The only site of unique conserved sequence in the Sorafenib clinical trial KIR locus is in the 14-kb intergenic region that separates 3DP1 from 2DL4 and divides the locus into Cen and Tel parts of
similar size [26, 27]. It was recently shown that a certain Cen variant (Cen-B/B) is associated with a lower risk of relapse after unrelated transplantation for acute myelogenous leukaemia [5]. Therefore, we analysed the distributions of KIR Cen and Tel parts between patients with syphilis and controls. Our data showed that there were no significantly different distributions in the Cen part between the two groups (Table 5). Interestingly, a KIR genotype (Tel-B/B) was significantly increased in patients with syphilis (P = 0.024) compared to healthy controls, while another KIR genotype (Tel-A/B) was close to significantly increased in controls (P = 0.049, this needs more work to confirm) compared to patients with syphilis. As there are more activating see more KIR genes in Tel region than those in Cen region, our data showed clearly that Tel-B/B encoding a dominant activating KIR gene repertoire conferred
increased risk for syphilis in Chinese population. Dissimilarly to our results, Dring et al. [28] found that KIR Cen-A/B was significantly increased in patients with hepatitis C virus infection compared to controls, and no significant Edoxaban difference was observed in Tel region between the two groups. These data suggested that different regions of KIR gene cluster might provide different immune responses to non-virus and virus infections. The biologic relevance of dominant activation KIR gene repertoire in syphilis pathogenesis remains unclear because the ligands for activating KIRs are unknown. Certain activating KIRs are predicted to bind to the same HLA class I
ligands in peptide-dependent manner as their structurally related inhibitory KIRs [29, 30]. We speculate from our data that the signals transduced by the activating KIRs binding to their ligands may overcome HLA class I-dependent inhibition. This favours the activation status of the host NK cells and participates in the physiopathological process either by excessively destroying infected cells or by non-specific inflammatory responses such as oxidative DNA damage, which may increase risk of syphilis. Recent studies have demonstrated that KIRs expressed on the surface of NK cells play a key role in the regulation of immune responses via the transduction of inhibitory or activating signals [12, 31]. NK cells can produce IFN-γ in response to microbial stimulation [13, 32]. It was reported that both primary and secondary syphilis lesions contained IFN-γ mRNA [33], and the peak IFN-γ production directly preceded the clearance of treponemes and the beginning of lesion healing [34].