Epigenetic mediated functional reprogramming of immune cells leads to HBsAg seroconversion in Hepatitis B Virus Reactivation patients

Abstract

AbstractBackgroundHepatitis B virus (HBV) modulates epigenetic landscape by epigenetic regulators. HBsAg seroconversion is possible with immune activation, therefore we aimed to investigate epigenetic modulation in HBV reactivation (rHBV) for viral clearance and seroconversion.MethodsSixteen retrospectively collected rHBV patients [Seroconverters (SC, n=7, HBsAg loss and anti-HBs>10 IU/ml), non- seroconverters (NSC, n=9)], chronic hepatitis B treatment naïve (nCHBV, n=7) patients and healthy controls (HC, n=7) were included in this study. Genome methylation, gene expression, plasma-cytokines, and immune cell profiling was analysed by Reduced Representation Bisulfite Sequencing (RRBS), QRT-PCR, multiplex-cytokine-bead array and flow-cytometry.ResultsrHBV patients having high HBV DNA and ALT showed epigenetic remodellers; KDM2B, NCOR2 and GATA6, immune and metabolic genes; TGF-β, IL-6, IRF8, RPTOR, HK3 significantly (p<0.05) hypomethylated at specific CpG islands compared to nCHBV. TOX was hypomethylated in nCHBV suggesting immune-exhaustion. At-baseline, seroconverters showed hypomethylation of KDM2B, COX19, IRF8, TLR5 and hypermethylation of LAG3 compared to non-seroconverters. Further, in seroconverters at week-24, IL17RA, IFN-γ, TGF-β, and STAT5B (p<0.05) were additionally hypomethylated at specific CpG islands suggesting immune activation. Cytokine-bead analysis revealed increased IL-6 (p=0.009) and decreased LAG3 plasma levels (p=0.01) also imply on significantly differentiated HBV specific CD8, Tfh and Th1/17 cells in seroconverters at baseline and week-24. However, both nCHBV and non-seroconverters had consistent hypomethylation of LAG3 and TOX, which leads to immune exhaustion.ConclusionIn rHBV, seroconversion is driven by position specific CpG islands methylation in epigenetic remodellers, immune and metabolic genes. Immune metabolic reprograming is reflected by Th1/17 differentiation, extensive interleukin production for HBsAg seroconversion.Graphical AbstractLay summaryEpigenetic landscape in nCHBV depicts exhaustion and immune dysfunction. Out of many hypermethylated CpG islands of nCHBV, few become hypomethylated in rHBV and drives immune and metabolic reprogramming. This study provides insights into the cellular and molecular basis of epigenomic programs that regulate the differentiation and activation of immune cells leading to viral clearance and seroconversion. Targeting epigenetic mechanism could be promising strategy for the treatment of nCHBV and non-seroconverters.