Kishor K. Sivaraj scite author profile

Summary The molecular complexity of the bone marrow (BM) microenvironment and its response to stress are incompletely understood, despite its key role in the regulation of hematopoiesis. Here we map the transcriptional landscape of BM vascular, perivascular, and osteoblast niche populations at single-cell resolution at both homeostasis and under stress hematopoiesis. This analysis revealed a previously unappreciated level of cellular heterogeneity within the BM niche, identified novel cellular subsets, and resolved cellular sources of pro-hematopoietic growth factors, chemokines, and membrane-bound ligands. Under conditions of stress, our studies revealed a significant transcriptional remodeling of these niche elements, including an adipocytic skewing of the perivascular cells. Among the stress-induced changes, we observed that vascular Notch ligand delta-like ligands (Dll1,4) were downregulated. In the absence of vascular Dll4, hematopoietic stem cells (HSC) prematurely induced a myeloid transcriptional program. These findings refine our understanding of the cellular architecture of the BM niche, reveal a dynamic and heterogeneous molecular landscape that is highly sensitive to stress, and illustrate the utility of single cell transcriptomic data in systematically evaluating the regulation of hematopoiesis by discrete niche populations.

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Platelet-Derived Nucleotides Promote Tumor-Cell Transendothelial Migration and Metastasis via P2Y2 Receptor

Schumacher

et al. 2013

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Tumor cells can activate platelets, which in turn facilitate tumor cell survival and dissemination. The exact mechanisms by which platelets promote metastasis have remained unclear. Here, we show that adenine nucleotides released from tumor cell-activated platelets induce opening of the endothelial barrier to allow transendothelial migration of tumor cells and thereby promote cancer cell extravasation. We identified the endothelial P2Y2 receptor, which is activated by ATP, as the primary mediator of this effect. Mice deficient in P2Y2 or lacking ATP secretion from platelets show strongly reduced tumor cell metastasis. These findings demonstrate a mechanism by which platelets promote cancer cell metastasis and suggest the P2Y2 receptor and its endothelial downstream signaling mechanisms as a target for antimetastatic therapies.

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Blood vessel formation and function in bone

2016

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In addition to their conventional role as a conduit system for gases, nutrients, waste products or cells, blood vessels in the skeletal system play active roles in controlling multiple aspects of bone formation and provide niches for hematopoietic stem cells that reside within the bone marrow. In addition, recent studies have highlighted roles for blood vessels during bone healing. Here, we provide an overview of the architecture of the bone vasculature and discuss how blood vessels form within bone, how their formation is modulated, and how they function during development and fracture repair.

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Kishor K. Sivaraj

The bone marrow microenvironment at single-cell resolution

Platelet-Derived Nucleotides Promote Tumor-Cell Transendothelial Migration and Metastasis via P2Y2 Receptor

Blood vessel formation and function in bone

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