Fenofibrate causes elevation of betaine excretion but not excretion of other osmolytes by healthy adults.

BACKGROUND: Cross-sectional data suggest that bezafibrate increases betaine excretion in dyslipidemic patients. OBJECTIVE: We aimed to demonstrate that fenofibrate induces increased betaine excretion in normal subjects and explore whether other 1-carbon metabolites and osmolytes are similarly affected. METHODS: Urine was collected from 26 healthy adults before and after treatment with fenofibrate (145 mg/day for 6 weeks). Excretions of betaine, N,N-dimethylglycine, free choline, myo-inositol, taurine, trimethylamine-N-oxide, carnitine, and acetylcarnitine were measured by liquid chromatography with mass spectrometric detection. RESULTS: Fenofibrate increased the median betaine excretion from 7.5 to 25.8 mmol/mole creatinine (median increase 3-fold), P < .001. The median increase in N,N-dimethylglycine excretion was 2-fold (P < .001). Median choline excretion increased 12% (significant, P = .029). Participants with higher initial excretions tended to have larger increases (P < .001 in all 3 cases). Fenofibrate did not significantly change the median excretions of myo-inositol, taurine, trimethylamine-N-oxide, and carnitine. The excretion of acetylcarnitine decreased 4-fold on treatment, with no correlation between the baseline and after-treatment excretions. Changes in all urine components tested, except trimethylamine-N-oxide, positively correlated with changes in betaine excretion even when the median excretions before and after were not significantly different. CONCLUSIONS: Fibrates increase betaine, and to a lesser extent N,N-dimethylglycine and choline, excretion. Other osmolytes are not elevated. Because the increase in betaine excretion depends on the baseline excretion, large increases in excretion in the metabolic syndrome and diabetes (where baseline excretions are high) could be expected. Replacement with betaine supplements may be considered.

Fenofibrate, homocysteine and renal function.

Fibrates or PPAR alpha agonists, in particular fenofibrate, are known to increase homocysteine levels (Hcy). A 3 to 5 micromol/L increase in Hcy is commonly observed within the first few weeks of fenofibrate treatment; it then persists in plateau when treatment is continued and is reversible upon its cessation. Since its description in 1999, this pharmacological effect attracted a great deal of attention as epidemiological studies in most populations have shown that elevated Hcy levels i.e.Hcy> or =15 micromol/L are associated with an increased risk of cardiovascular events (CVD), venous thromboembolic events (VTE) and possibly cognitive disorders and bone fractures. Chronic kidney disease is also associated with elevated Hcy levels and since fenofibrate increases creatinine levels by about 10-12 micromol/L, a relationship between Hcy and creatinine was postulated. Animal studies have shown that the Hcy increase is PPARalpha dependent but to date animal or human studies have not provided a clear mechanism. In particular, fenofibrate treatment does not change vitamin B levels; however, vitamin B supplements reduce fenofibrate-induced Hcy elevation but not the concomitant cysteine elevation. Similarly, the increase in creatinine with fenofibrate only partially accounted for by a reduction in glomerular filtration rate (GFR) since creatinine production is also increased by 5-10%. In the FIELD study, a placebo-controlled study in 9795 patients with type 2 diabetes, fenofibrate over 5 years reduced non-fatal cardiovascular events and microvascular events such as albuminuria, the need for laser treatment for proliferative retinopathy or maculopathy and amputations but did not reduce fatal events. The increase in Hcy was indeed much larger that what would be explained by creatinine elevation and independent from baseline kidney function. Although baseline Hcy and creatinine levels were associated with subsequent risk of CVD, as suggested by epidemiology, their respective elevation was not. Of interest, after withdrawal of fenofibrate, a potential renoprotective effect was unmasked, as estimated GFR was 5 ml/min/1.73 m2 higher in previous fenofibrate-allocated patients than in previous placebo-allocated patients. There was no suggestion that Hcy elevation was associated with VTE (which were increased by an unknown mechanism) or bone disorders. In conclusion, the discrepancy between the role of baseline Hcy levels in epidemiology and the absence of effect when altering its levels by either decreasing them with vitamin B supplements or increasing them with fenofibrate, suggests that the risk factor(s) behind homocysteine should be found. Nevertheless, other studies are also needed to understand the mechanism and the implications of the moderate homocysteine and creatinine elevations with fenofibrate and other PPARalpha agonists.