Fibrate

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In pharmacology, the fibrates are a class of amphipathic carboxylic acids. They are used for a range of metabolic disorders, mainly hypercholesterolemia (high cholesterol), and are therefore hypolipidemic agents.

Contents 1 Members 2 Indications 3 Mechanism 4 Side effects 5 Pharmacology 6 See also 7 References

[edit] Members

Fibrates prescribed commonly are:

• Bezafibrate (e.g. Bezalip)
• Ciprofibrate (e.g. Modalim)
• Clofibrate (largely obsolete due to side-effect profile, e.g. gallstones)
• Gemfibrozil (e.g. Lopid)
• Fenofibrate (e.g. TriCor)

[edit] Indications

Fibrates are used as accessory therapy in many forms of hypercholesterolemia, usually in combination with statins. Clinical trials do support its use as a monotherapy agent.

Although less effective in lowering LDL, fibrates improve HDL and triglyceride levels (i.e. increase HDL levels and decrease triglyceride levels), and seem to improve insulin resistance when the dyslipidemia is associated with other features of Syndrome X (hypertension and diabetes mellitus type 2).

[edit] Mechanism

Fibrates are agonists of the PPAR-α receptor in muscle, liver, and other tissues. Activation of PPAR-α signaling results in:

• Increased β-oxidation in the liver
• Decreased hepatic triglyceride secretion
• Increased lipoprotein lipase activity, and thus increased VLDL clearance
• Increased HDL
• Increased clearance of remnant particles

and many more

[edit] Side effects

Most fibrates can cause mild stomach upset and myopathy (muscle pain with CPK elevations). Since fibrates increase the cholesterol content of bile, they increase the risk for gallstones.

In combination with statin drugs, fibrates cause an increased risk of rhabdomyolysis (idiosyncratic destruction of muscle tissue, leading to renal failure). A powerful statin drug, cerivastatin (Lipobay), was withdrawn because of this complication. The less lipophilic statins are less prone to cause this reaction, and are probably safer when combined with fibrates.

[edit] Pharmacology

Although used clinically since at least the 1930s[1], the mechanism of action of fibrates remained unelucidated until, in the 1990s, it was discovered that fibrates activate PPAR (peroxisome proliferator-activated receptors), especially PPARα. The PPARs are a class of intracellular receptors that modulate carbohydrate, fat metabolism and adipose tissue differentiation.

Activation of PPARs causes transcription of a number of genes on the DNA that facilitate lipid metabolism.

Fibrates are structurally and pharmacologically related to the thiazolidinediones, a novel class of anti-diabetic drugs that also act on PPARs (more specifically PPARγ)

Fibrates are a substrate of (metabolized by) CYP3A4.^[1]

[edit] See also

• statin

v • d • e Lipid modifying agents (C10) Statins Atorvastatin • Cerivastatin‡ • Fluvastatin • Lovastatin • Mevastatin • Pitavastatin • Pravastatin • Rosuvastatin • Simvastatin Fibrates Clofibrate‡ • Bezafibrate • Aluminium clofibrate • Gemfibrozil • Fenofibrate • Simfibrate • Ronifibrate • Ciprofibrate • Etofibrate • Clofibride Bile acid sequestrants Colestyramine • Colestipol • Colextran • Colesevelam Niacin and derivatives Niceritrol • Niacin • Nicofuranose• Aluminium nicotinate• Nicotinyl alcohol • Acipimox CETP inhibitors Anacetrapib† • Torcetrapib§ Combinations Niacin/lovastatin • Niacin/simvastatin • Ezetimibe/simvastatin Other Dextrothyroxine • Probucol • Tiadenol • Benfluorex • Meglutol • Omega-3-triglycerides • Magnesium pyridoxal 5-phosphate glutamate • Policosanol • Ezetimibe • Laropiprant†, Lapaquistat§ †Undergoing clinical trials. ‡Withdrawn from market. §Development terminated.

[edit] References

1. ^ http://www.stacommunications.com/journals/cardiology/2004/June/Pdf/034.pdf