Genomics

Dataset Information

0

RNA sequencing of Osteoblasts


ABSTRACT: We utilized RNA sequencing to provide the gene expression profile of mesenchymal stem cells (MSCs) derived osteoblasts in different differentiation stages as well as the gene alteration profile of H9 MSCs-derived osteoblasts following different gene regulation treatments, including SDC1 overexpression, knockout of CEBPD, knockout of IL1R1, and knockdown of CORIN. The commitment of stem cells to an osteoblastic lineage is a complex and tightly regulated process, involving coordination between extrinsic signals and intrinsic transcriptional machinery. While many rodent osteoblast studies abound, human osteoblastic signaling networks are not as well-researched due to limitations in cell sources and existing models. Here, we generated human pluripotent stem cell (hPSC)-derived osteoblasts and used this modeling platform to identify functional osteoblastic surface receptors and their downstream transcriptional networks involved in human osteogenesis. We systematically dissected osteoblastic gene expression patterns and identified critical clusters associated with osteogenesis. The osteoblast surface receptor signature study revealed enriched CORIN expression in osteoblasts and enriched SDC1 expression in MSCs. In vitro calcified staining and 3D biomimetic GelMA/microCT (μCT) studies demonstrated that depletion of CORIN as well as ectopic expression of SDC1 significantly impaired osteogenesis. Transcriptome analyses revealed that dysregulation of CORIN or SDC1 alters biological processes and pathways mainly involved in bone formation associated signaling including TGFβ regulating extracellular matrix and Wnt signaling. Genome-wide ChIP enrichment analysis further indicated that CEBPD is a downstream transcription factor involved in CORIN and SDC1-modulated osteogenesis. CEBPD ChIP-seq and RNA-seq validated its role in controlling extracellular matrix organization, bone mineralization, and TGFβ, BMP, and Wnt signaling. Depletion of CEBPD led to impairment of osteoblastic differentiation. Differential expression analysis of single-cell transcriptomes revealed enriched expression of CEBPD and its transcriptional targets during the different stages of osteoblast differentiation. In summary, our findings elucidated the vital signaling in osteoblast lineage commitment.

ORGANISM(S): Homo sapiens

PROVIDER: GSE202080 | GEO | 2023/04/28

REPOSITORIES: GEO

Similar Datasets

2023-04-28 | GSE201836 | GEO
2019-12-10 | GSE141686 | GEO
2017-11-07 | GSE103492 | GEO
2016-05-14 | GSE81399 | GEO
2016-05-14 | E-GEOD-81399 | biostudies-arrayexpress
2021-09-08 | PXD011001 | Pride
2015-01-10 | E-GEOD-46021 | biostudies-arrayexpress
2022-01-01 | GSE186026 | GEO
2013-09-01 | E-MTAB-1828 | biostudies-arrayexpress
2013-09-01 | E-MTAB-1829 | biostudies-arrayexpress