Abstract
DNA methylation is one of the epigenetic modifications that configures gene transcription programs. This study describes the DNA methylation profile of HIV-infected individuals with distinct characteristics related to natural and artificial viremia control. Sheared DNA from circulating mononuclear cells was subjected to target enrichment bisulfite sequencing designed to cover CpG-rich genomic regions. Gene expression was assessed through RNA-seq. Hypermethylation in virologic responders was highly distributed closer to Transcription Start Sites (p-value = 0.03). Hyper and hypomethylation levels within TSS adjacencies varied according to disease progression status (Kruskal–Wallis, p < 0.001), and specific differentially methylated regions associated genes were identified for each group. The lower the promoter methylation, the higher the gene expression in subjects undergoing virologic failure (R = − 0.82, p = 0.00068). Among the inversely correlated genes, those supporting glycolysis and its related pathways were hypomethylated and up-regulated in virologic failures. Disease progression heterogeneity was associated with distinct DNA methylation patterns in terms of rates and distribution. Methylation was associated with the expression of genes sustaining intracellular glucose metabolism in subjects undergoing antiretroviral virologic failure. Our findings highlight that DNA methylation is associated with latency, disease progression, and fundamental cellular processes.
Highlights
DNA methylation is one of the epigenetic modifications that configures gene transcription programs
Methylation analysis was conducted for samples of 6 controls and 22 People Living with HIV (PLWH)
We evaluated a panel of samples comprising individuals that naturally control HIV viremia (EC), partially naturally control the HIV harm to the immunity (LTNP), individuals that artificially control HIV viremia, and individuals that were not able to artificially suppress HIV replication Our major findings revealed distinct methylation patterns among PLWH distinct groups, concerning distribution and levels of methylation within human genome segments associated with transcription regulation
Summary
DNA methylation is one of the epigenetic modifications that configures gene transcription programs. This study describes the DNA methylation profile of HIV-infected individuals with distinct characteristics related to natural and artificial viremia control. Methylation was associated with the expression of genes sustaining intracellular glucose metabolism in subjects undergoing antiretroviral virologic failure. The human DNA is the object of chemical modifications, in which a methyl group is transferred to cytosine in CpG dinucleotides. This is one of the biochemical processes that make up the epigenetic information, which maintains genome integrity and plays a critical role in the configuration of transcription programs[1,2]. The viral promoter was hypermethylated in latently infected cells in vitro[4], indicating that methylation of the HIV promoter regulates the reactivation of the provirus. Despite cART, some HIV infected cells are still able to produce virions that are detected through ultrasensitive m ethods[10]
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