UNDERSTANDING CHOLESTEROL
DR M J NIENKEMPERVERGELEGEN MEDICLINIC
2014/11/19
Objectives for Presentation
• To review importance of the history of cholesterol and other lipids as risk factors for heart disease
• To review cholesterol metabolism
• To review cholesterol pathogenesis
• To understand the tests for total cholesterol and its different lipoprotein components
• Treatment of lipid disorders
Cholesterol has important functions in the human body
• Necessary part of cell walls• Precursor chemical for steroid hormones:
-hydrocortisone, aldosterone, estrogens, etc.
• Formation of bile acids for digestionThe Liver is the major organ for synthesis
and metabolism of cholesterol.
LIPID HYPOTHESIS
“The outstanding characteristic of atherosclerosis is the presence of cholesterol deposits in the walls of the arteries”
PAST, PRESENT and FUTURE
• IT IS ESTIMATED THAT 50% OF THE AMERICAN POPULATION HAVE UNHEALTHY LIPID PROFILES
• INCIDENCE OF HEART DISEASE REFLECT THIS• ROLE OF CHOLESTEROL IN HEART DISEASE WAS REJECTED
FOR DECADES
• DO STATINS BENEFIT ALL PATIENT POPULATIONS EQUALLY?
HORUS STUDY
• 137 mummies from Egypt, Peru were examined (4000-2000 BC)
• Atherosclerosis was detected in 37%, looking similar than modern day coronary problems although not exposed to modern lifestyle and fast foods
• Most mummies were younger than 40yrs
HISTORYLIPID HYPOTHESIS
• 1900: ANITSCHKOW: showed that by feeding rabbits pure cholesterol led to atherosclerosis (rabbits are herbivores)
• 1913: VIRCHOW: studied arterial plaques and assumed blood cholesterol leads to deposits in blood vessels
•GOFMAN 1940: rekindled Anitschkow’s hypothesis that cholesterol causes vascular problems•Identified different forms of cholesterol:•HDL and LDL•Again many years lapsed
• Fredrickson: described the lipoproteins as cholesterol carriers
• Goldstein/Brown: Nobel Prize in1985 for their work on the genetic regulation of cholesterol production which led to the discovery of the regulating enzyme, HMG CoA reductase, which in turn led to the development of the STATIN GROUP of drugs.
1. Framingham heart study in 1948 and ongoing: smoking, hypertension and CHOLESTEROL (1961 and 1988)
2. Seven countries study in 1958: lifestyle, diet and heart disease
3. Cholesterol reported as a heart disease risk factor 1961
• “Eliminating saturated fats and replacing them with unsaturated fats has a cholesterol lowering effect.”
FIRST DIETERY ADVICE GIVEN
• Oslo study 1966• VA study 1969
Serum Cholesterol and CHDin 361,662 U.S. Men
Martin M. Lancet 1986;11:933-936
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Serum Serum CholesterolCholesterol
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181614121086420
140 160 180 200 220 240 260 280 300
CHOLESTEROL METABOLISM
IS ATHEROSCLEROSIS A METABOLIC DISEASE?
… when considering its pathogenesis, it is important to remember that the best documented initiating factor in atherogenesis is still hypercholesterolemia and that additional factors, of which there are many, should whenever possible be considered in the context of how they relate to the processes initiated by hypercholesterolemia
LIVER
The liver is the central regulator in cholesterol metabolism Synthesizes cholesterol for export to - cells for cellular membranes - hormone production - removes cholesterol by producing bile acids in the intestine Produces lipoproteins for cholesterol transport Chol production in the liver is under negative feedback When cellular chol concentration ↑, HMG CoA Reductase↓ HMG CoA reductase is the rate limiting enzyme and also the site where the Statins act
Lipoprotein lipaseFree fatty acids
Adipose tissue, muscle
Exogenous Pathway
ApoE B-100
IDL
Plasma LCAT (lecithin cholesterol
acyl transferase
HDLApoA-I
A-II
Dietary Cholesterol
Endogenous Cholesterol
Endogenous Pathway
LDL
VLDL
ApoE C-IIB-100
ApoEB-48
ApoE C-IIB-48
Lipoprotein lipaseFree fatty acids
Adipose tissue, muscle
RemnantsChylomicrons
ApoB -100
LDL-R
Extra Hepatic Tissue
Liver
Dietary fat
LDL-R
Remnant Receptor
Bile acids andCholesterol
Intestine
Major Lipoproteins and their functionClassified according to lipid content and density
• Chylomicrons: – Chylomicrons transport triglycerides from intestine
• Low Density Lipoproteins (LDL) – LDL result from metabolism of VLDL and IDL and carry
cholesterol. Used by cells for cell membranes and hormone production. LDL is an important cause of heart disease
• High Density Lipoproteins (HDL)– HDL is “good” cholesterol. It removes LDL cholesterol and
protects against heart disease
HIGH DENSITY LIPOPROTEIN
• HDL is produced by the liver and secreted into the bloodstream
• It scavenges LDL cholesterol and transports it back to the liver by removing it from cells and blood
• High HDL protects and Low HDL ?
BAD IS STILL BAD BUT IS GOOD STILL GOOD?
CHOLESTEROL PATHOGENESIS
Development of an atherosclerotic lesion
© Michael Palmer 2014
Progression Of AtherosclerosisProgression Of Atherosclerosis
Microscopic appearance of atherosclerotic lesions
© Michael Palmer 2014
CHOLESTEROL LOWERING MEDICATION
Lowering LDL cholesterol: Therapeutic principles
● Inhibition of cholesterol synthesis ● Inhibition of cholesterol uptake
● Inhibition of cholesterol ester transfer protein ● Inhibition of bile acid reuptake ● LDL apheresis
• STATINS: Block HMG COA-reductase that is an enzyme in the production of cholesterol.
• EZETIMIBE: Prevents intestinal cholesterol reabsorption.
• NIACIN: LDL↓; HDL↑; Triglycerides↓• FIBRATES: ↓Triglycerides• NEWER DRUGS in development
Complementary Mechanisms of Action Lead to Broader Lipid Control
DIETARY CHOLESTEROL
BILIARY SECRETION
INTESTINE
Excretion
VLDL LDL
Absorption
synthesis
IDL
Statins
CholesterolAbsorptionInhibition
The effects of early statin treatment on absolute risk reduction in 1-year mortality for hospital survivors of acute MI
Fonarow G. C. Chest 2005;128:3641-3651
©2005 by American College of Chest Physicians
Observational study
Coronary Mortality: PLACEBO vs STATIN
Coronary Mortality: PLACEBO vs STATIN
111
189
0
50
100
150
200
Placebo imvastatin
42% Risk Reduction42% Risk Reduction
p<0.00001p<0.00001
Num
ber o
f dea
ths
Num
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ths
The Lancet, Vol 344, November 19, 1994The Lancet, Vol 344, November 19, 1994
ACC/AHA GUIDELINES: Benefits of statins outweigh the risk
1. Clinically evident CVD 2. LDL > 4.9mmol/L3. Diabetes (type I and II) and LDL > 1.8 (40-75
yrs)4. Patients with a 10 yr risk ≥ 7.5% and LDL >
1.8.(risk prediction)
What is wrong with New Guidelines?
THE GOOD, THE BAD and THE UGLY
• Statins are the largest selling prescription drugs worldwide (soon OTC)
• Benefits derived from LDL lowering• The greater LDL lowering, the greater the
reduction in CVS mortality• The pleiotropic effects of statins contribute to
risk reduction• It is unclear if different statins act differently
(class effect).
Benefits in “healthy people” with normal/near normal LDL
• JUPITER STUDY: Rosuvastatin 40mg vs placebo- ↓/normal – LDL and ↑ hsCRP- 47% ↓ CVS risk(?pleiotropic effects)
SIDE-EFFECTS:
1. Statin related myopathy (10-20%)2. Liver toxicity3. Inhibits Co-enzyme Q10: part of the heart’s
energy cycle.4. Risk of diabetes with Statin use (1/500)
STATINS ARE NOT AN INSURANCE POLICY
HEALTHY LIFESTYLE IS THE FOUNDATION FOR
CARDIOVASCULAR HEALTH.
Measurement of Cholesterol
• Total Cholesterol is the sum of cholesterol contained in the different lipoproteins
• Fasting not required• Measured in millimoles per Liter (mmol/L)
– Measured in milligrams per deciliter in US– 5.17 mmol/L = 200 mg/dL
Values for Cholesterol
• Total Cholesterol < 5.1 mmol/L = Good 5.1-6.1 = Borderline High > 6.20 = High
Values for Low Density Lipoprotein (LDL)
< 2.8 = Good 2.8-3.3 = Near Normal 3.3- 4.1 = Borderline High 4.1-4.8 = High > 4.8 = Very High
Values for High Density Lipoprotein (HDL)
< 1.03 mmol/L = LOW (Increased Risk)
> 1.55 mmol/L = HIGH(Lower Risk)
Triglycerides
• Measured in mmol/l • Levels:
< 1.7 mmol/l = normal 1.7-2.24 = borderline high 2.3-5.6 = high > 5.6 = very high
Disorders of Cholesterol and Lipoproteins 3 Categories
Specific Familial/Genetic Disorders– These comprise a small minority of patients
Secondary to other Diseases– Diabetes, Hypothyroid, Nephrotic syndrome, Renal Failure,
Lupus
Dietary/Polygenic --(most common)– This is the great majority of patients with elevated
cholesterol/LDL
Familial hypercholesterolemia is due to a gene defect in the LDL receptor
© Michael Palmer 2014
FAMILIAL HYPERCHOLESTEROLAEMIA
• Familial hypercholesterolaemia is a common genetic disorder with a prevalence of 1/500 in America and Europe.
• Within South Africa, the prevalence is very high in particular population groups. Thus, in the Afrikaner population a prevalence rate of 1/72 has been reported whilst in the Ashkenazi Jewish population the prevalence is 1/67.
• It has also been stated that the Gujerat Indian community of South Africa has a high disease prevalence, although rates have not been published.
• Afrikaner communityThe high prevalence of FH in the Afrikaner community of South Africa is probably due to a founder effect.
• The original colonists who gave rise to the present Afrikaner population came from Holland, France and Germany and numbered around 2000. Within this small community there was, by chance, a high prevalence of subjects carrying LDL receptor gene mutations.
• The prevalence of FH is far higher in the Afrikaner population than in the European populations from which these subjects were descended. Ninety per cent (90%) of cases of familial hypercholesterolaemia in the Afrikaner community are due to 3 separate LDL receptor mutations termed FH Afrikaner-1, -2 and –3.7
• The coloured population also carry these same 3 mutations plus a fourth mutation that has been called FH Cape Town-28, 9.
• Familial hypercholesterolemia (FH) is an autosomal dominant genetic disorder which results in patients having significantly increased levels of serum total cholesterol and low density lipoprotein (LDL) cholesterol.
• The high cholesterol levels are caused by a deficiency or a defect in the LDL receptor which results in severe and premature coronary artery disease.
• Clinicians are able to diagnose this disorder by the clinical signs found on examination such as arcus and tendinous xanthomata, and the high cholesterol levels measured in the laboratory.
• Early and aggressive therapy using drugs and diet aims at decreasing the levels of cholesterol and thereby inhibiting the progression of coronary artery disease.
• AHA American Heart Association urged the reduction in saturated fat intake with the following results…..
The Obesity Epidemic Started When The Low-Fat Guidelines Were Published
HOW TO OPTIMIZE YOUR CHOLESTEROL LEVELS
1. Reduce carbohydrate intake.- Obesity leads to insulin resistance and worsens lipid profile.
2. Increase intake of healthy fatsa) HARMFUL (SOLID FATS)
- Animal fatsb) HEALTHY (LIQUID FATS)
- MUFA- PUFA- Omega(Ω)- 3
3. Optimize your vit D levels (independent risk factor)4. Exercise daily (lifestyle-statin interaction)5. Avoid smoking/excessive alcohol intake6. Get enough sleep
QUO VADIS