280 likes | 446 Views
Hyperlipoprotinemias . Department of Pharmacology College of Medicine. Pathway of chylomicron metabolism. HL = hepatic lipase LPL = lipoprotein lipase FFA = free fatty acids. Normal Lipid Metabolism.
E N D
Hyperlipoprotinemias Department of Pharmacology College of Medicine
Pathway of chylomicron metabolism. HL = hepatic lipase LPL = lipoprotein lipase FFA = free fatty acids Normal Lipid Metabolism From Figure 36-1 Mahley RW, Bersot TP. In Goodman and Gilman’s Pharmacological Basis of Therapeutics, 10th ed. 2001 ApoE mediated
Triglycerides – used for fat storage and as an energy source Can be synthesized by the cells or obtained from the diet Are the major fat in human diet because this is the most common animal and plant fat Require bile salts to be absorbed Triglycerides and Cholesterol are the two most common lipids
Functions: Serves as a stabilizing component of cell membranes Serves as a precursor to bile salts Serves as a precursor for all steroid hormones Cholesterol
Metabolism Obtained from the diet or synthesized in liver, intestine, and endocrine glands. Acetyl CoA is its precursor HMG-CoA reductase is the major rate-limiting enzyme in cholesterol synthesis Cholesterol synthesis is controlled in most tissues by negative feedback to HMG-CoA reductase Cholesterol
Bile salts Synthesized by liver from cholesterol. Secreted into duodenum via gall bladder and biliary tract. Bile salts are 95% reabsorbed, mostly in ileum. Reabsorbed bile salts return to the liver where they are excreted again. 5% of bile salts are excreted in the feces. Cholesterol in bile salts is highly recycled
Cholesterol is essential for life All steroid hormones are formed from it including: Calcitriol (vitamin D hormone) – essential for life Aldosterone and mineralocorticoids (essential for life) Androgens and estrogens (not essential for life, but many people think it is essential) Cortisol and related glucocorticoids (essential for life) Is Cholesterol good or bad?
High levels of LDL cholesterol are atherogenic High levels of HDL cholesterol are protective because the HDL removes cholesterol from tissues and returns it to the liver. Cholesterol is very insoluble in water so is transported as a component of blood lipoproteins. Cholesterol
Hyperlipidemia is the elevation of plasma lipid concentrations. Causes: Most are multifactoral – they respond to drug and diet therapy combined with weight reduction, increased exercise, and stress management. One (type I) is a rare genetic form which responds to diet therapy only. Hyperlipidemia
Blood lipids are combined with a protein. In hyperlipidemias, the lipid and the protein are elevated to produce hyperlipoproteinemia. Hyperlipoproteinemia
Classification of Hyperlipoproteinemias From Table 23.2 in Craig CR, Stitzel RE. Modern Pharmacology with Clinical Applications, 6th ed. Lippincott Williams & Wilkins 2004
I. Stimulation of cholesterol excretion II. Stimulation of LPL activity III. Inhibition of VLDL production IV. Inhibition of cholesterol biosynthesis V. Stimulation of cholesterol secretion into bile fluid VI. Stimulation of cholesterol conversion to bile acids. VII. Increased plasma clearance of LDL Sites of Action of Antihyperlipidemic Drugs From Figure 23.2 in Craig CR, Stitzel RE. Modern Pharmacology with Clinical Applications, 6th ed. Lippincott Williams & Wilkins 2004
Statins Resins Nicotinic acid (niacin) Fibrates Four Groups of Antihyperlipidemic Drugs – all reduce the risk of coronary heart disease.
Statins • Most effective and best-tolerated agents for treating dyslipidemia • Derived from Penicillium or Aspergillus species or are synthetic. • Effective in all patients except those with homozygous familial hypercholesterolemia – dysfunctional LDL receptor (partial response due to reduced VLDL levels) Lovastatin MEVACOR
Statins How do they work? • Competitive inhibitors of 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase – catalyzes cholesterol biosynthesis • Reduce cholesterol synthesis in the liver • LDL receptor number on hepatocytes increases and removes LDL-C from the plasma (reduce LDL-C by 20-55%) • Higher doses of more potent statins (atorvastatin and simvastatin) also can reduce triglyceride levels caused by elevated VLDL levels (LDL receptor can recognize Apo-E in VLDL). Also reduce VLDL synthesis in liver - requires cholesterol • Some statins are also indicated for raising HDL-C levels
On endothelial cell function – increase NO synthesis On plaque stability – reduce degradation of matrix by metalloproteinases On inflammation – antiinflammatory? On lipoprotein oxidation – reduce oxidation of LDL and uptake by macrophages On blood coagulation – reduce platelet aggregation and alter fibrinogen levels Statins – other potential cardioprotective effects:
Extensive first pass metabolism for all Atorvastatin longer half-life (30 h) than other statins (1-4 h) – more efficacious? Given at bedtime – cholesterol synthesis – midnight to 2 a.m., not with bile-acid seq. Do not use during pregnancy or while breast feeding as its safety in these situations has not been established. Statins - kinetics
Work better in combination with bile-acid binding resins (cholestyramine & colestipol), niacin or fibrates Side effects are rare: hepatotoxicity(ALT determinations) myopathy (can progress to myoglobinuria and renal failure), esp. when other drugs metablized by CYP3A4 are given together – erythromycin, azole antifungals, cyclosporine, antidepressants, nefazodone, protease inhibitors Cerivastatin was withdrawn from the US market in 2001 Statins
Oldest lipid-lowering drug – second line drugs to add to statins. Positively-charged anion-exchange resins binding negatively charged bile acids (95% of which are normally reabsorbed) Liver has to synthesize new bile acid and uses cholesterol – LDL receptors increase Bile-acid sequestrants (Resins) Cholestyramine NOVO CHOLAMINE Colesevelam WELCHOL Cholestyramine QUESTRAN Colestipol COLESTID
Maximal doses of cholestyramine and colestipol can reduce LDL-C by upto 25% (unacceptable GI side effects) Colesevelam can lower LDL-C by 18% at its maximum dose Advantage: Probably the safest - not absorbed but remains in the intestine. Only hypocholesterolemic drugs currently recommended for children 11-20 y of age Not used in patients with hypertriglyceridemia (increase triglyceride synthesis) Cholestyramine QUESTRAN Resins Colesevelam WELCHOL Colestipol COLESTID
Side Effects: Interfere with absorption of fat soluble vitamins (ADEK), folic and ascorbic acids, other fat-soluble drugs (e.g., griseofulvin for tinea), thiazides, furosemide, propranolol, l-thyroxine, coumarin anticoagulants, cardiac glycosides, statins. GI: bulk of resin causes discomfort – bloating & dyspepsia (suspend in liquid several h before ingestion) Colesevelam better? – newer anhydrous gel-tablet form Resins
Water soluble B-complex vitamin Multiple actions Reduces plasma LDL by 20 to 30% (4.5-6 g/d) Best agent to increase HDL-C (30-40%) Reduces triglycerides by 35-45% (2-6 g/d) Side effects limit use Nicotinic Acid (Niacin)
1.Inhibits lipolysis of triglycerides in adipose tissue 2. In liver - reduces triglyceride synthesis by inhibiting the synthesis and esterification of fatty acids – reduces hepatic VLDL production 3. Since VLDL is a precursor of LDL – lowers LDL 4. Enhances LPL activity which promotes the clearance of chylomicrons and VLDL triglycerides 5. Enhances HDL-C levels reduces clearance in the liver Niacin – How does it work? Niacin tabs – 50 to 500 mg OTC
These are common and reduce patient compliance: Flushing (with resultant sudden drop in blood pressure which may cause syncope in some patients) (give aspirin) Dyspepsia (take after meal) Pruritis Skin rashes. Hepatotoxicity (the most serious side effect) Avoid in peptic ulcer patients & gout Worsens diabetes Avoid in pregnancy – birth defects Niacin – Adverse reactions Niacin + statins – watch out for myopathy
Least used of all 4 groups - a (1978) WHO report indicated increased mortality. Later studies reversed this, but the drug group never regained favour Drugs of choice to treat severe hypertriglyceridemia (>1000 mg/dl) to prevent pancreatitis. • Bezafibrate BENZALIP SR • Gemfibrozil LOPID Fibrates Clofibrate ATROMID-S Fenofibrate LIPIDIL MICRO
Action not clear - activate a nuclear transcription factor receptor - peroxisomal proliferation activated receptor (PPAR-α) Primarily in the liver and adipose tissue, less in kidney, heart and skeletal muscle Stimulates fatty acid oxidation increased transcription of LPL gene -increased LPL activity removes plasma triglycerides and decreases VLDL levels reduced expression of hepatic apoC-III – enhanced VLDL clearance Fibrates
apoA-I and apoA-II expression increased – increases HDL-C Increased hepatic LDL receptors? Inhibit coagulation and enhance fibrinolysis Fibrates Bezafibrate BENZALIP SR Gemfibrozil LOPID Fenofibrate LIPIDIL MICRO Clofibrate ATROMID-S
Better absorbed with meals Side effects are uncommon - GI distress Drug-Drug Interactions include Fibrates plus statins myopathy Displaces coumarin anticoagulants from plasma proteins. Plasma prothrombin time monitored Fibrates – renal failure (renal clearance is the main route of excretion) and hepatic dysfunction are relative contraindications Fibrates should not be used in children, during pregnancy and breast-feeding Fibrates