the irreversible formation of mevalonic acid (an intermediate in the formation of cholesterol)

Question 40

What stimulates the synthesis and activity of HMG-coA reductase?

Answer 40

Fasting

Question 41

What reduces HMG-coA reductase activity?

Answer 41

Dietary cholesterol and high intra-hepatocyte cholesterol

Question 42

Which drugs target HMG-coA reductase?

Answer 42

Statins

Question 43

What else, apart from HMG-coA reductase, controls the synthesis of cholesterol?

Answer 43

Hormones

Question 44

What is vitamin D?
What role does it have?
What is the most abundant form in the circulatory system?

Answer 44

It is a group of structurally related compounds which are derived from cholesterol.
It has a role in the regulation of calcium and phosphorous metabolism.
The most abundant form in the circulatory system is Vit D 3.

Question 45

What are the three groups of steroid hormones, and where are they synthesised? How many carbon atoms does each have?

Answer 45

Corticosteroids- synthesised in the adrenal cortex. Has 21 carbon atoms.
Androgens- synthesised in the testes. These have 19 carbon atoms.
Estrogens- synthesised in the ovaries. These have 18 carbon atoms.
All three organs are capable of secreting small amounts of the other groups of steroid hormones

Question 46

What is the main metabolic product of cholesterol?

Answer 46

Bile salts

Question 47

Where are bile salts synthesised and secreted from?

Answer 47

The liver

Question 48

Where, and how, are bile salts stored?

Answer 48

In the gallbladder, as a component of bile

Question 49

What is the function of bile salts?

Answer 49

They act as detergents in the duodenum to emulsify ingested lipids

Question 50

What system recycles bile salts?

Answer 50

The enterohepatic circulation

Question 51

What happens to a portion of primary bile salts, due to the action of bacteria in the intestine?

Answer 51

They are converted into secondary bile salts

Question 52

Which drugs bind bile salts and inhibit their reabsorption in the enterohepatic circulation?
What is the effect of this?

Answer 52

Anion exchange resins, e.g. cholestyramine.
There is increased bile salt excretion, therefore there is increased synthesis of bile salts to compensate for this.
The concentration of cholesterol in the liver is therefore decreased, so there is an increase in expression of LDL receptors on hepatocytes, and an increase in LDL removal from the plasma.

Question 53

Name some molecules of endogenous and exogenous origin that are excreted by the liver in bile.

Answer 53

Molecules of endogenous origin:
steroid hormones
bilirubin

Molecules of exogenous origin:
environmental molecules ingested unconsciously
lipid-soluble substances ingested as drugs- conjugated in the liver and excreted via the biliary tree- appear in faeces

Question 54

What happens to drugs which enter bile but are not excreted as faeces?

Answer 54

They enter the bile but are reabsorbed in the small intestine via the enterohepatic circulation.
This can act as a reservoir of circulating drugs.
It prolongs drug action.
It can lead to overdose when renal function becomes impaired.

Question 55

Do liver enzymes have a high or a low specificity?

Answer 55

low

Question 56

What is the strategy for excreting molecules from the liver?

Answer 56

Two phases.
In phase one, the unwanted molecule undergoes oxidation, hydrolysis or reduction to form a derivative. This is catalysed by microsomal cytochrome P-450 oxidases.
The derivative is conjugated with an endogenous compound e.g. glucuronic acid or sulphate, to form a conjugate.

Question 57

What group do cytochrome P-450 enzymes contain?

Answer 57

Haem

Question 58

Where are cytochrome P-450 enzymes found?

Answer 58

Mostly in the liver

Question 59

What can induce the synthesis of cytochrome P-450 enzymes?

Answer 59

Certain drugs

Question 60

What determines the response of cytochrome P-450 enzymes to drugs?

Answer 60

Genetic polymorphisms

Question 61

What can inhibit cytochrome P-450 enzymes?

Answer 61

Drugs that form a stable complex

Question 62

What is drug hepatotoxicity?

Give an example.

Answer 62

Toxic effects on the liver through production of a toxic metabolite.
E.g. Paracetamol
In overdose, the conjugation pathway is overwhelmed.
There is hepatocellular damage.

Question 63

Where is bilirubin derived from?

Answer 63

It is a catabolic product of haem which is derived from haemoglobin from senescent red blood cells. This is then converted to bilirubin in the spleen.

Question 64

How is bilirubin transported to the liver from the spleen?

Answer 64

It is transported by plasma albumin

Question 65

What happens to bilirubin in the liver?

Answer 65

It is conjugated with glucuronic acid to increase its water solubility.

Question 66

What happens to conjugated bilirubin in the intestine?

Answer 66

It is catabolised to colourless stercobilinogen by gut bacteria.
This is then oxidised to coloured stercobilin, of which some may be reabsorbed.
The rest is excreted in faeces.

Question 67

What causes Jaundice?

Answer 67

A failure to excrete bilirubin

Question 68

What concentration of bilirubin in the plasma is normal?

What concentrations are seen in jaundice?

Answer 68

About 17 micromol per litre is normal.

In jaundice, levels are high, >50 micromol per litre

Question 69

What causes prehepatic jaundice?

Answer 69

Excess production of bilirubin after haemolysis

Question 70

What can cause post hepatic jaundice?

Answer 70

One example is a blocked bile duct from a gallstone.
There is increased conjugated (hydrophilic) bilirubin in the plasma.
There are pale coloured stools due to a reduction in faecal bile pigments.
There is dark coloured urine due to excretion of water soluble bilirubin conjugates.

Question 71

What causes intrahepatic jaundice?

Answer 71

generalised hepatocyte dysfunction

Question 72

Which patients is intrahepatic jaundice common in?

Answer 72

common in neonates, particularly in premature babies
due to immaturity of enzymes involved in bilirubin conjugation
occurs within 48 hours after birth, recovers usually within 10 days

Question 73

Why is intrahepatic jaundice in neonates dangerous?

How is it treated?

Answer 73

unconjugated bilirubin is toxic to the immature brain
treated by phototherapy with blue-white light
isomerises bilirubin to more soluble form which can be excreted with bile
in extreme cases: exchange blood transfusion

Question 74

What happens to excess glucose in postprandial metabolism?

Answer 74

Excess glucose is diverted to the pentose phosphate pathway

makes NADPH for biosynthetic processes

Question 75

What percentage of glucose is taken up by insulin-independent tissues?

Answer 75

80%

50% to the brain, and 30% to erythrocytes

Question 76

What are the insulin-dependent tissues that takes up the remaining 20% of glucose?

Answer 76

Muscle tissue and adipose tissue

Question 77

What provides amino acids for gluconeogenesis?

Answer 77

Muscle protein which is degraded

Question 78

Which hormone stimulates lipolysis by hormone-sensitive lipase?
What are the products of this used for?

Answer 78

Glucagon
Glycerol is used for gluconeogenesis
Fatty acids are metabolised, which increases ketone body formation, and these are used as energy sources by the heart and skeletal muscle.

Question 79

What are the hormone levels like in prolonged starvation?

Answer 79

There is a chronic low insulin and high glucagon state.

Thyroid hormone decreases which slows down metabolic rate.

Question 80

What are the main energy substrates in prolonged starvation?

Answer 80

Fatty acids

Question 81

Why is there an increase in ketogenesis in prolonged starvation?

Answer 81

Gluconeogenesis requires substrates
Muscle proteolysis increases
Almost total reliance on fatty acids as energy source
Glucose import into muscle and adipose tissue decreases
‘saves’ glucose
Brain adapts to using ketone bodies as fuel