Physiology: Liver

Question 1

What is the job of the liver?

Answer 1

Filtration/storage of blood (GIT -> liver)

Metabolism of CHO/fats/proteins/hormones/foreign chemicals/ammonia (detoxification of steroids, toxins, other hormones)

Bile formation

Storage of vitamins and Fe

Formation of blood proteins (albumin, clotting factors, and steroid binding proteins)

Immune function (kupffer cells)

Question 2

What vitamins are stored in the liver?

Answer 2

The fat soluble vitamins and vitamin B12

Question 3

What is unique about the liver as an organ?

Answer 3

It can regenerate to maintain functional ratio liver vs body mass.

Question 4

What happens to hepatic circulation?

Answer 4

Blood reservoir - Blood volume ~45ml (10% of total blood volume) (CAN hold 1500ml)

Question 5

What kind of circulation does the liver get?

Answer 5

High flow and low resistance goes to the liver (27% of CO at rest)

Hepatic artery brings the oxygen rich blood

Portal vein bring nutrient rich blood with lots of bugs from the SI. (products of digestion first pass through liver which transition slowly (~8.4 seconds)

Question 6

What are kuppfer cells?

Answer 6

Resident macrophages that remove >99% of GIT bacteria and endotoxin via endocytosis.

Involved in iron metabolism - accumulation of ferritin.

Question 7

How is flow controlled towards the liver?

Answer 7

Portal vein radicles -> smooth muscle

NA vasoconstriction

Question 8

What controls flow to the liver?

Answer 8

2 things:

Sympathetic nervous system (Fight or flight response means we need less blood going to liver)

Metabolism of the liver (if more oxygen needed adenosine is produced to increase flow rate by dilating blood vessels)

No parasympathetic fibers

Question 9

What artery is under the affect of NA vasoconstriction?

Answer 9

The hepatic artery. When it constricts it diverts blood away from the liver.

Question 10

How is dilation of hepatic artery controlled if there is no parasympathetic control in the liver?

Answer 10

Adenosine is a product of metabolism, when oxygen is missing, arteriodilation occurs and is regulated by adenosine clearance this results in increased flow rate.

Question 11

What other functions does adenosine have in the liver besides dilation of the hepatic artery?

Answer 11

It recruits the reserve sinusoids post meal

Question 12

What kind of blood flow does a liver lobule use? How does this affect organisation of liver lobules in the cell?

Answer 12

Countercurrent flow between hepatic arteriole and portal venule. (oxygen is diluted from hepatic artery)

Bile producing cells are arranged from cells that are closest to the arteriole being the location of highest metabolic activity (bile production) and the furthest cells from the arteriole do the least activity.

Question 13

Where does blood from portal vein and hepatic artery go after passing through the lobule?

Answer 13

To the central vein.

Question 14

What kind of blood vessel is present in the sinusoids?

Answer 14

Highly fenestrated and flattened capillaries.

Question 15

Which part of the liver lobule drains into the bile duct?

Answer 15

The space of Disse

Question 16

Why is so much lymph produced in the liver?

Answer 16

Fenestrated capillaries don’t allow passage of albumin through which results in lots of lymph fluid production.

Question 17

Why is the liver able to release glucose into the blood?

Answer 17

Liver has the enzyme glucose-6-phosphatase which converts G6P to Glucose.

Question 18

What happens to fructose in the liver?

Answer 18

it is converted to fructose-1-P which gets converted to glyceraldehyde and then G3P.

G3P can be converted into glucose if needed for glucose levels to be maintained or G3P can be converted into pyruvate and fatty acids for storage.

Question 19

What does liver fat metabolism result in?

Answer 19

It is the primary site of beta-oxidation

Synthesis (From CHOs/AAs and cholesterol from acetyl CoA)

Conversion (excess acetyl CoA to ketone bodies for release into plasma)

Storage

Lipoprotein formation (for transport of lipids to tissues)

Catabolises cholesterol to bile salts and secreted in bile, as well as disposal (cholesterol secreted into bile)

Question 20

What does the mevlonate pathway do?

Answer 20

Results in cholesterol being built up from acetyl CoA and from plasma LDL which is then used for other important functions.

Question 21

How are proteins metabolised?

Answer 21

Deamination (AAs -> keto acid + ammonia)

Transamination (interconversion of nonessential amino acids)

Synthesis of most plasma proteins (acute-phase proteins, albumin, hormone-binding proteins, angiotensinogen, transferrin)

Synthesis of urea (removal of ammonia from the body)

Question 22

How are amino acids used for energy?

Answer 22

They get broken down into ammonia and their carbon skeleton. Ammonia is converted into urea via the urea cycle whereas the carbon skeleton is converted into an alpha-ketoacid which then eventually forms oxaloacetate and glucose.

Question 23

How is ammonia disposed of? Why?

Answer 23

NH3 is neurotoxic and freely BBB-permeable.

Urea cycle occurs in the liver so urea is transported to the kidneys via a transporter.

Urea also diffuses into plasma which can end up in the GI tract and get converted into ammonia all over again which diffuses back into the plasma. This is the major cause of ammonia in the body.

Question 24

How does the liver detoxify the body?

Answer 24

Bugs are killed by kupffer cells..

Drugs are metabolised to yield inactive products that are either excreted in bile or converted to a form that can be disposed of in the kidneys.

Metabolizes blood-borne hormones like insulin, glucagon, etc

Abundant cytochrome P450 enzymes. (Phase 1: oxidation and hydroxylation, phase 2: esterification)

Question 25

What vitamins/minerals are stored by the liver?

Answer 25

Vitamin A

Vitamin B12

Vitamin D

Vitamin K

Iron

Question 26

How is iron stored?

Answer 26

Iron is bound to a globular protein called ferritin.

Ferroxidase: Fe2+ -> Fe3+ (safe storage)

Ferroductase: Fe3+ -> Fe2+ (soluble release)

Stores/releases iron in a controlled fashion

Liver also senses elevated plasma [Fe] and releases hepcidin which switches off ferroportin (IREG1) channels on intestine, liver and spleen reducing [Fe]

Question 27

Why is iron stored in ferric form (Fe3+)? What enzyme produces this?

Answer 27

It is very insoluble as Fe3+ . Ferroxidase produces Fe3+ from Fe2+

Question 28

How is iron stored and released?

Answer 28

Ferroxidase converts Fe2+ to Fe3+ for safe storage.

Ferroductase converts Fe3+ to Fe2+ for soluble release.

Liver also senses elevated plasma [Fe] and releases hepcidin which switches off ferroportin channels on intestine, liver and spleen to reduce [Fe]

Question 29

What is the job of hepcidin?

Answer 29

To switch off ferroportin channels on the intestine

Question 30

What is the job of bile?

Answer 30

Emulsification and absorption of fats.

Emulsification of fats in chyme.

Increases access to lipases

Facilitate uptake of digested fat products by intestinal epithelial cells.

Excretion of (hydrophobic) waste products from the blood. (Bilirubin and excess hydrophobic stuff: Cholesterol, drugs, xenobiotics, toxins)

Question 31

How are fats/HDLs taken up by the liver?

Answer 31

SR-B1

Question 32

How are fats and cholesterol taken up by the liver?

Answer 32

LDLR

LRP

Question 33

How is cholesterol added to bile?

Answer 33

Directly as it is via ABCG5/08 and exits via biliary cholesterol.

Question 34

How are bile acids exported into bile?

Answer 34

Bile acids use BSEP (Bile Salt Export Pump)

95% of bile acids are re-taken up by the ileum via ASBT (Apical Sodium dependent Bile salt transporter)

Question 35

How is bilirubin formed and released?

Answer 35

Hb is phagocytosed and split into globin+haem. This occurs in RES.

Haem oxygenase cleaves ring and releases Fe

Biliverdin reductase: reduces biliverdin to produce bilirubin

Bilirubin then binds plasma albumin (very tightly bound)

albumin bound-bilirubin enters hepatocytes via OATP, dissociates then is conjugated to glucuronic acid by glucoronyl transferase (UDP-G) on SER

Forms bilirubin di-glucunoride which is water soluble and actively pumped into canaliculus via multidrug resistant protein-2

Question 36

Why is bilirbuin diglucunorided?

Answer 36

It becomes water soluble and can be transported across membranes less readily. (prevents reabsorption at ileum)

Question 37

What happens to bilirubin?

Answer 37

Bugs convert BG to urobilinogens

Small intestinal mucosa is permeable to urobilinogen, free-bilirubin and impermeable to conjugated BG/BG2

Question 38

What causes jaundice?

Answer 38

Excessive bilirubin or BG/BG2 in the blood caused by either:

Haemolytic causes (Excessive RBC destruction/myolysis)

Hepatic causes (Impaired uptake, disturbed processing, disturbed secretion, obstruction)

Question 39

What causes jaundice of the neonate?

Answer 39

Newborn infants have poorly developed bilirubin conjugation enzymes

Question 40

What is the problematic effect of jaundice?

Answer 40

Unconjugated bilirubin in neonates in the brain causes permanent damage. (can be lethal in a condition called kernicterus)

Question 41

How can brain damage be prevented from jaundice?

Answer 41

UV light can be used to break down bilirubin.