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Animal models of hematopoietic stem cell transplantation have been used to analyze the turnover of bone marrow-derived cells and to demonstrate the critical role of recipient antigen-presenting cells (APC) in graft versus host disease (GVHD). In humans,the phenotype and lineage relationships of myeloid-derived tissue APC remain incompletely understood. It has also been proposed that the risk of acute GVHD,which extends over many months,is related to the protracted survival of certain recipient APC. Human dermis contains three principal subsets of CD45(+)HLA-DR(+) cells: CD1a(+)CD14(-) DC,CD1a(-)CD14(+) DC,and CD1a(-)CD14(+)FXIIIa(+) macrophages. In vitro,each subset has characteristic properties. After transplantation,both CD1a(+) and CD14(+) DC are rapidly depleted and replaced by donor cells,but recipient macrophages can be found in GVHD lesions and may persist for many months. Macrophages isolated from normal dermis secrete proinflammatory cytokines. Although they stimulate little proliferation of naive or memory CD4(+) T cells,macrophages induce cytokine expression in memory CD4(+) T cells and activation and proliferation of CD8(+) T cells. These observations suggest that dermal macrophages and DC are from distinct lineages and that persistent recipient macrophages,although unlikely to initiate alloreactivity,may contribute to GVHD by sustaining the responses of previously activated T cells. View Publication

Retinoids triggers differentiation of acute promyelocytic leukemia (APL) blasts by transcriptional regulation of myeloid regulatory genes. Using a microarray approach,we have identified a novel retinoid-responsive gene (CXXC5) encoding a nuclear factor,retinoid-inducible nuclear factor (RINF),that contains a CXXC-type zinc-finger motif. RINF expression correlates with retinoid-induced differentiation of leukemic cells and with cytokine-induced myelopoiesis of normal CD34(+) progenitors. Furthermore,short hairpin RNA (shRNA) interference suggests for this gene a regulatory function in both normal and tumoral myelopoiesis. Interestingly,RINF localizes to 5q31.3,a small region often deleted in myeloid leukemia (acute myeloid leukemia [AML]/myelodysplasia [MDS]) and suspected to harbor one or several tumor suppressor gene. View Publication

Telomere length must be tightly regulated in highly proliferative tissues,such as the lymphohematopoietic system. Under steady-state conditions,the levels and functionality of hematopoietic-committed or multipotent progenitors were not affected in late-generation telomerase-deficient mice (mTerc(-/-)) with critically short telomeres. Evaluation of self-renewal potential of mTerc(-/-) day-12 spleen colony-forming units demonstrated no alteration as compared with wildtype progenitors. However,the replating ability of mTerc(-/-) granulocyte-macrophage CFUs (CFU-GMs) was greatly reduced as compared with wildtype CFU-GMs,indicating a diminished capacity of late-generation mTerc(-/-) committed progenitors when forced to proliferate. Long-term bone marrow cultures of mTerc(-/-) bone marrow (BM) cells show a reduction in proliferative capacity; this defect can be mainly attributed to the hematopoietic,not to the stromal,mTerc(-/-) cells. In serial and competitive transplantations,mTerc(-/-) BM stem cells show reduced long-term repopulating capacity,concomitant with an increase in genetic instability compared with wildtype cells. Nevertheless,in competitive transplantations late-generation mTerc(-/-) precursors can occasionally overcome this proliferative impairment and reconstitute irradiated recipients. In summary,our results demonstrate that late-generation mTerc(-/-) BM cells with short telomeres,although exhibiting reduced proliferation ability and reduced long-term repopulating capacity,can still reconstitute myeloablated animals maintaining stem cell function. View Publication

Hematopoietic stem cells (HSC) are tightly regulated through,as yet,undefined mechanisms that balance self-renewal and differentiation. We have identified a role for the transcriptional coactivators CREB-binding protein (CBP) and p300 in such HSC fate decisions. A full dose of CBP,but not p300,is crucial for HSC self-renewal. Conversely,p300,but not CBP,is essential for proper hematopoietic differentiation. Furthermore,in chimeric mice,hematologic malignancies emerged from both CBP(-/-) and p300(-/-) cell populations. Thus,CBP and p300 play essential but distinct roles in maintaining normal hematopoiesis,and,in mice,both are required for preventing hematologic tumorigenesis. View Publication

Obesity has been suggested to be a low-grade systemic inflammatory state,therefore we studied the interaction between human adipocytes and monocytes via adipose tissue (AT)-derived capillary endothelium. Cells composing the stroma-vascular fraction (SVF) of human ATs were characterized by fluorescence-activated cell sorter (FACS) analysis and two cell subsets (resident macrophages and endothelial cells [ECs]) were isolated using antibody-coupled microbeads. Media conditioned by mature adipocytes maintained in fibrin gels were applied to AT-derived ECs. Thereafter,the expression of endothelial adhesion molecules was analyzed as well as the adhesion and transmigration of human monocytes. FACS analysis showed that 11% of the SVF is composed of CD14(+)/CD31(+) cells,characterized as resident macrophages. A positive correlation was found between the BMI and the percentage of resident macrophages,suggesting that fat tissue growth is associated with a recruitment of blood monocytes. Incubation of AT-derived ECs with adipocyte-conditioned medium resulted in the upregulation of EC adhesion molecules and the increased chemotaxis of blood monocytes,an effect mimicked by recombinant human leptin. These results indicate that adipokines,such as leptin,activate ECs,leading to an enhanced diapedesis of blood monocytes,and suggesting that fat mass growth might be linked to inflammatory processes. View Publication

Murine hematopoietic stem and progenitor cells (HSPCs) home to bone marrow in part by rolling on P-selectin and E-selectin expressed on endothelial cells. Human adult CD34(+) cells,which are enriched in HSPCs,roll on endothelial selectins in bone marrow vessels of nonobese diabetic/severe combined immune deficiency (NOD/SCID) mice. Many human umbilical cord blood (CB) CD34(+) cells do not roll in these vessels,in part because of an uncharacterized defect in binding to P-selectin. Selectin ligands must be alpha1-3 fucosylated to form glycan determinants such as sialyl Lewis x (sLe(x)). We found that inadequate alpha1-3 fucosylation of CB CD34(+) cells,particularly CD34(+)CD38(-/low) cells that are highly enriched in HSPCs,caused them to bind poorly to E-selectin as well as to P-selectin. Treatment of CB CD34(+) cells with guanosine diphosphate (GDP) fucose and exogenous alpha1-3 fucosyltransferase VI increased cell-surface sLe(x) determinants,augmented binding to fluid-phase P- and E-selectin,and improved cell rolling on P- and E-selectin under flow. Similar treatment of CB mononuclear cells enhanced engraftment of human hematopoietic cells in bone marrows of irradiated NOD/SCID mice. These observations suggest that alpha1-3 fucosylation of CB cells might be a simple and effective method to improve hematopoietic cell homing to and engraftment in bone marrows of patients receiving CB transplants. View Publication

Bone marrow-derived mesenchymal stem cells (MSC) have been defined as primitive,undifferentiated cells,capable of self-renewal and with the ability to give rise to different cell lineages,including adipocytes,osteocytes,fibroblasts,chondrocytes,and myoblasts. MSC are key components of the hematopoietic microenvironment. Several studies,including some from our own group,suggest that important quantitative and functional alterations are present in the stroma of patients with myelodysplasia (MDS). However,in most of such studies the stroma has been analyzed as a complex network of different cell types and molecules,thus it has been difficult to identify and characterize the cell(s) type(s) that is (are) altered in MDS. In the present study,we have focused on the biological characterization of MSC from MDS. As a first approach,we have quantified their numbers in bone marrow,and have worked on their phenotypic (morphology and immunophenotype) and cytogenetic properties. MSC were obtained by a negative selection procedure and cultured in a MSC liquid culture medium. In terms of morphology,as well as the expression of certain cell markers,no differences were observed between MSC from MDS patients and those derived from normal marrow. In both cases,MSC expressed CD29,CD90,CD105 and Prolyl-4-hydroxylase; in contrast,they did not express CD14,CD34,CD68,or alkaline phosphatase. Interestingly,in five out of nine MDS patients,MSC developed in culture showed cytogenetic abnormalities,usually involving the loss of chromosomal material. All those five cases also showed cytogenetic abnormalities in their hematopoietic cells. Interestingly,in some cases there was a complete lack of overlap between the karyotypes of hematopoietic cells and MSC. To the best of our knowledge,the present study is the first in which a pure population of MSC from MDS patients is analyzed in terms of their whole karyotype and demonstrates that in a significant proportion of patients,MSC are cytogenetically abnormal. Although the reason of this is still unclear,such alterations may have an impact on the physiology of these cells. Further studies are needed to assess the functional integrity of MDS-derived MSC. View Publication

BACKGROUND: The dose-limiting toxicity of doxorubicin on hematopoietic stem cells reduces the maximum benefit from this powerful drug. Melatonin may play a role in reducing this toxicity. MATERIALS AND METHODS: Melatonin at 10 microM was used while challenging human peripheral blood stem cells (PBSC) with doxorubicin (0.6 microM and 1 microM),and colony formation was used to evaluate the protective effect of melatonin. RESULTS: Melatonin was protective for the myeloid and erythroid series when given during or 1 hour after,but not before,doxorubicin,as measured by colony assay. This protection was independent from its antioxidant function as measured by 2',7'-dichlodihydro-fluorescein diacetate and was selective for PBSC when compared to the MCF-7 cancer cell line. CONCLUSION: The results suggest the importance of the time sequence for melatonin administration to exert its protective effect in relation to doxorubicin treatment,as well as its protective effect on both erythroid and myeloid elements independent from its antioxidant function. View Publication

By retroviral overexpression of the Notch-1 intracellular domain (ICN) in human CD34+ hematopoietic stem cells (HSCs),we have shown previously that Notch-1 signaling promotes the T-cell fate and inhibits the monocyte and B-cell fate in several in vitro and in vivo differentiation assays. Here,we investigated whether the effects of constitutively active Notch-1 can be mimicked by overexpression of its downstream target gene HES1. Upon HES-1 retroviral transduction,human CD34+ stem cells had a different outcome in the differentiation assays as compared to ICN-transduced cells. Although HES-1 induced a partial block in B-cell development,it did not inhibit monocyte development and did not promote T/NK-cell-lineage differentiation. On the contrary,a higher percentage of HES-1-transduced stem cells remained CD34+. These experiments indicate that HES-1 alone is not able to substitute for Notch-1 signaling to induce T-cell differentiation of human CD34+ hematopoietic stem cells. View Publication

Anemia due to chronic disease or chemotherapy often is ameliorated by erythropoietin (Epo). Present studies reveal that,unlike steady-state erythropoiesis,erythropoiesis during anemia depends sharply on an Epo receptor-phosphotyrosine-343-Stat5 signaling axis. In mice expressing a phosphotyrosine-null (PY-null) Epo receptor allele (EpoR-HM),severe and persistent anemia was induced by hemolysis or 5-fluorouracil. In short-term transplantation experiments,donor EpoR-HM bone marrow cells also failed to efficiently repopulate the erythroid compartment. In each context,stress erythropoiesis was rescued to WT levels upon the selective restoration of an EpoR PY343 Stat5-binding site (EpoR-H allele). As studied using a unique primary culture system,EpoR-HM erythroblasts exhibited marked stage-specific losses in Epo-dependent growth and survival. EpoR-H PY343 signals restored efficient erythroblast expansion,and the selective Epo induction of the Stat5 target genes proviral integration site-1 (Pim-1) and oncostatin-M. Bcl2-like 1 (Bcl-x),in contrast,was not significantly induced via WT-EpoR,EpoR-HM,or EpoR-H alleles. In Kit+ CD71+ erythroblasts,EpoR-PY343 signals furthermore enhanced SCF growth effects,and SCF modulation of Pim-1 kinase and oncostatin-M expression. In maturing Kit- CD71+ erythroblasts,oncostatin-M exerted antiapoptotic effects that likewise depended on EpoR PY343-mediated events. Stress erythropoiesis,therefore,requires stage-specific EpoR-PY343-Stat5 signals,some of which selectively bolster SCF and oncostatin-M action. View Publication

Hematopoietic stem cells are resistant to HIV-1 infection. Here,we report a novel mechanism by which the cyclin-dependent kinase inhibitor (CKI) p21(Waf1/Cip1/Sdi1) (p21),a known regulator of stem cell pool size,restricts HIV-1 infection of primitive hematopoietic cells. Modifying p21 expression altered HIV-1 infection prior to changes in cell cycling and was selective for p21 since silencing the related CKIs,p27(Kip1) and p18(INK4C),had no effect on HIV-1. We show that p21 blocked viral infection by complexing with HIV-1 integrase and aborting chromosomal integration. A closely related lentivirus with a distinct integrase,SIVmac-251,and the other cell-intrinsic inhibitors of HIV-1,Trim5alpha,PML,Murr1,and IFN-alpha,were unaffected by p21. Therefore,p21 is an endogenous cellular component in stem cells that provides a unique molecular barrier to HIV-1 infection and may explain how these cells remain an uninfected sanctuary" in HIV disease." View Publication

Differentiation of totipotent mouse embryonic stem (ES) cells to various lymphohematopoietic cells is an in vitro model of the hematopoietic cell development during embryogenesis. To understand this process at cellular levels,differentiation intermediates were investigated. ES cells generated progeny expressing CD34,which was significantly enhanced by vascular endothelial growth factor (VEGF). The isolated CD34+ cells were enriched for myeloid colony-forming cells but not significantly for erythroid colony-forming cells. When cultured on OP9 stroma cells in the presence of interleukin-2 and interleukin-7,the CD34+ cells developed two types of B220+ CD34- lymphocytes: CD3- cytotoxic lymphocytes and CD19+ pre-B cells,and such lymphoid potential was highly enriched in the CD34+ population. Interestingly,the cytotoxic cells expressed the natural killer (NK) cell markers,such as NKR-P1,perforin,and granzymes,classified into two types,one of which showed target specificity of NK cells. Thus,ES cells have potential to generate NK-type cytotoxic lymphocytes in vitro in addition to erythro-myeloid cells and pre-B cells,and both myeloid and lymphoid cells seem to be derived from the CD34+ intermediate,on which VEGF may play an important role. View Publication