Introduction Hepatitis C is a post-transfusion hepatitis which causes serious problems in blood transfusion. Blood testing requires highly sensitive and specific assays with high predictive value. Genomic characteristics of hepatitis C virus According to recommendations of International Association for the study of Liver Diseases etiological diagnosis of hepatitis is based on highly sensitive third generation assays: epitopes in the NS5 region comprising noncoding sequence UTR with 324-341 well conserved pair of homologous basis in 92% HCV genomes, therefore appropriate for virus RNA detection. Development of assays for hepatitis virus The first generation of immunoenzyme tests (IET) were based on detection of antibodies on antigen c 100-3, which is a part of the NS4 region of HCV genome. The second generation of tests with two recombinant proteins - c22-3 and c200, achieved higher sensitivity of assays. The third generation included epitopes from NS5 region, and removed the antigen c100-3. Development of autoimmunity Autoimmunity is a pathophysiological mechanism that's leads to chronic inflammatory diseases. Autoimunity is characterized by loss of tolerance towards self-antigens. Viral hepatitis C is associated with development of autoimmune phenomena. Molecular mimicry Molecular mimicry, as a mechanism of autoimmunity, was investigated to establish cross-Reactive immune reactions between HCV antigen and human nitrogen-oxide synthase, Tyrosine kinase Lck, and hepatic growth factor activator. Cross reactivity between HCV proteins and human proteins HCV capsid proteins initiate the autoimmune process in the liver because of cross reaction of antibodies with human Gor protein 19-27, which causes autoimmune chronic hepatitis. However, analysis of human protein from protein basis Swissprot shows homology between NS5 region and 3 human protein nitrogen oxide synthases, tyrosine kinase-Lck, proto-oncogene and hepatic growth factor activator. According to protein data analysis and competitive in vitro experiments, it was concluded that presence of auto-antibodies is probably the consequence of cross reactive immune response. Conclusion Homology of amino acid sequences in the NS5 region of the HCV genome with nitrogen-oxide synthase, tyrosine kinase-Lck, and hepatic growth factor activator, causes auto-immune phenomena in HC, and can be a model for researching autoimmunity and human virus-induced autoimmune diseases.
Investigating the Relationship between Serum Level of s-Met (Soluble Hepatic Growth Factor Receptor) and Preeclampsia in the First and Second Trimesters of Pregnancy