Abstract
Statins are relevant drugs involved in the reduction of cardiovascular events both in primary and secondary prevention. Related muscular side-effects are the most common cause of withdrawal and statins discontinuation could induce a negative rebound effect in terms of vascular events. Among factors in association with statins side-effects the combination with other drugs and the female sex are established conditions. However recent data suggest a specific genetic influence in intolerance development, at least for some statins. Indeed a genome-wide study in patients treated with simvastatin found an impressive association between single-nucleotide polymorphisms (SNPs) located within SLCO1B1 gene on chromosome 12 and established myopathy. Furthermore, the association between the SLCO1B1*5 variant and side-effects was found also in patients treated with atorvastatin but not, apparently, with pravastatin and categorized as carriers of mild-myopathy. Recently a similar evidence has been suggested in type 2 diabetic patients treated mainly with simvastatin. However another relevant issue is that, apart from genetic influence in liver transporters influencing drug levels, the complexity of mechanisms involved in the muscular side effects of statins has been addressed by the evidence of other influencing pathways such as the variant within the COQ2 gene involved in Coenzyme Q10 mildasymptomatic deficiency and skeletal muscle drug transporters expression.
In conclusion, the picture of putative pharmacogenetic modulation of statins safety is reaching a growing body of evidence for translation into clinical practice but more specific studies for each single statin, in different clinical settings, both from genome-wide or competitive candidate genes evaluation, are needed before describing a definitive class-risk profile.
Keywords: Statins, tolerability, side-effects, myopathy, SLCO1B1, pharmacogenetics, gastrointestinal disturbances, skeletal muscle