Project description:The inactive X (Xi) is formed by a process called X-Chromosome Inactivation (XCI), with Xist upregulation, retention of Xist RNA transcripts at the Xi, chromatin re-organization, and transcriptional silencing. Female lymphocytes have ‘dynamic’ XCI maintenance where Xist RNA is transcribed but absent from the Xi in naïve lymphocytes and re-localizes after in-vitro activation. How ‘dynamic’ XCI impacts Xi dosage and nuclear organization, or where Xist RNA interacts with the Xi is unknown. Here we find maintenance of Xi dosage and global structure despite the absence of Xist RNA in naïve B-cells. However, we identified 104 escape genes and observe a gain of de-novo TADs on the Xi. Stimulation-dependent Xi remodeling co-occurs with Xist RNA re-accumulation at the Xi, and loss of Xist increases TAD remodeling and decompacts the Xi in both naïve and stimulated B-cells. Altogether, these results reveal B-cell specific Xi plasticity which could underlie female-specific mechanisms in lymphocytes.

Project description:The inactive X (Xi) is formed by a process called X-Chromosome Inactivation (XCI), with Xist upregulation, retention of Xist RNA transcripts at the Xi, chromatin re-organization, and transcriptional silencing. Female lymphocytes have ‘dynamic’ XCI maintenance where Xist RNA is transcribed but absent from the Xi in naïve lymphocytes and re-localizes after in-vitro activation. How ‘dynamic’ XCI impacts Xi dosage and nuclear organization, or where Xist RNA interacts with the Xi is unknown. Here we find maintenance of Xi dosage and global structure despite the absence of Xist RNA in naïve B-cells. However, we identified 104 escape genes and observe a gain of de-novo TADs on the Xi. Stimulation-dependent Xi remodeling co-occurs with Xist RNA re-accumulation at the Xi, and loss of Xist increases TAD remodeling and decompacts the Xi in both naïve and stimulated B-cells. Altogether, these results reveal B-cell specific Xi plasticity which could underlie female-specific mechanisms in lymphocytes.

Project description:X Chromosome Inactivation (XCI) is a female-specific process which balances X-linked gene dosage between sexes. Unstimulated T cells lack cytological enrichment of Xist RNA and heterochromatic modifications on the inactive X chromosome (Xi), and these modifications become enriched at the Xi after cell stimulation. Here, we examined allele-specific gene expression and epigenomic profiling of the Xi following T cell stimulation. We found that the Xi in unstimulated T cells is dosage compensated, and is enriched with the repressive H3K27me3 modification, but not H2AK119-ubiquitin (Ub) mark, including at promoters of XCI escape genes. Upon CD3/CD28 mediated T cell stimulation, the Xi accumulates H2AK119-Ub and H3K27me3 across the Xi. Next, we examined the T cell stimulation pathways responsible for Xist RNA localization to the Xi and found that T cell receptor (TCR) engagement, specifically NFkB signaling downstream of TCR, is required. Disruption of NFkB signaling, using inhibitors or genetic deletions, in mice and patients with immunodeficiencies prevents Xist/XIST RNA accumulation at the Xi and alters expression of some X-linked genes. Our findings reveal a novel connection between NFkB signaling pathways which impact XCI maintenance in female T cells.

Project description:X Chromosome Inactivation (XCI) is a female-specific process which balances X-linked gene dosage between sexes. Unstimulated T cells lack cytological enrichment of Xist RNA and heterochromatic modifications on the inactive X chromosome (Xi), and these modifications become enriched at the Xi after cell stimulation. Here, we examined allele-specific gene expression and epigenomic profiling of the Xi following T cell stimulation. We found that the Xi in unstimulated T cells is dosage compensated, and is enriched with the repressive H3K27me3 modification, but not H2AK119-ubiquitin (Ub) mark, including at promoters of XCI escape genes. Upon CD3/CD28 mediated T cell stimulation, the Xi accumulates H2AK119-Ub and H3K27me3 across the Xi. Next, we examined the T cell stimulation pathways responsible for Xist RNA localization to the Xi and found that T cell receptor (TCR) engagement, specifically NFkB signaling downstream of TCR, is required. Disruption of NFkB signaling, using inhibitors or genetic deletions, in mice and patients with immunodeficiencies prevents Xist/XIST RNA accumulation at the Xi and alters expression of some X-linked genes. Our findings reveal a novel connection between NFkB signaling pathways which impact XCI maintenance in female T cells.

Project description:X Chromosome Inactivation (XCI) is a female-specific process which balances X-linked gene dosage between sexes. Unstimulated T cells lack cytological enrichment of Xist RNA and heterochromatic modifications on the inactive X chromosome (Xi), and these modifications become enriched at the Xi after cell stimulation. Here, we examined allele-specific gene expression and epigenomic profiling of the Xi following T cell stimulation. We found that the Xi in unstimulated T cells is dosage compensated, and is enriched with the repressive H3K27me3 modification, but not H2AK119-ubiquitin (Ub) mark, including at promoters of XCI escape genes. Upon CD3/CD28 mediated T cell stimulation, the Xi accumulates H2AK119-Ub and H3K27me3 across the Xi. Next, we examined the T cell stimulation pathways responsible for Xist RNA localization to the Xi and found that T cell receptor (TCR) engagement, specifically NFkB signaling downstream of TCR, is required. Disruption of NFkB signaling, using inhibitors or genetic deletions, in mice and patients with immunodeficiencies prevents Xist/XIST RNA accumulation at the Xi and alters expression of some X-linked genes. Our findings reveal a novel connection between NFkB signaling pathways which impact XCI maintenance in female T cells.

Project description:X Chromosome Inactivation (XCI) is a female-specific process which balances X-linked gene dosage between sexes. Unstimulated T cells lack cytological enrichment of Xist RNA and heterochromatic modifications on the inactive X chromosome (Xi), and these modifications become enriched at the Xi after cell stimulation. Here, we examined allele-specific gene expression and epigenomic profiling of the Xi following T cell stimulation. We found that the Xi in unstimulated T cells is dosage compensated, and is enriched with the repressive H3K27me3 modification, but not H2AK119-ubiquitin (Ub) mark, including at promoters of XCI escape genes. Upon CD3/CD28 mediated T cell stimulation, the Xi accumulates H2AK119-Ub and H3K27me3 across the Xi. Next, we examined the T cell stimulation pathways responsible for Xist RNA localization to the Xi and found that T cell receptor (TCR) engagement, specifically NFkB signaling downstream of TCR, is required. Disruption of NFkB signaling, using inhibitors or genetic deletions, in mice and patients with immunodeficiencies prevents Xist/XIST RNA accumulation at the Xi and alters expression of some X-linked genes. Our findings reveal a novel connection between NFkB signaling pathways which impact XCI maintenance in female T cells.

Project description:X Chromosome Inactivation (XCI) is a female-specific process which balances X-linked gene dosage between sexes. Unstimulated T cells lack cytological enrichment of Xist RNA and heterochromatic modifications on the inactive X chromosome (Xi), and these modifications become enriched at the Xi after cell stimulation. Here, we examined allele-specific gene expression and epigenomic profiling of the Xi following T cell stimulation. We found that the Xi in unstimulated T cells is dosage compensated, and is enriched with the repressive H3K27me3 modification, but not H2AK119-ubiquitin (Ub) mark, including at promoters of XCI escape genes. Upon CD3/CD28 mediated T cell stimulation, the Xi accumulates H2AK119-Ub and H3K27me3 across the Xi. Next, we examined the T cell stimulation pathways responsible for Xist RNA localization to the Xi and found that T cell receptor (TCR) engagement, specifically NFkB signaling downstream of TCR, is required. Disruption of NFkB signaling, using inhibitors or genetic deletions, in mice and patients with immunodeficiencies prevents Xist/XIST RNA accumulation at the Xi and alters expression of some X-linked genes. Our findings reveal a novel connection between NFkB signaling pathways which impact XCI maintenance in female T cells.

Project description:X-chromosome inactivation (XCI) entails a massive structural reorganization of the inactive X (Xi). However the molecular architecture of the Xi is unknown. Here we show that the Xi lacks typical autosomal features such as active/inactive compartments and topologically associating domains (TADs), except around a small number of genes that escape XCI and remain expressed. Escaping genes form TADs and retain DNA accessibility at promoter-proximal and CTCF binding sites, indicating that these loci can avoid Xist-mediated erasure of chromosomal structure. We further show that genesilencing competent Xist RNA is sufficient to induce segregation of the Xi into two ‘mega-domains’ separated by a boundary that includes the DXZ4 macrosatellite. Deletion of this boundary prior to XCI results in fusion of the megadomains and altered patterns of escape that correlate with changes in TAD structure following differentiation and XCI . Our results suggest a critical role for the boundary locus and Xist RNA in shaping the structure of the Xi and modulating escape from XCI. Our findings also point to roles of transcription and CTCF binding in TAD formation in the context of facultative heterochromatin.

Project description:To investigate the effect of Smchd1 ablation on de novo X chromosome inactivation (XCI), we derived clonal neural progenitor cells (NPCs) from Smchd1+/+ (wild-type, WT) and Smchd1-/- mouse embryonic stem cells (ES cells; ESC). We generated allele-specific RNA-seq datasets from WT and Smchd1-/- NPCs to examine the effect of Smchd1 ablation on gene silencing. In addition, we produced allele-specific ChIP-seq profiles of H3K4me3, H3K27me3, CTCF, and RAD21 and Xist CHART-seq profiles in WT and Smchd1-/- NPCs to investigate the role of SMCHD1 on the distribution of euchromatin, facultative heterochromatin, architectural proteins, and Xist RNA on the inactive X chromosome (Xi). To determine the localization of SMCHD1 on the Xi, we employed allele-specific DamID-seq to map SMCHD1-binding regions in female mouse embryonic fibroblasts. Furthermore, we performed in situ Hi-C on WT NPCs, Smchd1-/- NPCs, and female ES cells undergoing XCI, in order to explore the role of SMCHD1 in regulating the higher-order structure of the Xi.

Project description:X chromosome inactivation (XCI) in female lymphocytes is uniquely regulated, as the inactive X (Xi) chromosome lacks localized Xist RNA and heterochromatin modifications. Epigenetic profiling reveals that Xist RNA is lost from the Xi at the pro-B cell stage and that additional heterochromatic modifications are gradually lost during B cell development. Activation of mature B cells restores Xist RNA and heterochromatin to the Xi in a dynamic two-step process that differs in timing and pattern, depending on the method of B cell stimulation. Finally, we find that DNA binding by YY1 maintains XCI in activated B cells, as ex-vivo YY1 deletion results in loss of Xi heterochromatin marks and up-regulation of X-linked genes. Ectopic expression of the YY1 zinc finger domain is sufficient for Xist RNA localization during B cell activation. Together, our results indicate that Xist RNA localization is critical for maintaining XCI in female lymphocytes, and that chromatin changes on the Xi during B cell development and the dynamic nature of YY1-dependent XCI maintenance in mature B cells predisposes X- linked immunity genes to reactivation.