Exploring Primary Care Activities in ACT Teams

Adult neovascularization relies on the recruitment of circulating cells, but their angiogenic roles and recruitment mechanisms are unclear. We show that the endothelial growth factor VEGF is sufficient for organ homing of circulating mononuclear myeloid cells and is required for their perivascular positioning and retention. Recruited bone marrow-derived circulating cells (RBCCs) summoned by VEGF serve a function distinct from endothelial progenitor cells. Retention of RBCCs in close proximity to angiogenic vessels is mediated by SDF1, a chemokine induced by VEGF in activated perivascular myofibroblasts. RBCCs enhance in situ proliferation of endothelial cells via secreting proangiogenic activities distinct from locally induced activities. Precluding RBCCs strongly attenuated the proangiogenic response to VEGF and addition of purified RBCCs enhanced angiogenesis in excision wounds. Together, the data suggest a model for VEGF-programmed adult neovascularization highlighting the essential paracrine role of recruited myeloid cells and a role for SDF1 in their perivascular retention.

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VEGF-Induced Adult Neovascularization: Recruitment, Retention, and Role of Accessory Cells

Grunewald¹,

Avraham²,

Dor³

et al. 2006

Cell

185

257

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Direct Imaging of Immune Rejection and Memory Induction by Allogeneic Mesenchymal Stromal Cells

et al. 2009

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Although mesenchymal stromal cells (MSCs) exhibit marked immunoregulatory activity through multiple mechanisms, their potential to completely evade rejection upon transplantation into allogeneic recipients is controversial. To directly address this controversy, the survival of luciferase-labeled MSCs (Luc 1 MSCs) was evaluated by imaging in allogeneic recipients. This analysis showed that although MSCs exhibited longer survival compared to fibroblasts (Fib), their survival was significantly shorter compared to that exhibited in syngeneic or in immune-deficient Balb-Nude or non-obese diabetic severe combined immunodeficiency (NOD-SCID) recipients. Graft rejection in re-challenge experiments infusing Luc 1 Fib into mice, which had previously rejected Luc 1 MSCs, indicated potential induction of immune memory by the MSCs. This was further analyzed in T-cell antigen receptor (TCR) transgeneic mice in which either CD4 TEA mice or CD8 T cells (2C mice) bear a TCR transgene against a specific MHC I or MHC II, respectively. Thus, following a re-challenge with MSCs expressing the cognate MHC haplotype, an enhanced percentage of 2C CD8 1 or TEA CD4 1 T cells exhibited a memory phenotype (CD122 1 , CD44 1 , and CD62L low ). Collectively, these results demonstrate that MSCs are not intrinsically immune-privileged, and under allogeneic settings, these cells induce rejection, which is followed by an immune memory. Considering that the use of allogeneic or even a third party (''off the shelf'') MSCs is commonly advocated for a variety of clinical applications, our results strongly suggest that long-term survival of allogeneic MSCs likely represents a major challenge. STEM CELLS

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Megadose of T cell-depleted bone marrow overcomes MHC barriers in sublethally irradiated mice

Bachar-Lustig

Rachamim

et al. 1995

Nat Med

311

170

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Graft-versus-host disease (GVHD) is uniformly lethal in recipients of HLA-mismatched marrow. In patients with severe combined immunodeficiency disease, this major obstacle can be overcome by rigorous T-cell depletion before transplantation. In leukaemia patients, however, the benefit of preventing GVHD is offset by graft rejection or graft failure. Very recently, this problem was overcome by supplementing T cell-depleted bone marrow transplants with megadoses of peripheral blood stem cells collected by leukapheresis after mobilization of the donor stem cells with granulocyte colony-stimulating factor (G-CSF). In the present study, we further demonstrate in a mouse model (C57BL/6-->C3H/Hej) that escalation of bone marrow doses by four- to fivefold leads to full donor-type chimerism in sublethally irradiated (6.5 Gy) recipients. Thus, the new source of G-CSF mobilized human haematopoietic stem cells may enable extending the use of mismatched bone marrow transplants to patients with non-malignant diseases for whom supralethal conditioning is not a prerequisite.

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Preconditioning allows engraftment of mouse and human embryonic lung cells, enabling lung repair in mice

Rosen

Shezen

Aronovich

et al. 2015

Nat Med

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Repair of injured lungs represents a longstanding therapeutic challenge. We show that human and mouse embryonic lung tissue from the canalicular stage of development (20-22 weeks of gestation for humans, and embryonic day 15-16 (E15-E16) for mouse) are enriched with progenitors residing in distinct niches. On the basis of the marked analogy to progenitor niches in bone marrow (BM), we attempted strategies similar to BM transplantation, employing sublethal radiation to vacate lung progenitor niches and to reduce stem cell competition. Intravenous infusion of a single cell suspension of canalicular lung tissue from GFP-marked mice or human fetal donors into naphthalene-injured and irradiated syngeneic or SCID mice, respectively, induced marked long-term lung chimerism. Donor type structures or 'patches' contained epithelial, mesenchymal and endothelial cells. Transplantation of differentially labeled E16 mouse lung cells indicated that these patches were probably of clonal origin from the donor. Recipients of the single cell suspension transplant exhibited marked improvement in lung compliance and tissue damping reflecting the energy dissipation in the lung tissues. Our study provides proof of concept for lung reconstitution by canalicular-stage human lung cells after preconditioning of the pulmonary niche.

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Esther Bachar-Lustig

VEGF-Induced Adult Neovascularization: Recruitment, Retention, and Role of Accessory Cells

VEGF-Induced Adult Neovascularization: Recruitment, Retention, and Role of Accessory Cells

Direct Imaging of Immune Rejection and Memory Induction by Allogeneic Mesenchymal Stromal Cells

Megadose of T cell-depleted bone marrow overcomes MHC barriers in sublethally irradiated mice

Preconditioning allows engraftment of mouse and human embryonic lung cells, enabling lung repair in mice

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