Treatment of patients with PBC is not disease-specific due to

Treatment of patients with PBC is not disease-specific due to

the lack of knowledge of pathogenic mechanisms. The standard of care is therapy with the secondary bile acid UDCA [34, 35]. The clinical consensus is that a biochemical response to UDCA delays the progression of disease in most patients [36-39]. However, there is a subpopulation of patients who do not respond to UDCA and progress more rapidly to liver failure. An inadequate response to UDCA BGB324 ic50 represents a major unmet clinical need in hepatology and GWAS may represent the way forward to address this need. Areas in which GWAS findings are leading to clinical and therapeutic applications in many diseases include drug development, drug-response studies [40], and risk prediction which can allow Selleckchem BAY 57-1293 patient stratification [41]. Illustrative examples that highlight the potential application of GWAS discoveries in PBC are discussed in some detail below and other examples on the horizon are briefly listed thereafter. One of the major goals of GWAS findings has been to flag relevant pathways,

not previously implicated, in the pathogenesis of complex disorders that could reveal novel therapeutic targets. Explicative findings are the complement pathway in macular degeneration [42] and the autophagy pathway in inflammatory bowel disease [43]. An emerging theme in the genetics of complex disorders is the considerable overlap of genetic susceptibility factors between related diseases. This has been highlighted in the recent primary sclerosing cholangitis (PSC) iCHIP study [33], in which 44 non-HLA loci were correlated in a GWAS of seven clinically associated autoimmune disorders, including ulcerative colitis (UC), CD,

T1DM, coeliac disease (CeD), psoriasis, RA, and sarcoidosis. In this study, eleven loci of significance were associated with genome-wide level and 33 loci achieved suggestive significance (p < 5 × 10−5) [33]. This Fenbendazole suggested a close similarity in the genetic architecture of PSC and each of the other autoimmune conditions. Functional network analysis showed that candidate genes at pleiotropic loci are related in terms of their function, highlighting common pathways involved in the pathogenesis of PSC and other clinically associated disorders. These observations suggest there might be distinct mechanisms by which autoimmunity occurs, each mechanism predisposing to a particular phenotype or set of phenotypes. This might also suggest that there are unique immunologic pathways that should be focused on for therapeutic intervention. Likewise, in PBC, many of the disease-related variants have been identified in other GWAS of immune-related diseases, with a different mosaic of disease-specific risks contributing to the pathogenesis of PBC. Overall, the data suggest important contributions from a number of immune pathways to the development of PBC.

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