Ian R. Alley scite author profile

During mammalian ontogeny, haematopoietic stem cells (HSCs) translocate from the fetal liver to the bone marrow, where haematopoiesis occurs throughout adulthood. Unique features of bone that contribute to a microenvironmental niche for stem cells might include the known high concentration of calcium ions at the HSC-enriched endosteal surface. Cells respond to extracellular ionic calcium concentrations through the seven-transmembrane-spanning calcium-sensing receptor (CaR), which we identified as being expressed on HSCs. Here we show that, through the CaR, the simple ionic mineral content of the niche may dictate the preferential localization of adult mammalian haematopoiesis in bone. Antenatal mice deficient in CaR had primitive haematopoietic cells in the circulation and spleen, whereas few were found in bone marrow. CaR-/- HSCs from fetal liver were normal in number, in proliferative and differentiative function, and in migration and homing to the bone marrow. Yet they were highly defective in localizing anatomically to the endosteal niche, behaviour that correlated with defective adhesion to the extracellular matrix protein, collagen I. CaR has a function in retaining HSCs in close physical proximity to the endosteal surface and the regulatory niche components associated with it.

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Therapeutic targeting of a stem cell niche

Adams

et al. 2007

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The specialized microenvironment or niche where stem cells reside provides regulatory input governing stem cell function. We tested the hypothesis that targeting the niche might improve stem cell-based therapies using three mouse models that are relevant to clinical uses of hematopoietic stem (HS) cells. We and others previously identified the osteoblast as a component of the adult HS cell niche and established that activation of the parathyroid hormone (PTH) receptor on osteoblasts increases stem cell number. Here we show that pharmacologic use of PTH increases the number of HS cells mobilized into the peripheral blood for stem cell harvests, protects stem cells from repeated exposure to cytotoxic chemotherapy and expands stem cells in transplant recipients. These data provide evidence that the niche may be an attractive target for drug-based stem cell therapeutics.

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Haematopoietic stem cells depend on Gαs-mediated signalling to engraft bone marrow

Adams

Alley²,

Chung

et al. 2009

Nature

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Hematopoietic stem/progenitor cells (HSPC) transition in location during development1 and circulate in mammals throughout life2, moving into and out of the bloodstream to engage bone marrow (BM) niches in sequential steps of homing, engraftment and retention3–5. We show here that HSPC engraftment of BM in fetal development is dependent upon the guanine nucleotide binding protein stimulatory alpha subunit (Gsα). Adult Gsα−/− HSPCs differentiate and undergo chemotaxis, but also do not home to or engraft in the BM in adult mice and demonstrate marked inability to engage the marrow microvasculature. If deleted after engraftment, Gsα did not lead to lack of retention in the marrow, rather cytokine-induced mobilization into the blood was impaired. Testing whether activation of Gsα affects HSPC, pharmacologic activators enhanced homing and engraftment in vivo. Gsα governs specific aspects of HSPC localization under physiologic conditions in vivo and may be pharmacologically targeted to improve transplantation efficiency.

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Erratum: Corrigendum: Therapeutic targeting of a stem cell niche

Adams¹,

Grande²,

Alley³

et al. 2007

Nat Biotechnol

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Erratum: Corrigendum: Therapeutic targeting of a stem cell niche

Adams¹,

Grande²,

Alley³

et al. 2008

Nat Biotechnol

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Hematopoietic Stem Cell Engraftment in Bone Marrow Is Dependent upon Gsα.

Adams

Alley

Chabner

et al. 2006

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During development, hematopoietic stem cells (HSCs) translocate from the fetal liver to the bone marrow, which remains the site of hematopoiesis throughout adulthood. In the bone marrow the HSCs are located at the endosteal surface, where the osteoblasts are a key component of the stem cell niche. The exogenous signals that specifically direct HSCs to the bone marrow have been thought to include stimulation of the chemokine receptor CXCR4 by its cognate ligand stromal derived factor-1α (SDF-1α or CXCL12). However, experiments in which CXCR4−/− fetal liver hematopoietic cells were transplanted into wild-type hosts demonstrated efficient engraftment of the HSCs in the bone marrow. In addition, treatment of HSCs with inhibitors of Gαi-coupled signaling, which blocks transmigration towards SDF-1αin vitro, does not affect bone marrow homing and engraftment in vivo. Therefore, we examined whether Gsα-coupled mechanisms play a key role in the engraftment of the HSCs in the bone marrow environment. Utilizing an inducible-conditional knockout of Gsα, we found that deletion of the gene in hematopoietic bone marrow cells did not affect their ability to perform in the in vitro primitive CFU-C or LTC-IC assay systems. However, Gsα−/− cells were unable to establish effective hematopoiesis in the bone marrow microenvironment in vivo in a competitive repopulation assay (41.1% contribution from wild-type cells versus 1.4% from knockout cells). These effects were not due to an inability of the cells to function in the bone marrow in vivo as deletion of Gsα following establishment of hematopoiesis had no effects on the HSCs. Examining the ability of the HSCs to home to the bone marrow, though, demonstrated that deletion of Gsα resulted in a marked impairment of the ability of the stem cells to localize to the marrow space (approximately 9-fold reduction in the level of primitive cell homing). Furthermore, treatment of BM MNCs with an activator of Gsα augmented the cells homing and thus engraftment potential. These studies demonstrate that Gsα is critical to the localization of HSCs to the bone marrow. Which receptors utilize this pathway in this context remains unknown. However, Gsα represents a previously unrecognized signaling pathway for homing and engraftment of HSCs to bone marrow. Pharmacologic activation of Gsα in HSC ex vivo prior to transplantation offers a potential method for enhancing stem cell engraftment efficiency.

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Ian R. Alley

Stem cell engraftment at the endosteal niche is specified by the calcium-sensing receptor

Therapeutic targeting of a stem cell niche

Haematopoietic stem cells depend on Gαs-mediated signalling to engraft bone marrow

Erratum: Corrigendum: Therapeutic targeting of a stem cell niche

Erratum: Corrigendum: Therapeutic targeting of a stem cell niche

Hematopoietic Stem Cell Engraftment in Bone Marrow Is Dependent upon Gsα.

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