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Article Abstract
Transcriptional adaptation drives the host responses to () infection. However, alters host RNA splicing to quench host antibacterial responses, the mechanism for which remains unknown. Here, we report a mechanism whereby a secreted protein interferes with the biogenesis of key spliceosomal components. A high-throughput yeast-2-hybrid screen identified several -secreted proteins interacting with the host RNA splicing factors (SFs). Through custom-designed in-cell assays, we show that one of those proteins, Rv1435c/hsr1 (host splicing regulator 1), targets specific exon-skipping events. The Rv14345c/hsr1 facilitates direct interaction between phagosomes and U5 snRNA and SNRPF, key components of the snRNPs. Genetic deletion of Rv1435c/hsr1 reverses the specific exon-skipping events caused by WT infection. The Δ strain shows compromised growth during ex vivo infection in macrophages and in vivo infection in mice. Tissue sections from the WT or -infected mice showed significant hsr1-dependent SNRPF staining, a phenomenon also noted in the human intestinal tuberculosis (ITB) biopsies. Thus, hsr1 is a virulence factor that disrupts host snRNP biogenesis for pathogenesis. The splicing regulators from the host and pathogen are novel targets for antituberculosis therapy.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC12260434 | PMC |
| http://dx.doi.org/10.1073/pnas.2423349122 | DOI Listing |
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