DNA methylation has been introduced as a promising biomarker for different diseases. Alterations in macrophage DNA methylation status have been documented during Mycobacterium tuberculosis (Mtb) infection. We conducted this study using a human methylation PCR array kit, which comprised a panel of 22 genes in TLR2 signaling pathway, in order to gain insights into epigenetic interactions between drug-susceptible and -resistant Mtb strains and THP-1-derived macrophages (one of the main host immunity cells during TB infection). We also evaluated the expression of Rv1988 gene in the studied isolates. It was found that the methylation level of all of the studied inflammatory genes, except Irak-2 and Tbk-1, increased in THP-1 macrophages, which were infected by extensively drug-resistant (XDR) Mtb strains, compared with the mock cells (P < 0.05). In susceptible strains, we only found hypomethylation in Irak-2 gene, in addition to a slight increase in the methylation levels of Ubev, Ube2n, and Traf6 genes. The present findings provide new insights into the potential role of resistant and susceptible Mtb strains in promoting aberrant epigenetic modifications in macrophages. Further investigations on the host epigenomes, infected with different Mtb isolates, are needed to elucidate their functions in immunological responses and to introduce new effective tools against Mtb infection.
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