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C J Eaves J D Cashman R J Kay G J Dougherty T Otsuka L A Gaboury D E Hogge P M Lansdorp A C Eaves R K Humphries 《Blood》1991,78(1):110-117
Numerous factors that can influence the proliferation and differentiation in vitro of cells at various stages of hematopoiesis have been identified, but the mechanisms used by stromal cells to regulate the cycling status of the most primitive human hematopoietic cells are still poorly understood. Previous studies of long-term cultures (LTC) of human marrow have suggested that cytokine-induced variations in stromal cell production of one or more stimulators and inhibitors of hematopoiesis may be important. To identify the specific regulators involved, we performed Northern analyses on RNA extracted from human marrow LTC adherent layers, or stromal cell types derived from or related to those present in the adherent layer. These analyses showed marked increases in interleukin-1 beta (IL-1 beta), IL-6, and granulocyte colony-stimulating factor (G-CSF) mRNA levels within 8 hours after treatments that lead to the activation within 2 days of primitive hematopoietic progenitors in such cultures. Increases in granulocyte-macrophage (GM)-CSF and M-CSF mRNA were also sometimes seen. Bioassays using cell lines responsive to G-CSF, GM-CSF, and IL-6 showed significant elevation in growth factor levels 24 hours after IL-1 beta stimulation. Neither IL-3 nor IL-4 mRNA was detectable at any time. In contrast, transforming growth factor-beta (TGF-beta) mRNA and nanogram levels of TGF-beta bioactivity in the medium were detected at all times in established LTC, and these levels were not consistently altered by any of the manipulations that stimulated hematopoietic growth factor production and primitive progenitor cycling. We also found that addition of anti-TGF-beta antibody could prolong or reactivate primitive progenitor proliferation when added to previously stimulated or quiescent cultures, respectively. Together, these results indicate a dominant negative regulatory role of endogenously produced TGF-beta in unperturbed LTC, with activation of primitive hematopoietic cells being achieved by mechanisms that stimulate stromal cells to produce G-CSF, GM-CSF, and IL-6. Given the similarities between the LTC system and the marrow microenvironment, it seems likely that the control of human stem cell activation in vivo may involve similar variations in the production of these factors by stromal cells. 相似文献
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Self-renewal of primitive human hematopoietic cells (long-term-culture-initiating cells) in vitro and their expansion in defined medium. 总被引:17,自引:1,他引:17
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A L Petzer D E Hogge P M Landsdorp D S Reid C J Eaves 《Proceedings of the National Academy of Sciences of the United States of America》1996,93(4):1470-1474
A major goal of experimental and clinical hematology is the identification of mechanisms and conditions that support the expansion of transplantable hematopoietic stem cells. In normal marrow, such cells appear to be identical to (or represent a subset of) a population referred to as long-term-culture-initiating cells (LTC-ICs) so-named because of their ability to produce colony-forming cell (CFC) progeny for > or = 5 weeks when cocultured with stromal fibroblasts. Some expansion of LTC-ICs in vitro has recently been described, but identification of the factors required and whether LTC-IC self-renewal divisions are involved have remained unresolved issues. To address these issues, we examined the maintenance and/or generation of LTC-ICs from single CD34+ CD38- cells cultured for variable periods under different culture conditions. Analysis of the progeny obtained from cultures containing a feeder layer of murine fibroblasts engineered to produce steel factor, interleukin (IL)-3, and granulocyte colony-stimulating factor showed that approximately 20% of the input LTC-ICs (representing approximately 2% of the original CD34+ CD38- cells) executed self-renewal divisions within a 6-week period. Incubation of the same CD34+ CD38- starting populations as single cells in a defined (serum free) liquid medium supplemented with Flt-3 ligand, steel factor, IL-3, IL-6, granulocyte colony-stimulating factor, and nerve growth factor resulted in the proliferation of initial cells to produce clones of from 4 to 1000 cells within 10 days, approximately 40% of which included > or = 1 LTC-IC. In contrast, in similar cultures containing methylcellulose, input LTC-ICs appeared to persist but not divide. Overall the LTC-IC expansion in the liquid cultures was 30-fold in the first 10 days and 50-fold by the end of another 1-3 weeks. Documentation of human LTC-IC self-renewal in vitro and identification of defined conditions that permit their extensive and rapid amplification should facilitate analysis of the molecular mechanisms underlying these processes and their exploitation for a variety of therapeutic applications. 相似文献
59.
Proliferation of totipotent hematopoietic stem cells in vitro with retention of long-term competitive in vivo reconstituting ability.
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C C Fraser S J Szilvassy C J Eaves R K Humphries 《Proceedings of the National Academy of Sciences of the United States of America》1992,89(5):1968-1972
Marrow cells from male mice pretreated with 5-fluorouracil were infected with helper-free neomycin-resistant (neor) recombinant retrovirus and then used to initiate long-term cultures (LTC) on irradiated adherent marrow feeder layers. Four weeks later LTC cells were harvested and injected into lethally irradiated female recipients either alone or together with 2 x 10(5) female marrow cells with selectively compromised long-term repopulating potential to assay for totipotent and competitive repopulating units (CRU), respectively. A total of 46 unique clones were detected in recipients 5 wk to 7 mo after transplant. Half of these clones (22 of 46) included both lymphoid and myeloid progeny. Eight of the 22 lympho-myeloid clones were represented in multiple recipients, in some cases after injection of limiting numbers of CRU, thus indicating repopulation from sibling totipotent stem cells generated during the initial 4-wk period in LTC. Serial analysis of cells released into the nonadherent fraction of LTC for up to 7 wk provided additional evidence of the continuing proliferation in LTC of totipotent stem cells with long-term repopulating potential. The frequency of CRU determined from limiting-dilution analyses of LTC-derived cells was the same for recipients analyzed at 5 wk or 7 mo after transplantation and was also the same whether marrow or thymus repopulation was assessed. These assays showed that concurrent with the expansion of some totipotent cells revealed by retroviral marking, there was a slow but net 6.5-fold decrease in total CRU numbers after 4 wk in LTC. These results show the capacity of some totipotent hematopoietic stem cells to be maintained and amplified over extensive time periods in vitro without diminution of their long-term in vivo repopulating potential. These results also set the stage for analogous studies of human stem cell selection and expansion in vitro, which may be important for future gene therapy protocols. 相似文献
60.
Rapid decline of chronic myeloid leukemic cells in long-term culture due to a defect at the leukemic stem cell level. 总被引:9,自引:0,他引:9
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C Udomsakdi C J Eaves B Swolin D S Reid M J Barnett A C Eaves 《Proceedings of the National Academy of Sciences of the United States of America》1992,89(13):6192-6196
In this report we describe a quantitative in vitro assay for the most primitive type of leukemic precursors yet defined in patients with chronic myeloid leukemia (CML). This assay is based on the recently described "long-term culture-initiating cell" (LTC-IC) assay for primitive normal human hematopoietic cells. Such cells, when cocultured with competent fibroblast feeder layers, give rise after a minimum of 5 weeks to multiple single and multilineage clonogenic progenitors detectable in secondary semisolid assay cultures. Similar cultures initiated by seeding a highly enriched source of leukemic cells from patients onto normal feeders showed the clonogenic cell output after 5 weeks to be linearly related to the input innoculum over a wide range down to limiting numbers of input cells, thus allowing absolute frequencies of leukemic LTC-ICs to be determined using standard limiting dilution analysis techniques. Leukemic LTC-IC concentrations in CML marrow were found to be decreased, on average to less than 10% of the normal LTC-IC concentration in normal marrow, but were greatly increased (up to greater than 10(5) times) in CML blood. Assessment of the number of clonogenic cells produced per leukemic LTC-IC by comparison to normal blood or marrow LTC-IC values showed this function to be unchanged in leukemic LTC-ICs [i.e., 3.1 +/- 0.4 clonogenic cells per CML LTC-IC (mean +/- SEM, n = 6) versus 3.7 +/- 1.2 (n = 3) and 4.3 +/- 0.4 (n = 5), respectively, for normal blood and marrow LTC-ICs]. In contrast, leukemic LTC-IC maintenance in LTC proved to be highly defective by comparison to normal LTC-IC of either blood or marrow origin. Thus, when cells from primary LTC were subcultured into secondary LTC-IC assays, leukemic LTC-IC rapidly declined (greater than 30-fold) within the first 10 days of culture, whereas normal LTC-IC numbers remained unchanged during this period. These findings illustrate how self-maintenance and differentiation events in primitive human hematopoietic cells can be differentially modulated by an oncogenic process and provide a framework for further studies of their manipulation, analysis, and therapeutic exploitation. 相似文献