Multi-omics Analysis Reveals the Dynamic Interplay Between Vero Host Chromatin Structure and Function During Vaccinia Virus Infection

Overview

Journal Commun Biol

Specialty Biology

Date 2024 Jun 11

PMID 38862613

Authors

Vrinda Venu

Cullen Roth

Samantha H Adikari

Eric M Small

Shawn R Starkenburg

Karissa Y Sanbonmatsu

Christina R Steadman

Affiliations

Soon will be listed here.

Abstract

The genome folds into complex configurations and structures thought to profoundly impact its function. The intricacies of this dynamic structure-function relationship are not well understood particularly in the context of viral infection. To unravel this interplay, here we provide a comprehensive investigation of simultaneous host chromatin structural (via Hi-C and ATAC-seq) and functional changes (via RNA-seq) in response to vaccinia virus infection. Over time, infection significantly impacts global and local chromatin structure by increasing long-range intra-chromosomal interactions and B compartmentalization and by decreasing chromatin accessibility and inter-chromosomal interactions. Local accessibility changes are independent of broad-scale chromatin compartment exchange (~12% of the genome), underscoring potential independent mechanisms for global and local chromatin reorganization. While infection structurally condenses the host genome, there is nearly equal bidirectional differential gene expression. Despite global weakening of intra-TAD interactions, functional changes including downregulated immunity genes are associated with alterations in local accessibility and loop domain restructuring. Therefore, chromatin accessibility and local structure profiling provide impactful predictions for host responses and may improve development of efficacious anti-viral counter measures including the optimization of vaccine design.

Citing Articles

Elucidating the Mechanism of VVTT Infection Through Machine Learning and Transcriptome Analysis.

Chen Z, Jiang Y, Cui J, Li W, Han W, Liu G Int J Mol Sci. 2025; 26(3).

PMID: 39940969 PMC: 11818747. DOI: 10.3390/ijms26031203.

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