技术资料

Haematopoietic stem cell (HSC) homeostasis is tightly controlled by growth factors,signalling molecules and transcription factors. Definitive HSCs derived during embryogenesis in the aorta-gonad-mesonephros region subsequently colonize fetal and adult haematopoietic organs. To identify new modulators of HSC formation and homeostasis,a panel of biologically active compounds was screened for effects on stem cell induction in the zebrafish aorta-gonad-mesonephros region. Here,we show that chemicals that enhance prostaglandin (PG) E2 synthesis increased HSC numbers,and those that block prostaglandin synthesis decreased stem cell numbers. The cyclooxygenases responsible for PGE2 synthesis were required for HSC formation. A stable derivative of PGE2 improved kidney marrow recovery following irradiation injury in the adult zebrafish. In murine embryonic stem cell differentiation assays,PGE2 caused amplification of multipotent progenitors. Furthermore,ex vivo exposure to stabilized PGE2 enhanced spleen colony forming units at day 12 post transplant and increased the frequency of long-term repopulating HSCs present in murine bone marrow after limiting dilution competitive transplantation. The conserved role for PGE2 in the regulation of vertebrate HSC homeostasis indicates that modulation of the prostaglandin pathway may facilitate expansion of HSC number for therapeutic purposes. View Publication

Individual variation in fetal hemoglobin (HbF,alpha(2)gamma(2)) response underlies the remarkable diversity in phenotypic severity of sickle cell disease and beta thalassemia. HbF levels and HbF-associated quantitative traits (e.g.,F cell levels) are highly heritable. We have previously mapped a major quantitative trait locus (QTL) controlling F cell levels in an extended Asian-Indian kindred with beta thalassemia to a 1.5-Mb interval on chromosome 6q23,but the causative gene(s) are not known. The QTL encompasses several genes including HBS1L,a member of the GTP-binding protein family that is expressed in erythroid progenitor cells. In this high-resolution association study,we have identified multiple genetic variants within and 5' to HBS1L at 6q23 that are strongly associated with F cell levels in families of Northern European ancestry (P = 10(-75)). The region accounts for 17.6% of the F cell variance in northern Europeans. Although mRNA levels of HBS1L and MYB in erythroid precursors grown in vitro are positively correlated,only HBS1L expression correlates with high F cell alleles. The results support a key role for the HBS1L-related genetic variants in HbF control and illustrate the biological complexity of the mechanism of 6q QTL as a modifier of fetal hemoglobin levels in the beta hemoglobinopathies. View Publication

OBJECTIVE: Studies in pulmonary arteries (PA) of patients with chronic obstructive pulmonary disease (COPD) suggest that bone marrow-derived endothelial progenitor cells (CD133(+)) may infiltrate the intima and differentiate into smooth muscle cells (SMC). This study aimed to evaluate the plasticity of CD133(+) cells to differentiate into SMC and endothelial cells (EC) in both cell culture and human isolated PA. METHODS: Plasticity of granulocyte-colony stimulator factor (G-CSF)-mobilized peripheral blood CD133(+) cells was assessed in co-cultures with primary lines of human PA endothelial cells (PAEC) or SMC (PASMC) and in isolated human PA. We also evaluated if the phenotype of differentiated progenitor cells was acquired by fusion or differentiation. RESULTS: The in vitro studies demonstrated CD133(+) cells may acquire the morphology and phenotype of the cells they were co-cultured with. CD133(+) cells co-incubated with human isolated PA were able to migrate into the intima and differentiate into SMC. Progenitor cell differentiation was produced without fusion with mature cells. CONCLUSIONS: We provide evidence of plasticity of CD133(+) cells to differentiate into both endothelial cells and SMC,reinforcing the idea of their potential role in the remodeling process of PA in COPD. This process was conducted by transdifferentiation and not by cell fusion. View Publication

We have previously shown that coculture of human embryonic stem cells (hESCs) for 14 days with immortalized fetal hepatocytes yields CD34(+) cells that can be expanded in serum-free liquid culture into large numbers of megaloblastic nucleated erythroblasts resembling yolk sac-derived cells. We show here that these primitive erythroblasts undergo a switch in hemoglobin (Hb) composition during late terminal erythroid maturation with the basophilic erythroblasts expressing predominantly Hb Gower I (zeta(2)epsilon(2)) and the orthochromatic erythroblasts hemoglobin Gower II (alpha(2)epsilon(2)). This suggests that the switch from Hb Gower I to Hb Gower II,the first hemoglobin switch in humans is a maturation switch not a lineage switch. We also show that extending the coculture of the hESCs with immortalized fetal hepatocytes to 35 days yields CD34(+) cells that differentiate into more developmentally mature,fetal liver-like erythroblasts,that are smaller,express mostly fetal hemoglobin,and can enucleate. We conclude that hESC-derived erythropoiesis closely mimics early human development because the first 2 human hemoglobin switches are recapitulated,and because yolk sac-like and fetal liver-like cells are sequentially produced. Development of a method that yields erythroid cells with an adult phenotype remains necessary,because the most mature cells that can be produced with current systems express less than 2% adult beta-globin mRNA. View Publication

Definitive hematopoietic stem and progenitor cells (HSCs/Ps) originating from the yolk sac and/or para-aorta-splanchno-pleura/aorta-gonad-mesonephros are hypothesized to colonize the fetal liver,but mechanisms involved are poorly defined. The Rac subfamily of Rho GTPases has been shown to play essential roles in HSC/P localization to the bone marrow following transplantation. Here,we study the role of Rac1 in HSC/P migration during ontogeny and seeding of fetal liver. Using a triple-transgenic approach,we have deleted Rac1 in HSCs/Ps during very early embryonic development. Without Rac1,there was a decrease in circulating HSCs/Ps in the blood of embryonic day (E) 10.5 embryos,while yolk sac definitive hematopoiesis was quantitatively normal. Intraembryonic hematopoiesis was significantly impaired in Rac1-deficient embryos,culminating with absence of intra-aortic clusters and fetal liver hematopoiesis. At E10.5,Rac1-deficient HSCs/Ps displayed decreased transwell migration and impaired inter-action with the microenvironment in migration-dependent assays. These data suggest that Rac1 plays an important role in HSC/P migration during embryonic development and is essential for the emergence of intraembryonic hematopoiesis. View Publication

Human induced pluripotent stem cells (hiPSCs),like embryonic stem cells,are under intense investigation for novel approaches to model disease and for regenerative therapies. Here,we describe the derivation and characterization of hiPSCs from a variety of sources and show that,irrespective of origin or method of reprogramming,hiPSCs can be differentiated on OP9 stroma towards a multi-lineage haemo-endothelial progenitor that can contribute to CD144(+) endothelium,CD235a(+) erythrocytes (myeloid lineage) and CD19(+) B lymphocytes (lymphoid lineage). Within the erythroblast lineage,we were able to demonstrate by single cell analysis (flow cytometry),that hiPSC-derived erythroblasts express alpha globin as previously described,and that a sub-population of these erythroblasts also express haemoglobin F (HbF),indicative of fetal definitive erythropoiesis. More notably however,we were able to demonstrate that a small sub-fraction of HbF positive erythroblasts co-expressed HbA in a highly heterogeneous manner,but analogous to cord blood-derived erythroblasts when cultured using similar methods. Moreover,the HbA expressing erythroblast population could be greatly enhanced (44textperiodcentered0 ± 6textperiodcentered04%) when a defined serum-free approach was employed to isolate a CD31(+) CD45(+) erythro-myeloid progenitor. These findings demonstrate that hiPSCs may represent a useful alternative to standard sources of erythrocytes (RBCs) for future applications in transfusion medicine. View Publication

Fanconi anemia (FA) is an autosomal recessive disorder characterized by progressive bone marrow failure (BMF) during childhood,aside from numerous congenital abnormalities. FA mouse models have been generated; however,they do not fully mimic the hematopoietic phenotype. As there is mounting evidence that the hematopoietic impairment starts already in utero,a human pluripotent stem cell model would constitute a more appropriate system to investigate the mechanisms underlying BMF in FA and its developmental basis. Using zinc finger nuclease (ZFN) technology,we have created a knockout of FANCA in human embryonic stem cells (hESC). We introduced a selection cassette into exon 2 thereby disrupting the FANCA coding sequence and found that whereas mono-allelically targeted cells retain an unaltered proliferation potential,disruption of the second allele causes a severe growth disadvantage. As a result,heterogeneous cultures arise due to the presence of cells still carrying an unaffected FANCA allele,quickly outgrowing the knockout cells. When pure cultures of FANCA knockout hESC are pursued either through selection or single cell cloning,this rapidly results in growth arrest and such cultures cannot be maintained. These data highlight the importance of a functional FA pathway at the pluripotent stem cell stage. ?? 2014. View Publication

Without effective therapy,chronic-phase chronic myeloid leukemia (CP-CML) evolves into an acute leukemia (blast crisis [BC]) that displays either myeloid or B-lymphoid characteristics. This transition is often preceded by a clinically recognized,but biologically poorly characterized,accelerated phase (AP). Here,we report that IKAROS protein is absent or reduced in bone marrow blasts from most CML patients with advanced myeloid disease (AP or BC). This contrasts with primitive CP-CML cells and BCR-ABL1-negative acute myeloid leukemia blasts,which express readily detectable IKAROS. To investigate whether loss of IKAROS contributes to myeloid disease progression in CP-CML,we examined the effects of forced expression of a dominant-negative isoform of IKAROS (IK6) in CP-CML patients' CD34(+) cells. We confirmed that IK6 disrupts IKAROS activity in transduced CP-CML cells and showed that it confers on them features of AP-CML,including a prolonged increased output in vitro and in xenografted mice of primitive cells with an enhanced ability to differentiate into basophils. Expression of IK6 in CD34(+) CP-CML cells also led to activation of signal transducer and activator of transcription 5 and transcriptional repression of its negative regulators. These findings implicate loss of IKAROS as a frequent step and potential diagnostic harbinger of progressive myeloid disease in CML patients. View Publication

Determining how normal and leukemic stem cells behave in vivo,in a dynamic and noninvasive way,remains a major challenge. Most optical tracking technologies rely on the use of fluorescent or bioluminescent reporter genes,which need to be stably expressed in the cells of interest. Because gene transfer in primary leukemia samples represents a major risk to impair their capability to engraft in a xenogenic context,we evaluated the possibility to use gene transfer-free labeling technologies. The lipophilic dye 3,3,3',3' tetramethylindotricarbocyanine iodide (DiR) was selected among 4 near-infrared (NIR) staining technologies. Unfortunately we report here a massive transfer of the dye occurring toward the neighbor cells both in vivo and in vitro. We further demonstrate that all lipophilic dyes tested in this study (1,1'-dioctadecyl-3,3,3',3'-tetramethylindotricarbocyanine perchlorate [DiI],DiD,DiR,and PKH26) can give rise to microenvironmental contamination,including when used in suboptimal concentration,after extensive washing procedures and in the absence of phagocytosis or marked cell death. This was observed from all cell types tested. Eventually,we show that this microenvironmental contamination is mediated by both direct cell-cell contacts and diffusible microparticles. We conclude that tracking of labeled cells using non-genetically encoded markers should always be accompanied by drastic cross validation using multimodality approaches. View Publication

Trib1,Trib2,and Trib3 are mammalian homologs of Tribbles,an evolutionarily conserved Drosophila protein family that mediates protein degradation. Tribbles proteins function as adapters to recruit E3 ubiquitin ligases and enhance ubiquitylation of the target protein to promote its degradation. Increased Trib1 and Trib2 mRNA expression occurs in human myeloid leukemia and induces acute myeloid leukemia in mice,whereas Trib3 has not been associated with leukemia. Given the high degree of structural conservation among Tribbles family members,we directly compared the 3 mammalian Tribbles in hematopoietic cells by reconstituting mice with hematopoietic stem cells retrovirally expressing these proteins. All mice receiving Trib1 or Trib2 transduced hematopoietic stem cells developed acute myeloid leukemia,whereas Trib3 mice did not. Our previous data indicated that Trib2-mediated degradation of the transcription factor,CCAAT/enhancer-binding protein-alpha (C/EBPalpha),is important for leukemogenesis. Similar to Trib2,Trib1 induced C/EBPalpha degradation and inhibited its function. In contrast,Trib3 failed to inactivate or promote efficient degradation of C/EBPalpha. These data reveal that the 3 Tribbles homologs differ in their ability to promote degradation of C/EBPalpha,which account for their differential ability to induce leukemia. View Publication

Umbilical cord blood (CB) represents a main source of circulating endothelial progenitor cells (cEPCs). In view of their clinical use,in either the autologous or allogeneic setting,cEPCs should likely be expanded from CB kept frozen in CB banks. In this study,we compared the expansion,functional features,senescence pattern over culture,and in vivo angiogenic potential of cEPCs isolated from fresh or cryopreserved CB (cryoCB). cEPCs could be isolated in only 59% of cryoCB compared to 94% for fresh CB,while CB units were matched in terms of initial volume,nucleated and CD34(+) cell number. Moreover,the number of endothelial colony-forming cells was significantly decreased when using cryoCB. Once cEPCs culture was established,the proliferation,migration,tube formation,and acetylated-LDL uptake potentials were similar in both groups. In addition,cEPCs derived from cryoCB displayed the same senescence status and telomeres length as that of cEPCs derived from fresh CB. Karyotypic aberrations were found in cells obtained from both fresh and cryoCB. In vivo,in a hind limb ischemia murine model,cEPCs from fresh and cryoCB were equally efficient to induce neovascularization. Thus,cEPCs isolated from cryoCB exhibited similar properties to those of fresh CB in vitro and in vivo. However,the low frequency of cEPCs colony formation after cryopreservation shed light on the need for specific freezing conditions adapted to cEPCs in view of their future clinical use. View Publication

OBJECTIVES: In this study,we hypothesized that an antihuman-CD34 antibody immobilized on the surface of commercially available sirolimus-eluting stents (SES) could enhance re-endothelialization compared with SES alone. BACKGROUND: Previous experience with antihuman-CD34 antibody surface modified Genous stents (GS) (OrbusNeich Medical,Fort Lauderdale,Florida) has shown enhanced stent endothelialization in vivo. METHODS: In the phase 1 study,stents were deployed in 21 pig coronary arteries for single stenting (9 vessels: 3 GS,3 SES,and 3 bare-metal stents) and overlapping stenting with various combinations (12 vessels: 4 GS+GS,4 SES+SES,and 4 GS+SES) and harvested at 14 days for scanning electron and confocal microscopy. In phase 2,immobilized anti-CD34 antibody coating was applied on commercially available SES (SES-anti-CD34,n = 7) and compared with GS (n = 8) and SES (n = 7) and examined at 3 and 14 days by scanning electron/confocal microscopy analysis. RESULTS: In phase 1,single stent implantation showed greatest endothelialization in GS (99%) and in bare-metal stent (99%) compared with SES (55%,p = 0.048). In overlapping stents,endothelialization at the overlapping zone was significantly greater in GS+GS (95 +/- 6%) and GS+SES (79 +/- 5%) compared with the SES+SES (36 +/- 14%) group (p = 0.007). In phase 2,SES-anti-CD34 resulted in increased endothelialization compared with SES alone at 3 days (SES-anti-CD34 36 +/- 26%; SES 7 +/- 3%; and GS 76 +/- 8%; p = 0.01),and 14 days (SES-anti-CD34 82 +/- 8%; SES 53 +/- 20%; and GS 98 +/- 2%; p = 0.009). CONCLUSIONS: Immobilization of anti-CD34 antibody on SES enhances endothelialization and may potentially be an effective therapeutic alternative to improve currently available drug-eluting stents. View Publication