Project description:The G/T transversion, rs35705950, located approximately 3 kb upstream of the MUC5B start site, is the cardinal risk factor for IPF. Here, we investigate the function and chromatin structure of this -3 kb region and provide evidence that it functions as a classically defined enhancer subject to epigenetic programming. We use nascent transcript analysis to show that RNA polymerase II loads within 10 bp of the G/T transversion site, definitively establishing enhancer function for the region. By integrating ATAC-seq analysis of fresh and cultured human airway epithelial cells with nuclease sensitivity data, we demonstrate that this region is in accessible chromatin that affects the expression of MUC5B. Through applying paired single nucleus RNA- and ATAC-seq to frozen tissue from IPF lungs, we extend these findings directly to disease, with results indicating that epigenetic programming of the -3 kb enhancer in IPF occurs in both MUC5B-expressing and non-expressing lineages. In aggregate, our results indicate that the MUC5B-associated variant, rs35705950, resides within an enhancer that is subject to epigenetic remodeling and contributes to pathologic misexpression in IPF.
Project description:We report the characterization of the major regulator of virulence gene expression (CovR) in Group B Streptococcus. The ChIP-seq experiments define the binding of CovR on the chromosome of the BM110 strain, a representative of the hypervirulent GBS lineage responsible of neonatal meningitis. Regulatory evolution of CovR signaling was investigated by comparing ChIP-seq done in parallel in a second GBS clinical isolate (NEM316) not belonging to the hypervirulent lineage.
Project description:scRNA-seq of air-liquid interface airway epithelial cultures derived from a human fluorescent reporter hPSC line labeling MUC5B-expressing cells
Project description:The G/T transversion, rs35705950, located approximately 3 kb upstream of the MUC5B start site, is the cardinal risk factor for IPF. Here, we investigate the function and chromatin structure of this -3 kb region and provide evidence that it functions as a classically defined enhancer subject to epigenetic programming. We use nascent transcript analysis to show that RNA polymerase II loads within 10 bp of the G/T transversion site, definitively establishing enhancer function for the region. By integrating ATAC-seq analysis of fresh and cultured human airway epithelial cells with nuclease sensitivity data, we demonstrate that this region is in accessible chromatin that affects the expression of MUC5B. Through applying paired single nucleus RNA- and ATAC-seq to frozen tissue from IPF lungs, we extend these findings directly to disease, with results indicating that epigenetic programming of the -3 kb enhancer in IPF occurs in both MUC5B-expressing and non-expressing lineages. In aggregate, our results indicate that the MUC5B-associated variant, rs35705950, resides within an enhancer that is subject to epigenetic remodeling and contributes to pathologic misexpression in IPF.
Project description:The aim of this study was to investigate the response of human brain endothelial cells to bacterial (group B streptococcus, GBS) infection. Results: GBS WT strain infection results in a specific gene induction pattern that is different from the pilA mutant, but not other mutants such as pilB and srr-1. Conclusion: These findings suggest that the GBS PilA protein contributes to gene induction in brain endothelium.
Project description:Streptococcus agalactiae (Group B Streptococcus, GBS) can colonize the human vaginal tract leading to both superficial and serious infections in adults and neonates. To study bacterial colonization of the reproductive tract in a mammalian system, we employed a murine vaginal carriage model. Using RNASeq, the transcriptome of GBS growing in vivo during vaginal carriage was determined. Over one-quarter of the genes in GBS were found to be differentially regulated during in vivo colonization as compared to laboratory cultures. A two-component system (TCS) homologous to the staphylococcal virulence regulator SaeRS was identified as being up-regulated in vivo. One of the SaeRS targets, pbsP, a proposed GBS vaccine candidate, was shown to be important for colonization of the vaginal tract. A component of vaginal lavage fluid acted as a signal to turn on pbsP expression via SaeRS. These data demonstrate the ability to quantify RNA expression directly from the murine vaginal tract and identify novel genes involved in vaginal colonization by GBS. They also provide more information about the regulation of an important virulence and colonization factor of GBS, pbsP, by the TCS SaeRS.