Liver Biochem

Question 1

Blood flow through the liver

Answer 1

O2 rich blood flows IN through hepatic artery
Nutrient rich blood flows IN through portal vein

Blood flows OUT through 3 hepatic vv. into IVC

Question 2

Blood entering liver from hepatic arteries and portal vein mixes as it enters ________ which parallel bile ducts (with opposite direction of flow).

Answer 2

Sinusoids

Question 3

Sinusoids are lined by _______ cells which have tiny gaps between them leading to ________ which line the bile canaliculi

The sinusoids lead to the ______ vein

Answer 3

Endothelial; hepatocytes

Central hepatic

Question 4

Which cell type makes up most of the adult liver and conducts most liver functions

Answer 4

Hepatocytes

Question 5

Which liver cell type lines bile ducts, controls bile flow rate, and bile pH?

Answer 5

Cholangiocytes

Question 6

What liver cell type is a specialized macrophage?

Answer 6

Kupffer cells

Question 7

What liver cell type maintains the EC matrix, stores retinol, and aids liver regeneration and fibrosis?

Answer 7

Stellate cells

Question 8

What liver cell type forms the vasculature and facilitates open communication of blood with hepatocytes?

Answer 8

Endothelial cells (sinusoidal endothelial cells specifically)

Question 9

What are pit cells?

Answer 9

Liver-specific NK cells

Question 10

Functions of the liver in terms of carb metabolism

Answer 10

Glycolysis
Glycogenesis and glycogenolysis
Gluconeogenesis
Glucostasis

Question 11

Functions of the liver in terms of lipid metab

Answer 11

Biosynthesis and export of TAGs, phospholipids, steroids (cholesterol, bile acids, bile salts), lipoproteins

Degradation of TAG and plasma lipoproteins

Regulation of free fatty acids

Breakdown of free fatty acids via beta ox

Question 12

Functions of the liver in general

Answer 12

Carb metabolism
Lipid metabolism
Nucleotide biosynthesis
Blood protein synthesis
Amino acid metabolism
Bilirubin metabolism
Wate management (metabolites and xenobiotics)

Question 13

What types of blood proteins are made in the liver?

Answer 13

Albumin
IgG
Apoproteins
Fibrinogen
Prothrombin
Blood coagulation factors
Antichymotrypsin (APP)

Question 14

T/F: the liver has abundant tight junctions and basement membrane between endothelial cells and hepatocytes to allow strict regulation of exchange

Answer 14

False! No tight junctions or basement mebrane to allow GREATER access and increased contact between liver and blood

Question 15

Describe cellular characteristics of hepatocytes

Answer 15

Well developed PM with endocytic/exocytic system

Well developed ER (smooth and rough)

Metabolically active with large # of endosomes, mitochondria, and lysosomes

Question 16

3 ______ are used to generate _________, a 5-carbon building block for the synthesis of all isoprenoids, including steroids and lipid soluble vitamins as well as prenyl groups that attach proteins to plasma membrane

Answer 16

Acetyl CoA; isopentenyl pyrophosphate (IPP)

Question 17

Acetyl coA is generated in the mitochondria from various pathways such as oxidative decarboxylation of _______, beta oxidation of _______, or breakdown of _______

It is transported into _____ via the citrate shuttle

Answer 17

Pyruvate; fatty acids; amino acids

Cytoplasm

Question 18

Six units of IPP form a tetracyclic ______ ring which is the backbone of most steroids

Answer 18

Sterane

Question 19

Cholesterol is an allicyclic compound made up of 4 fused _____ rings, a ______ chain, and a hydroxyl group at C___

It has _____ carbons total

Answer 19

Sterane; hydrocarbon; 3

27

Question 20

Precursor of bile acids, bile salts, vitamin D, steroid hormones like progesterone, aldosterone, cortisol, testosterone, or estradiol

Answer 20

Cholesterol

Question 21

How is cholesterol biosynthesis regulated by dietary intake?

Answer 21

Inverse relationship!

The less you consume, the more the liver will make

Question 22

Cholesterol requires many resources to make, what are some of the “ingredients” to make cholesterol?

Answer 22

18 Acetyl CoA

18 ATP

16 NADPH

Question 23

During phase 1 of cholesterol synthesis, acetoacetyl coA is converted to ______ via ______ enzyme

That product is then converted to _______ via ______ enzyme, which is rate-limiting

Answer 23

HMG CoA; HMG CoA synthase

Mevalonate; HMG CoA reductase

Question 24

What are positive vs. nevative regulators of the rate limiting enzyme HMG CoA reductase in phase 1 of cholesterol synth

Answer 24

Positive: insulin, thyroxine

Negative: glucagon, sterols, high AMP, vitamin E, statins

Question 25

In phase II of cholesterol synthesis, 6 mevalonate-derived IPPs are converted to squalene, then lanosterol, then cholesterol via a series of many steps. Of note are the negative regulators of lanosterol —> cholesterol. What are these late-stage inhibitors of cholesterol synthesis?

Answer 25

Antifungal meds, anti-estrogen meds, anti-epileptic drugs

Question 26

HMG CoA reductase is the target for regulation of cholesterol synthesis

It is a transmembrane protein in the _____ of the cell with its catalytic domain on the ______ side

Answer 26

ER; cytosol

Question 27

_____ = strong competitive inhibitors of HMG CoA reductase d/t much higher affinity than HMG CoA.

Its hypocholesterolemic action is also d/t an increase in SREBP maturation which leads to _______ transcription of LDL receptor and subsequent ______ clearance of cholesterol via LDL receptor mediated endocytosis

Consequently, there is ______ translation of the HMG CoA reductase protein

Answer 27

Statins

Increased; enhanced

Increased

Question 28

What are the myotoxic side effects of statins? Why are these significant?

Answer 28

Decreased formation of ubiquinone (CoQ 10) and prenylated proteins

Ubiquinone is needed to make quinol, and formation of heme A is also impaired

Prenylated proteins are needed to attach proteins to their substrates in cell membranes

Question 29

Fate of cholesterol in all tissues

Answer 29

Incorporated into cellular membrane

Question 30

Fate of choleserol in liver

Answer 30

Used to synthesize bile acids or packaged into VLDL and released into blood

Question 31

Fate of cholesterol in adrenal glands, ovaries, and testes

Answer 31

Used to synthesize steroid hormones

Question 32

Fate of cholesterol in skin

Answer 32

Used to synthesize vitamin D

Question 33

Methods of regulation on cholesterol synthesis

Answer 33

Regulated via effects on HMG coA reductase by:

• direct inhibition
• covalent modificaiton (hormones)
• transcriptional control
• translational control
• posttranslational control

Question 34

What enzyme degrades the sterane ring of cholesterol?

Answer 34

NO ENZYME CAN DEGRADE IT

Most cholesterol is converted to bile acids and stored in bile

Question 35

The synthesis of bile acids begins with cholesterol which is converted to ____________ by 7-alpha hydroxylase, a reaction which gives off/recycles _________

Answer 35

7-alpha hydroxycholesterol; cytochrome P450

Question 36

After cholesterol is converted to 7-alpha hydroxycholesterol, it is converted to ____and _____ which are bile acids

Answer 36

Chenodeoxycholic acid; cholic acid

Question 37

In the conjugation process of cholic acid, a bile acid, it is converted to cholyl CoA, which can be converted to ______ and/or ______, which can then be converted to ____ or ______ (respectively)

Answer 37

Taurine; glycine; taurocholic acid; glycocholic acid

Question 38

What is the pKa difference between cholyl CoA, taurocholic acid, and glycocholic acid?

Answer 38

Cholyl coA = 6

Taurocholic acid =2

Glycocholic acid = 4

Question 39

If someone cannot tolerate statins, what is the next drug of choice for lowering cholesterol? What is its MOA?

Answer 39

Bile acid-binding resins like cholestyramine

These cause a large increase in excretion of bile acids which increases the rate of bile acid synthesis via induction of 7ahydroxylase. This leads to a depletion of the liver cholesterol pool as well as an increase in hepatic uptake of LDL cholesterol from serum by receptor mediated and receptor independent mechanism

Question 40

Gallstones are made up of cholesterol-based crystals. _____ = insufficient secretion of bile salts or phospholipids or excess cholesterol secretion

Answer 40

Cholelithiasis

Question 41

What may result from chronic disturbance in bile salt metabolism?

Answer 41

Steatorrhea and deficiency in fat soluble vitamins

Question 42

The liver is the primary site for degradation of metabolites as well as ________, which are compounds ingested from outside with no nutritional value and are potentially toxic such as pharm agents, rec drugs, or food additives

Answer 42

Xenobiotics

Question 43

General scheme of xenobiotic detoxification

Answer 43

Phase 1 reactions increase polarity by reducing/oxidizing/hydroxylating/hydrolyzing to get a primary metabolite

Phase 2 reactions conjugate primary metabolite via sulfation/methylation/glucuronidation etc. to a secondary metabolite suitable for excretion

Question 44

Cytochrome p450 enzymes are ____containing proteins that co-localized with cytochrome p450 reductase. They are inducibleby their substrate.

____, ____, and ____ are responsible for drug metabolism d/t their broad specificity

Answer 44

Heme

CYP1, CYP2, and CYP3

Question 45

Agents that inhibit CYP will have what effect on statin levels in plasma?

Answer 45

Inhibition of CYP causes increase in statin levels in the plasma, leading to toxic side effects of myopathy and rhabdomyolysis

[inhibitors include antifungals, clarithromycin, cyclosporine, grapefruit juice]

Question 46

Drinking grapefruit juice while taking statin can lead to potentially devastating side effects. This is caused by a component of grapefruit juice doing which of the following?

A. Interfering with the hepatic uptake of statins
B. Accelerating the conversion of statins to a more toxic form
C. Inhibiting the inactivation of statins
D. Upregulating the HMG CoA reductase
E. Downregulating the HMG CoA reductase

Answer 46

C. Inhibiting the inactivation of statins

Question 47

What types of nutrients are stored in the liver in excess?

Answer 47

Glucose
Vitamin A
Vitamin D
Iron

Question 48

Some toxic substrates acted on by the liver are lactic acid, hydrogen peroxide, and ammonia. How are these dealt with?

Answer 48

Lactic acid from cellular respiration is detoxified to glucose

Hydrogen peroxide from FA metabolism is detoxified to hydrogen and oxygen

Ammonia from amino acid metab is detoxified to urea

Question 49

Fairly predictable changes occur in the various metabolic pathways of lipid metabolism in patients with moderately advanced hepatocellular disease. Which of the following would you expect to see under these conditions?

A. Increased activity of plasma lecithin cholesterol acyltransferase (LCAT)
B. Serum cholesterol esters are increased
C. Hepatic triglyceride lipase activity is increased
D. Serum triacylglycerols are increased
E. Serum non-esterified FA levels are decreased

Answer 49

D. Serum triacylglycerols are increased

Because of reduced hepatic triglyceride lipase activity

Question 50

T/F: endogenous production of cholesterol can be inhibited at multiple steps

Answer 50

True; statins inhibit HMG coa reductase; lapaquistat inhibits squalene synthase

Question 51

Much of statin myopathy may be caused by depletion of muscle levels of ubiquinone (CoQ10) and resultant impairment of mitochondrial function. Inhibitors of ______ ______ should increase levels of CoQ10 by shunting

Answer 51

Squalene synthase

Question 52

HMG CoA reductase inhibitors (statins) are the most effective drugs available for reducing LDL levels. Statins cause several downstream effects by inhibiting the RL step in hepatic cholesterol synthesis. What is the primary effect of statins on hepatocytes?

A. Decrease hepatic production of LDL
B. Decrease production of triglycerides
C. Downregulation of cell surface LDL receptors
D. Increase production of HDL
E. Upregulation of cell surface LDL receptors

Answer 52

E. Upregulation of cell surface LDL receptors

Question 53

What are the 2 main safe ways of metabolizing acetaminophen?

Answer 53

Glucuronidation —> renal excretion

Sulfation —> renal excretion

[note that acetaminophen can also be excreted in an unchanged state]

Question 54

Describe the CYP450 pathway for acetaminophen metabolism

Answer 54

Metabolized to NAPQI (a toxic product) which can then be conjugated with glutathione to APAP-mercaptate for safe renal excretion

Question 55

What happens to acetaminophen metabolism in overdose?

Answer 55

Safe metabolism gets overwhelmed, so it is no longer glucuronidated or sulfonated. It is converted via CYP450 to toxic NAPQI, and eventually stores of glutathione are diminished so the toxic product binds other hepatic macromolecules and hepatic necrosis ensues

Question 56

Which of the following characteristics of cytochrome P450 enzymes is correct?

A. They are all found in golgi apparatus and are referred to as microsomal enzymes
B. They all contain a flavin-containing reductase unit that uses NADH and not NADPH as a source of electrons
C. They are all inducible by oxygen, which binds to the iron of the cytochrome
D. They all oxidize the substrate on which they act
E. They all generate a free radical compound as a final product of the reaction

Answer 56

D. They all oxidize the substrate on which they act

They require NADPH and are located in the ER membrane. Oxygen does not induce all cytochrome p450 members, and although they proceed via free radical mechanism, that is not the final product

Question 57

After a 2-week alcohol binge, a patient ingested some tylenol to help with a headache. She took 3x the suggested dose because of the severity. Within 24 hrs she became very lethargic, vomited frequently, and developed severe abdominal pain. The symptoms this patient is developing are due to which of the following?

A. Hypoglycemia
B. Ethanol induced inhibition of tylenol metabolism
C. Hyperglycemia
D. Ethanol induced acceleration of tylenol metabolism
E. Acetaminophen inhibition of VLDL secretion by the liver

Answer 57

D. Ethanol induced acceleration of tylenol metabolism

Ethanol induces the CYP system which converts acetaminophen to NAPQI, the toxic intermediate