Project description:A single cell transcriptional profile of mesenchymal cells in the murine molar marked by CXCL12-GFP, Col1a1-GFP or CXCL12-creER+ cells at postnatal day 6 or 25 (P6 or P25)

Project description:A single cell transcriptional profile of mesenchymal cells in the periodontal space of the murine molar marked by 2.3kb Col1a1-GFP or PTHrP-creER-lineage marked cells at postnatal day 25 (P25)

Project description:Single-cell RNAseq analysis of mesenchymal cells in the periodontal space of the murine molar

Project description:A single cell transcriptional profile of both epithelial and mesenchymal cells in the tooth bud of the murine molar marked by Gli1-GFP+ tooth root progenitor cells or PTHrP+ dental follicle cells at postnatal day 6 (P6)

Project description:In this study, we show that targeted deletion of CXCL12 from mesenchymal stromal cells (MSC) reduces normal HSC numbers, but in contrast expands murine LSC numbers by increasing self-renewing cell divisions, related to enhanced EZH2 activity. CML development leads to emergence of abnormal niches of MSC and LSC clusters that are lost upon CXCL12 deletion. Importantly, CXCL12 deletion from MSC also increases LSC elimination by TKI treatment. These studies reveal a critical role for CXCL12-expressing MSC niches in maintaining a population of quiescent, TKI-resistant LSC, and support targeting of these niche interactions to enhance LSC elimination.

Project description:Hematopoietic stem cells (HSCs) primarily reside in the bone marrow where signals generated by stromal cells regulate their self-renewal, proliferation, and trafficking. Endosteal osteoblasts and perivascular stromal cells including endothelial cells3, CXCL12-abundant reticular (CAR) cells, leptin-receptor positive stromal cells, and nestin-GFP positive mesenchymal progenitors have all been implicated in HSC maintenance. However, it is unclear if specific hematopoietic progenitor cell (HPC) subsets reside in distinct niches defined by the surrounding stromal cells and the regulatory molecules they produce. CXCL12 (stromal-derived factor-1, SDF-1) regulates both HSCs and lymphoid progenitors and is expressed by all of these stromal cell populations. Here, we selectively deleted Cxcl12 from candidate niche stromal cell populations and characterized the effect on HPCs. Deletion of Cxcl12 from mineralizing osteoblasts has no effect on HSCs or lymphoid progenitors. Deletion of Cxcl12 from osterix-expressing stromal cells, which includes CAR cells and osteoblasts, results in constitutive HPC mobilization and a loss of B lymphoid progenitors, but HSC function is normal. Cxcl12 deletion in endothelial cells results in a modest loss of long-term repopulating activity. Strikingly, deletion of Cxcl12 in nestin-negative mesenchymal progenitors using Prx1-Cre is associated with a marked loss of HSCs, long-term repopulating activity, HSC quiescence, and common lymphoid progenitors. These data suggest that osterix-expressing stromal cells comprise a distinct niche that supports B lymphoid progenitors and retains HPC in the bone marrow, while expression of CXCL12 from stromal cells in the perivascular region, including endothelial cells and mesenchymal progenitors, support HSCs. Total of three samples of two groups analyzed. Replica samples of CXCL12-abundant reticular (CAR) cells from two CXCL12-GFP knock-in mice and a combined sample of PDGFRa+ Sca+ CD45- lineage- cells from three Prx1-Cre Rosa26Ai9/+ Cxcl12gfp/+ mice were used and analyzed.

Project description:Comparative bulk RNAseq analysis of CXCL12-deficient bone marrow stromal cells (BMSCs), Cxcl12-GFP+ BMSCs versus CXCL12-deficient Cxcl12-GFP+ BMSCs.

Project description:A single cell transcriptional profile of CXCL12-abundant reticular stromal cells of 4 weeks-old murine bone marrow

Project description:Hematopoietic stem cells (HSCs) primarily reside in the bone marrow where signals generated by stromal cells regulate their self-renewal, proliferation, and trafficking. Endosteal osteoblasts and perivascular stromal cells including endothelial cells3, CXCL12-abundant reticular (CAR) cells, leptin-receptor positive stromal cells, and nestin-GFP positive mesenchymal progenitors have all been implicated in HSC maintenance. However, it is unclear if specific hematopoietic progenitor cell (HPC) subsets reside in distinct niches defined by the surrounding stromal cells and the regulatory molecules they produce. CXCL12 (stromal-derived factor-1, SDF-1) regulates both HSCs and lymphoid progenitors and is expressed by all of these stromal cell populations. Here, we selectively deleted Cxcl12 from candidate niche stromal cell populations and characterized the effect on HPCs. Deletion of Cxcl12 from mineralizing osteoblasts has no effect on HSCs or lymphoid progenitors. Deletion of Cxcl12 from osterix-expressing stromal cells, which includes CAR cells and osteoblasts, results in constitutive HPC mobilization and a loss of B lymphoid progenitors, but HSC function is normal. Cxcl12 deletion in endothelial cells results in a modest loss of long-term repopulating activity. Strikingly, deletion of Cxcl12 in nestin-negative mesenchymal progenitors using Prx1-Cre is associated with a marked loss of HSCs, long-term repopulating activity, HSC quiescence, and common lymphoid progenitors. These data suggest that osterix-expressing stromal cells comprise a distinct niche that supports B lymphoid progenitors and retains HPC in the bone marrow, while expression of CXCL12 from stromal cells in the perivascular region, including endothelial cells and mesenchymal progenitors, support HSCs.

Project description:We revealed the unique molecular signature characterizing CXCL12-deficient Cxcl12-GFP+ bone marrow stromal cells.