技术资料

Progressive bone marrow failure is a major cause of morbidity and mortality in human Fanconi Anemia patients. In an effort to develop a Fanconi Anemia murine model to study bone marrow failure,we found that Fancd2(-/-) mice have readily measurable hematopoietic defects. Fancd2 deficiency was associated with a significant decline in the size of the c-Kit(+)Sca-1(+)Lineage(-) (KSL) pool and reduced stem cell repopulation and spleen colony-forming capacity. Fancd2(-/-) KSL cells showed an abnormal cell cycle status and loss of quiescence. In addition,the supportive function of the marrow microenvironment was compromised in Fancd2(-/-) mice. Treatment with Sirt1-mimetic and the antioxidant drug,resveratrol,maintained Fancd2(-/-) KSL cells in quiescence,improved the marrow microenvironment,partially corrected the abnormal cell cycle status,and significantly improved the spleen colony-forming capacity of Fancd2(-/-) bone marrow cells. We conclude that Fancd2(-/-) mice have readily quantifiable hematopoietic defects,and that this model is well suited for pharmacologic screening studies. View Publication

CONTEXT: The osteoanabolic properties of PTH may be due to increases in the number and maturity of circulating osteogenic cells. Hypoparathyroidism is a useful clinical model because this hypothesis can be tested by administering PTH. OBJECTIVE: The objective of the study was to characterize circulating osteogenic cells in hypoparathyroid subjects during 12 months of PTH (1-84) administration. DESIGN: Osteogenic cells were characterized using flow cytometry and antibodies against osteocalcin,an osteoblast-specific protein product,and stem cell markers CD34 and CD146. Changes in bone formation from biochemical markers and quadruple-labeled transiliac crest bone biopsies (0 and 3 month time points) were correlated with measurements of circulating osteogenic cells. SETTING: The study was conducted at a clinical research center. PATIENTS: Nineteen control and 19 hypoparathyroid patients were included in the study. INTERVENTION: Intervention included the administration of PTH (1-84). RESULTS: Osteocalcin-positive cells were lower in hypoparathyroid subjects than controls (0.7 ± 0.1 vs. 2.0 ± 0.1%; P textless 0.0001),with greater coexpression of the early cell markers CD34 and CD146 among the osteocalcin-positive cells in the hypoparathyroid subjects (11.0 ± 1.0 vs. 5.6 ± 0.7%; P textless 0.001). With PTH (1-84) administration,the number of osteogenic cells increased 3-fold (P textless 0.0001),whereas the coexpression of the early cell markers CD34 and CD146 decreased. Increases in osteogenic cells correlated with circulating and histomorphometric indices of osteoblast function: N-terminal propeptide of type I procollagen (R(2) = 0.4,P ≤ 0.001),bone-specific alkaline phosphatase (R(2) = 0.3,P textless 0.001),osteocalcin (R(2) = 0.4,P textless 0.001),mineralized perimeter (R(2) = 0.5,P textless 0.001),mineral apposition rate (R(2) = 0.4,P = 0.003),and bone formation rate (R(2) = 0.5,P textless 0.001). CONCLUSIONS: It is likely that PTH stimulates bone formation by stimulating osteoblast development and maturation. Correlations between circulating osteogenic cells and histomorphometric indices of bone formation establish that osteoblast activity is being identified by this methodology. View Publication

For human embryonic stem cells (ESC) to be used in cell replacement therapies,they must be grown under good manufacturing conditions in a chemically defined medium that lacks animal proteins. This study examined the ability of a newly designed medium containing the plant-derived serum replacement VegetaCell and other reagents of human origin to support undifferentiated growth and pluripotency of human ESC. This medium was tested in several culture systems,using human fibroblasts as a feeder layer or Matrigel in a feeder-free culture. Even under the most stringent feeder-free conditions without conditioned medium,human ESC exhibited an undifferentiated morphology,expressed markers of undifferentiated cells,demonstrated high alkaline phosphatase activity and multilineage differentiation and retained a normal karyotype. Compared with human ESC grown in standard culture conditions,human ESC maintained in humanized VegetaCell medium show longer cell cycles and decreased cell death. The availability of an animal protein-free medium supplemented with the low-cost VegetaCell reagent expands the repertoire of media for culturing human ESC as well as induced pluripotent stem cells for drug testing and cell replacement therapy. View Publication

Mesenchymal stem cells (MSCs) are fibroblast-like multipotent stem cells that can differentiate into cell types of mesenchymal origin. Because of their immune properties and differentiation,potential MSCs are discussed for the use in tissue regeneration and tolerance induction in transplant medicine. This cell type can easily be obtained from the umbilical cord tissue (UCMSC) without medical intervention. Standard culture conditions include fetal bovine serum (FBS) which may not be approved for clinical settings. Here,we analyzed the phenotypic and functional properties of UCMSC under xeno-free (XF,containing GMP-certified human serum) and serum-free (SF) culture conditions in comparison with standard UCMSC cultures. Phenotypically,UCMSC showed no differences in the expression of mesenchymal markers or differentiation capacity. Functionally,XF and SF-cultured UCMSC have comparable adipogenic,osteogenic,and endothelial differentiation potential. Interestingly,the UCMSC-mediated suppression of T cell proliferation in an allogeneic mixed lymphocyte reaction (MLR) is more effective in XF and SF media than in standard FBS-containing cultures. Regarding the mechanism of action of MLR suppression,transwell experiments revealed that in neither UCMSC culture a direct cell-cell contact is necessary for inhibiting T cell proliferation,and that the major effector molecule is prostaglandin E₂ (PGE₂). Taken together,GMP-compliant growth media qualify for long-term cultures of UCMSC which is important for a future clinical study design in regenerative and transplant medicine. View Publication

Mucopolysaccharidosis type I (MPS IH; Hurler syndrome) is a congenital deficiency of α-L-iduronidase,leading to lysosomal storage of glycosaminoglycans that is ultimately fatal following an insidious onset after birth. Hematopoietic cell transplantation (HCT) is a life-saving measure in MPS IH. However,because a suitable hematopoietic donor is not found for everyone,because HCT is associated with significant morbidity and mortality,and because there is no known benefit of immune reaction between the host and the donor cells in MPS IH,gene-corrected autologous stem cells may be the ideal graft for HCT. Thus,we generated induced pluripotent stem cells from 2 patients with MPS IH (MPS-iPS cells). We found that α-L-iduronidase was not required for stem cell renewal,and that MPS-iPS cells showed lysosomal storage characteristic of MPS IH and could be differentiated to both hematopoietic and nonhematopoietic cells. The specific epigenetic profile associated with de-differentiation of MPS IH fibroblasts into MPS-iPS cells was maintained when MPS-iPS cells are gene-corrected with virally delivered α-L-iduronidase. These data underscore the potential of MPS-iPS cells to generate autologous hematopoietic grafts devoid of immunologic complications of allogeneic transplantation,as well as generating nonhematopoietic cells with the potential to treat anatomical sites not fully corrected with HCT. View Publication

Human embryonic stem cells (hESCs) are pluripotent cells derived from the embryo at the blastocyst stage. Their embryonic origin confers upon them the capacity to proliferate indefinitely in vitro while maintaining the capacity to differentiate into a large variety of cell types. Based on these properties of self-renewal and pluripotency,hESCs represent a unique source to generate a large quantity of certain specialized cell types with clinical interest for transplantation-based therapy. However,hESCs are usually grown in culture conditions using fetal bovine serum and mouse embryonic fibroblasts,two components that are not compatible with clinical applications. Consequently,the possibility to expand hESCs in serum-free and in feeder-free culture conditions is becoming a major challenge to deliver the clinical promises of hESCs. Here,we describe the basic principles of growing hESCs in a chemically defined medium (CDM) devoid of serum and feeders. View Publication

OBJECTIVE: To explore the effects of anti-CD44 monoclonal antibody-IM7 on the in vitro adhesion and migration of chronic myeloid leukemia stem cell (CML-LSC) and its mechanism. METHODS: CD34(+)CD38(-)CD123(+) leukemic stem cells (LSC) from 20 newly-diagnosed chronic myeloid leukemia (CML) patients BM cells and CD34(+)CD38(-) hematopoietic stem cells (HSC) from 20 full-term newborn cord blood cells were isolated with EasySep(TM) magnet beads. The CD44 expression of the LSC and HSC was detected by flow cytometry (FCM),and the adhesion and migration ability of the LSC and HSC pre- and post-incubated with IM7 in vitro by MTT assay and transendothelial migration assay,respectively. RESULTS: (1) After incubated with IM7,the LSC and HSC CD44 expression rates were (86.60 ± 2.10)% vs. (25.40 ± 1.70)% (P textless 0.05),respectively. (2) The adhesive ability of the LSC to endothelial cells was decreased markedly after incubated with IM7,the OD value (A(570)) changing from pre-incubation of (0.62 ± 0.11) to post-incubation of (0.34 ± 0.07),while there was little change of A(570) in the HSC group. (3) The migration ability of the LSC group was inhibited evidently after incubated with IM7,the inhibition rate being 46% ∼ 63%,while little change of that in HSC group was detected. (4) The adhesive ability of the LSC group to marrow stromal cells was decreased markedly after incubated with IM7,while little change was found in that of HSC group. CONCLUSION: The anti-CD44 monoclonal antibody-IM7 can effectively inhibit the adhesion and migration abilities of the LSC in vitro,which might provide a theoretical evidence for targeting therapy. View Publication

Recessive dystrophic epidermolysis bullosa (RDEB) is an inherited blistering skin disorder caused by mutations in the COL7A1 gene-encoding type VII collagen (Col7),the major component of anchoring fibrils at the dermal-epidermal junction. Individuals with RDEB develop painful blisters and mucosal erosions,and currently,there are no effective forms of therapy. Nevertheless,some advances in patient therapy are being made,and cell-based therapies with mesenchymal and hematopoietic cells have shown promise in early clinical trials. To establish a foundation for personalized,gene-corrected,patient-specific cell transfer,we generated induced pluripotent stem (iPS) cells from three subjects with RDEB (RDEB iPS cells). We found that Col7 was not required for stem cell renewal and that RDEB iPS cells could be differentiated into both hematopoietic and nonhematopoietic lineages. The specific epigenetic profile associated with de-differentiation of RDEB fibroblasts and keratinocytes into RDEB iPS cells was similar to that observed in wild-type (WT) iPS cells. Importantly,human WT and RDEB iPS cells differentiated in vivo into structures resembling the skin. Gene-corrected RDEB iPS cells expressed Col7. These data identify the potential of RDEB iPS cells to generate autologous hematopoietic grafts and skin cells with the inherent capacity to treat skin and mucosal erosions that typify this genodermatosis. View Publication

The ectopic expression of transcription factors can reprogram differentiated tissue cells into induced pluripotent stem cells. However,this is a slow and inefficient process,depending on the simultaneous delivery of multiple genes encoding essential reprogramming factors and on their sustained expression in target cells. Moreover,once cell reprogramming is accomplished,these exogenous reprogramming factors should be replaced with their endogenous counterparts for establishing autoregulated pluripotency. Complete and designed removal of the exogenous genes from the reprogrammed cells would be an ideal option for satisfying this latter requisite as well as for minimizing the risk of malignant cell transformation. However,no single gene delivery/expression system has ever been equipped with these contradictory characteristics. Here we report the development of a novel replication-defective and persistent Sendai virus (SeVdp) vector based on a noncytopathic variant virus,which fulfills all of these requirements for cell reprogramming. The SeVdp vector could accommodate up to four exogenous genes,deliver them efficiently into various mammalian cells (including primary tissue cells and human hematopoietic stem cells) and express them stably in the cytoplasm at a prefixed balance. Furthermore,interfering with viral transcription/replication using siRNA could erase the genomic RNA of SeVdp vector from the target cells quickly and thoroughly. A SeVdp vector installed with Oct4/Sox2/Klf4/c-Myc could reprogram mouse primary fibroblasts quite efficiently; ∼1% of the cells were reprogrammed to Nanog-positive induced pluripotent stem cells without chromosomal gene integration. Thus,this SeVdp vector has potential as a tool for advanced cell reprogramming and for stem cell research. View Publication

Compared to bone marrow (BM) derived mesenchymal stem cells (MSCs) from human origin or from other species,the in vitro expansion and purification of murine MSCs (mMSCs) is much more difficult because of the low MSC yield and the unwanted growth of non-MSCs in the in vitro expansion cultures. We describe a modified protocol to isolate and expand murine BM derived MSCs based on the combination of mechanical crushing and collagenase digestion at the moment of harvest,followed by an immunodepletion step using microbeads coated with CD11b,CD45 and CD34 antibodies. The number of isolated mMSCs as estimated by colony forming unit-fibroblast (CFU-F) assay showed that this modified isolation method could yield 70.0% more primary colonies. After immunodepletion,a homogenous mMSC population could already be obtained after two passages. Immunodepleted mMSCs (ID-mMSCs) are uniformly positive for stem cell antigen-1 (Sca-1),CD90,CD105 and CD73 cell surface markers,but negative for the hematopoietic surface markers CD14,CD34 and CD45. Moreover the immunodepleted cell population exhibits more differentiation potential into adipogenic,osteogenic and chondrogenic lineages. Our data illustrate the development of an efficient and reliable expansion protocol increasing the yield and purity of mMSCs and reducing the overall expansion time. View Publication

A major goal of stem-cell research is to identify conditions that reliably regulate their differentiation into specific cell types. This goal is particularly important for human stem cells if they are to be used for in vivo transplantation or as a platform for drug development. Here we describe the establishment of procedures to direct the differentiation of human embryonic stem cells and human induced pluripotent stem cells into forebrain neurons that are capable of forming synaptic connections. In addition,HEK293T cells expressing Neuroligin (NLGN) 3 and NLGN4,but not those containing autism-associated mutations,are able to induce presynaptic differentiation in human induced pluripotent stem cell-derived neurons. We show that a mutant NLGN4 containing an in-frame deletion is unable to localize correctly to the cell surface when overexpressed and fails to enhance synapse formation in human induced pluripotent stem cell-derived neurons. These findings establish human pluripotent stem cell-derived neurons as a viable model for the study of synaptic differentiation and function under normal and disorder-associated conditions. View Publication

The cancer testis antigen (CTA) preferentially expressed antigen of melanoma (PRAME) is overexpressed by many hematologic malignancies,but is absent on normal tissues,including hematopoietic progenitor cells,and may therefore be an appropriate candidate for T cell-mediated immunotherapy. Because it is likely that an effective antitumor response will require high-avidity,PRAME-specific cytotoxic T lymphocytes (CTLs),we attempted to generate such CTLs using professional and artificial antigen-presenting cells loaded with a peptide library spanning the entire PRAME protein and consisting of 125 synthetic pentadecapeptides overlapping by 11 amino acids. We successfully generated polyclonal,PRAME-specific CTL lines and elicited high-avidity CTLs,with a high proportion of cells recognizing a previously uninvestigated HLA-A*02-restricted epitope,P435-9mer (NLTHVLYPV). These PRAME-CTLs could be generated both from normal donors and from subjects with PRAME(+) hematologic malignancies. The cytotoxic activity of our PRAME-specific CTLs was directed not only against leukemic blasts,but also against leukemic progenitor cells as assessed by colony-forming-inhibition assays,which have been implicated in leukemia relapse. These PRAME-directed CTLs did not affect normal hematopoietic progenitors,indicating that this approach may be of value for immunotherapy of PRAME(+) hematologic malignancies. View Publication