To adapt into the host system from moist environment Leptospira alter their gene expression by inducing differential expression of the genes encoding virulence factors. Knowledge about the molecular pathogenesis and virulent evolution remains limited to Leptospira. The pathogenic organism sense the environmental changes mainly through their outer membrane proteins that in-turn activates the signal transduction pathways to overcome the stress to adaptation into host system and to evade immunity. In this present study, we analyzed the expression profile of virulence associated OMPs regulated under various stress conditions like temperatures, iron deprivation, osmotic stress and low to high passages in single scale and characterized the selected proteins by MALDI-TOF MS/MS and their role in pathogenesis were predicted by implying in-silico analysis. To identify differential expression profile, the extracted OMPs were resolved through 2DE and compared the OMPs profile from various in-vivo like conditions in single scale and found 61 upregulated OMPs and three potentially virulent proteins were earmarked for their significance in pathogenesis. Further, the in-silico analysis revealed that differentially expressed protein has MHC-I T-cell, MHC-II T-cell and B-cell epitopes which showed an interaction between human TLR2 proteins confirmed by CABS docking and interaction network unveiled to understand the leptospiral virulent mechanism and host adaptation.
Keywords: Antigenic peptide; Host adaptation; Host-pathogen interaction; Leptospirosis; Outer membrane proteins; TLR2.
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