Cholesterol Lowering Drugs COPY Flashcards

1
Q

Describe the structure of lipoproteins.

A
  • Central core of hydrophobic lipid (triglycerides or cholesterol esters)
  • Hydrophilic coat of polar substances (phospholipids, free cholesterol, associated proteins)
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2
Q

What are the main types of associated proteins which may be found in the hydrophilic coat of lipoproteins.

A

Apoproteins and apolipoproteins

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3
Q

What is the main function of lipoproteins ?

A

Transporting fats, lipids, and cholesterol in blood

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4
Q

What are the main classes of lipoproteins ?

A

1) High density lipoproteins (HDL) = good cholesterol
2) Intermediate density lipoproteins (IDL)
3) Low density lipoproteins (LDL) = bad cholesterol
4) Very low density lipoproteins (VLDL)
5) Chylomicrons

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5
Q

What are the factors which distinguish the five classes of lipoproteins ?

A

– core lipids
– apoproteins (e.g. HDL and LDL have different ones)
– size
– density

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6
Q

Which classes of cholesterol are associated with which pathway ?

A

ENDOGENOUS PATHWAY:
High density lipoproteins (HDL)
Intermediate density lipoproteins
Low density lipoproteins (LDL)
Very low density lipoproteins (VLDL)

EXOGENOUS PATHWAY:
Chylomicrons

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7
Q

Rank all classes of cholesterol by size, smallest to largest.

A

HDL (smallest) < LDL < IDL < VLDL < Chylomicron

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8
Q

Describe the main features of the endogenous pathway.

A

-Basically: Taking cholesterol (also triacyl glycerols, free FAs) that is synthesised in liver and distributing it in body or returning it from sites of body to the liver

  • Specifically:
    1) VLDL transport cholesterol and newly synthesised TG to tissues (TG > cholesterol)
    2) VLDL transports TG and cholesterol from liver to tissues (they are split through hydrolysis by lipoprotein lipase to release free fatty acids (FFAs. FFAs taken up by muscle and adipose tissue)
    3) TGs removed from VLDL leaving LDL with a high cholesterol (taken up by liver through endocytosis using LDL receptors in liver or by tissues)
    4) HDL absorbs cholesterol from cell breakdown (from tissues) and transfer it to VLDL and LDL for return back to the liver
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9
Q

Describe the main features of the exogenous pathway.

A

-Basically: Taking cholesterol (also triacyl glycerols, free FAs) from diet (from GI system) and take it to liver for distribution and processing.

  • Specifically :
    1) Cholesterol, triglycerides uptaken from GI system into chylomicrons (TG > cholesterol)
    2) Chylomicrons transport TG and cholesterol esters from the GI (diet) to tissues (they are split through hydrolysis by lipoprotein lipase to release free fatty acids (FFAs. FFAs taken up by muscle and adipose tissue)
    3) Now cholesterol > TG in the chylomicron. Hence, chylomicron remnants taken up in the liver (cholesterol stored, oxidised to bile acids or released to VLDL)
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10
Q

What does a high HDL and a high LDL suggest respectively, wrt to levels of cholesterol in the liver, and in the circulation.

A

High levels of LDL suggests high levels of circulating cholesterol
High levels of HDL suggests cholesterol is being taken back to liver

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11
Q

Does the level of LDL alone give sufficient information about state of health ? Explain why or why not.

A

No, because for instance high both LDL and HDL may be having a beneficial effect but if only LDL is high than may have a problem.

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12
Q

What are the main functions of cholesterol ?

A

Production of Bile Acids
Hormone Production
Support of Cell Membrane

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13
Q

What is the function of bile acids ?

A

“Facilitate the digestion and absorption of fats and fat-soluble molecules in the intestine, and to keep cholesterol from precipitating in bile”

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14
Q

What, in relation to cholesterol, is a risk factor of atheromatous disease and Coronary Heart Disease ?

A

High plasma concentration of total and LDL cholesterol

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15
Q

What specific atheromatous diseases may high plasma total and LDL cholesterol lead to ?

A

Atherosclerosis, ischaemic heart disease, myocardial infarction & cerebral vascular accidents

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16
Q

What is high LDL and total plasma cholesterol a risk factor for ?

A

Atheromatous diseases, including atherosclerosis, ischaemic heart disease, myocardial infarction & cerebral vascular accidents
Coronary Heart Disease

17
Q

What is hyperlipidaemia ?

A

Increase in the plasma concentration of lipids

18
Q

What are the ideal levels of cholesterol ? Mildly high cholesterol ? Moderately high cholesterol ? Very high cholesterol ?

A

Ideal level (< 5mmol/l)
Mildly high cholesterol level (5 to 6.4mmol/l) Moderately high cholesterol level (6.5 to 7.8mmol/l) Very high cholesterol level (> 7.8mmol/l)

19
Q

What is the average level of cholesterol in the UK ?

A

5.7mmol/l

20
Q

What are other important factors to take into account when assessing the risk for cardiovascular disease, besides cholesterol levels ?

A

– the ratio between “good” (HDL) and “bad” (LDL) cholesterol
– other risk factors for cardiovascular disease,
• e.g. smoking, diabetes, high blood pressure

21
Q

How do lipid-lowering drugs work, in general ?

A

Aims to reduce plasma cholesterol, by either of the following:

  • by reducing production of lipoproteins
  • by increasing their removal from the blood
22
Q

What treatment options exist to lower lipid levels ?

A
  • Lifestyle modifications first and foremost (diet, exercise)
  • Drug therapy should be secondary
23
Q

Where is cholesterol derived from ?

A

– De novo synthesis (newly synthesised) in liver
– Uptake from circulating LDLs
– Uptake of chylomicron remnants

24
Q

What are the main classes of lipid-lowering drugs ? How does each work ?

A
  1. Colestyramine
    - Sequester bile acids in the intestine/Decrease hepatic stores of cholesterol
    - May add it to to statin therapy, wouldn’t usually use by itself
  2. Ezitimibe
    -Inhibit transport protein for cholesterol in the brush
    border of enterocytes in the duodenum
    -Effective at reducing dietary contribution of cholesterol
  3. Fibrates (e.g. fenofibrate, bezafibrate, gemfibrozil & nicotinic acid=Niacin)
    - Alter the levels of plasma lipoproteins by activating lipoprotein lipase
    - May add it to to statin therapy, wouldn’t usually use by itself
  4. Statins (e.g. simvastatin, pravastatin, atorvastatin, rosuvastatin)
    - Inhibit the synthesis of cholesterol in the liver
    - Most common
25
Q

Describe the actions of Colestyramine.

A

-Colestyramine is a basic anion exchange resin
- sequesters bile acids to prevent enterohepatic
recirculation (cannot be recycled and just excreted out in faeces)
- ∴↑the metabolism of endogenous cholesterol into bile acids (cholesterol concentration in liver goes dow)
- ↑ LDL receptor numbers in the liver resulting in the removal of LDLs from the blood (cholesterol from body taken to liver)

Bile-sequestering drugs plus inhibitors of cholesterol biosynthesis (statins) can lower blood cholesterol by 50% (by itself not especially effective)

26
Q

Describe the actions of Fenofibrate and gemfibrozol (both Fibrates).

A

– Decrease plasma triglycerides and, to a lesser extent, cholesterol (particularly decrease elevated concentrations of VLDL)
– Main action is stimulation of lipoprotein lipase
which decrease the triglyceride content of VLDL
– Clearance of LDL by the liver is also stimulated
– Increase HDL production and reverse cholesterol transport (HDL passes cholesterol to LDL so cholesterol can return to liver)

27
Q

What are the clinical uses of Fibrates ?

A
  1. Mixed dyslipidaemia (i.e. raised serum triglyceride as well as cholesterol)
  2. Combined with statins in patients with low HDL and high risk of atheromatous disease (e.g. due to Type 2 diabetes)
  3. Combined with other lipid-lowering drugs (mainly statins) in patients with severe treatment resistant dyslipidaemia
28
Q

Describe the actions of Nicotinic Acid (=Niacin).

A

– ↓ VLDL production which leads to a ↓ in LDL

– Also activates lipoprotein lipase (since it is a Fibrate)

29
Q

Describe the actions of Ezitimibe.

A

– Specifically reduces intestinal cholesterol absorption

– Inhibits a sterol carrier protein in the brush border of the enterocytes

30
Q

Describe the actions of Statins.

A

– Hydroxymethlglutamyl-coenzyme A reductase (HMG-CoA reductase) inhibitors
– HMG-CoA reductase catalyses conversion of HMG-CoA to mevalonic acid (MVA), which is a major rate-limiting step in cholesterol synthesis
-As a result of inhibition of ^, LDL receptors in liver are upregulated (start removing LDL from circulation)

31
Q

What are the main classes of statins ?

A

1) Lipophilic class (easy to go across cell membranes.
readily absorbed and get in high concentrations to liver and at relatively good concentrations around body)

2) Hydrophilic class (needs transporter)

32
Q

Give examples of statins. What is their duration of action ?

A

Simvastatin (usually one of choice), pravastatin, atorvastatin and rosuvastatin

Long-lasting HMG-CoA reductase inhibitors

33
Q

Identify the side effects of each class of lipid-lowering drugs.

A

STATINS can cause myositis, angio-oedema, GI disturbances, insomnia, rash (because Mevalonate pathway does not only involve liver, although statins usually pretty specific to liver. When inhibit cholesterol synthesis, also inhibit protein prenylation)

FIBRATES can cause myositis (esp. in patients with renal impairment), GI disturbances

COLESTYRAMINE, EZETIMIBE can cause GI symptoms (nausea, abdominal bloating, constipation, diarrhoea)

NICOTINIC ACID can cause flushing, palpitations, GI disturbances

34
Q

What are clinical uses of statins ?

A

1) Primary prevention of arterial disease in patients with high serum cholesterol
2) Secondary prevention of myocardial infarction and stroke in those who have atherosclerotic diseases
3) Atorvastatin lowers serum cholesterol in familial hypercholesterolaemia

35
Q

Describe the Mevalonate Pathway.

A

HMG CoA (this step cayalysed by HMG CoA reductase, and blocked by statins) –> Mevalonate —–> at certain point, splits between cholesterol synthesis and protein prenylation

One half of Mevalonate pathway = cholesterol synthesis
Other half of Mevalonate pathway = protein prenylation (Addition of lipid tails to small GTPase signaling molecules such as Ras and Rho, Ensures they are localised correctly)