Project description:anti-Usp16 ChIP-seq in ckit and sca1 hematopoietic stem/progenitor cells

Project description:Usp16

Project description:CRISPR-Cas9 editing of human histone deubiquitinase gene USP16 in human monocytic leukemia cell line THP-1

Project description:Polycomb Repressive Complex 1 and histone H2A ubiquitination (ubH2A) contribute to embryonic stem cell (ESC) pluripotency by repressing lineage-specific gene expression. However, whether active deubiquitination co-regulates ubH2A levels in ESCs and during differentiation is not known. Here, we report that the histone H2A deubiquitinase Usp16 regulates H2A deubiquitination and gene expression in ESCs, and importantly, is required for ESC differentiation. Usp16 knockout is embryonic lethal in mice, but does not affect ESC viability or identity. Usp16 binds to the promoter regions of a large number of genes in ESCs and Usp16 binding is inversely correlated with ubH2A levels and positively correlated with gene expression levels. Intriguingly, Usp16-/- ESCs fail to differentiate due to ubH2A-mediated repression of lineage-specific genes. Finally, Usp16, but not the enzymatically inactive mutant, rescues the differentiation defects of Usp16-/- ESCs. Therefore, this study identifies Usp16 and H2A deubiquitination as critical regulators of ESC gene expression and differentiation. Examination of binding pattern of H2A deubiquitinase Usp16 and ubH2A in mouse embryonic stem cells and embroid bodies

Project description:To determine the molecular signaling pathways responsible for USP16 regulation of cell growth, RNA sequencing was conducted on MEFs with or without Usp16 deletion

Project description:Polycomb Repressive Complex 1 and histone H2A ubiquitination (ubH2A) contribute to embryonic stem cell (ESC) pluripotency by repressing lineage-specific gene expression. However, whether active deubiquitination co-regulates ubH2A levels in ESCs and during differentiation is not known. Here, we report that the histone H2A deubiquitinase Usp16 regulates H2A deubiquitination and gene expression in ESCs, and importantly, is required for ESC differentiation. Usp16 knockout is embryonic lethal in mice, but does not affect ESC viability or identity. Usp16 binds to the promoter regions of a large number of genes in ESCs and Usp16 binding is inversely correlated with ubH2A levels and positively correlated with gene expression levels. Intriguingly, Usp16-/- ESCs fail to differentiate due to ubH2A-mediated repression of lineage-specific genes. Finally, Usp16, but not the enzymatically inactive mutant, rescues the differentiation defects of Usp16-/- ESCs. Therefore, this study identifies Usp16 and H2A deubiquitination as critical regulators of ESC gene expression and differentiation.

Project description:To determine the molecular signaling pathways responsible for USP16 regulation of cell growth, RNA sequencing was conducted on NCI-H23 cells with or without USP16 knockdown

Project description:Total RNA was obtained from PC3 cells with or without USP16 knockdown to perform a High-throughput sequencing. In our study, USP16 is necessary for prostate cancer cell proliferation in vitro and in vivo. Therefore, we perform the RNA-seq to explore potential mechanisms of USP16 regulating cell growth.

Project description:High ploidy large cytoplasmic megakaryocytes (LCM) are critical negative regulators of hematopoietic stem cells (HSC) and are responsible for platelet formation. Using a mouse knockout model with normal megakaryocyte numbers but essentially devoid of LCM (MK-LCM KO), we demonstrated a pronounced increase in bone marrow HSC concurrent with endogenous mobilization and extramedullary hematopoiesis. When HSC isolated from a MK-LCM KO microenvironment were transplanted in lethally irradiated mice, the absence of LCM increased HSC in BM, blood and spleen. Severe thrombocytopenia was observed in animals with diminished LCM, although there was no change in megakaryocyte ploidy distribution. In contrast, WT HSC-generated LCM regulated a normal HSC pool and prevented thrombocytopenia. The present label-free quantitative LC-MSMS data was used to determine proteins that are differentially expressed in bone marrow cells of MK-LCM WT versus MK-LCM KO mice.

Project description:To discover novel factors involved in the final steps of 40S ribosomal subunit biogenesis in human cells, we isolated late cytoplasmic 40S subunit precursors by affinity purification (AP) of the assembly factor RIOK1. Subsequent analysis of their composition by mass spectrometry (MS) led to identification of the deubiquitinase USP16. AP-MS of USP16 confirms that it is a component of late cytoplasmic pre-40S particles and we further show that USP16 possesses a new, ribosome-associated function.