g. certain SNPs), altering the function of key proteins involved in the pathogenesis of INH-induced DILI. Furthermore, chemical

factors (e.g. comedication) may also greatly influence the extent of INH-induced DILI. Other risk factors, including underlying diseases or inflammatory episodes, will not be discussed, as they are outside the scope of this review. Traditionally, the acetylator phenotype (determined by NAT2 polymorphisms) has selleck screening library been implicated as a determinant of susceptibility to INH-induced DILI. This makes sense because NAT2 is involved in INH biotransformation. However, acetylation leads to both bioactivation (acetylhydrazine formation) and detoxication (diacetylhydrazine formation) (Fig. 2). Therefore, it is not surprising that some studies identified Dinaciclib research buy the fast acetylator phenotype as

a determinant of susceptibility,[70, 71] while others, more recently, linked the poor acetylator phenotype with an increased risk.[72, 73] Thus, the causal role of the NAT2 haplotype has remained controversial; furthermore, the current concept no longer implicates NAT2 polymorphisms as a major risk factor, particularly because these polymorphisms (e.g. coding for a slow acetylator phenotype) are extremely frequent in populations. Similarly, the role of CYP2E1 variants has remained controversial.[73] Since a direct role of CYP2E1 in the hepatic toxicity of INH has been questioned,[29] and because a number of INH metabolites can even be generated independently of CYPs,[28] the focus has somewhat shifted away from CYP2E1 being a major determinant of susceptibility. However, apart from the enzyme’s role in drug bioactivation/inactivation, two points are important: First, CYP2E1 is also expressed in mitochondria,[74] selleck and second, CYP2E1 is one of the CYP forms that has been shown to generate relatively high levels of ROS;[75] therefore, it is possible that

the role of CYP2E1 could simply be in enhancing the extent of oxidant stress. Another genetic variant that has been analyzed for its role as a potential determinant of susceptibility is the glutathione S-transferase (GST) family. A recent meta-analysis examining the association between selective GST variants and the risk for INH-associated DILI found that individuals with a null-genotype in GSTM1 may have an increased risk, while patients with a null-genotype in GSTM1 did not.[76] The exact role of these polymorphisms are unclear; however, it can be surmised that functional GST dependence reflects the trapping of a reactive intermediate. Furthermore, in Japanese patients, an association has been found between certain gene mutations in one of the anti-oxidant pathways and INH-induced DILI.[77] These positive correlations include mutations in NOS2A (encoding for inducible nitric oxide synthase, iNOS) resulting in gain of function, which leads to increases in NO production.