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1.
The cell surface phenotype of pluripotent hemopoietic stem cells (CFU-S) and committed progenitors (CFU-C1, CFU-C2, BFU-E) of mouse bone marrow was analyzed with respect to their binding of wheat germ agglutinin (WGA) and two monoclonal antibodies, anti-GM-1.2 and anti-PGP-1. Stained cells were fractionated on the basis of differences in fluorescence and light scatter intensity using a light-activated cell sorter. The 6% of the cells that bound most WGA and that also had a relatively high forward light scatter (FLS) and low perpendicular light scatter (PLS) contained nearly all stem cells (CFU-S) and progenitors. Anti-GM-1.2 stained only mature myeloid cells, not CFU-S or the in vitro colony-forming cells. Anti-PGP-1 stained all bone marrow cells in varying intensities: lymphoid cells were dull, CFU-S were intermediate, CFU-C2 were brighter, and mature myeloid cells very bright. Enrichment of progenitor cells was performed by a two-step sorting procedure. First, the 6% most WGA-binding cells with high FLS and low PLS were sorted out. A 10-15-fold enrichment of progenitors and CFU-S was obtained. Next, these cells were restained with anti-GM-1.2 or anti-PGP-1 and again fractionated on the FACS. The GM-1.2-negative cells were then another four- to sevenfold more enriched for stem cells and progenitors. Of the cells in this fraction, 95% could be assigned to a colony-forming unit. With anti-PGP-1, CFU-C2 could be partly separated from more early cells such as CFU-S and BFU-E.  相似文献   

2.
Summary In mice, persisting radiation-induced growth retardation of hematopoietic tissue suggested that at least part of the surviving stem cells are genetically injured. Additional mitotic stress some time after the radiation insult might remove injured stem cells, thus improving the overall recovery of the irradiated bone marrow.Mice were treated with 5 Gy whole-body gamma irradiation. Two weeks later half of the animals were injected i.v. with 150 mg/kg 5-fluorouracil (5-FU), the other half remained untreated (5 Gy-controls). 2 or 10 weeks later, femoral cellularity and CFU-S content, proliferation ability of transplanted bone marrow and the compartment ratio (CR; ratio of splenic IUdR incorporation at day 3 and number of CFU-S transfused) were determined.Four weeks after 5 Gy and 2 weeks after 5-FU treatment all parameters showed significant impairment of recovery. 12 weeks after 5 Gy and 10 weeks after 5-FU CFU-S and CR were still reduced compared to the 5 Gy-controls. 5-FU treatment of unirradiated mice did not produce permanent effects on the quality of stem cells or the hematopoietic microenvironment. It is concluded, therefore, that an increased proliferation stimulus does not aid in the removal of injured CFU-S and may even impair recovery of bone marrow functions by increasing the proportion of genetically injured stem cells which continue proliferation.Dedicated to Prof. L.E. Feinendegen on the occasion of his 60th birthday  相似文献   

3.
胡晓棠  徐有恒 《生理学报》1989,41(3):278-283
正常情况下处于S期的CFU-S比例低于10%。氨甲酰胆碱(Cach 10~(-13)—10~(-9)mol/L)和Impromidine(Impro 10~(-9)—10~(-4)mol/L)在体外与小鼠骨髓细胞短时培育后,增加了CFU-S对细胞毒剂羟基脲的敏感性。反应最大时,9d和13dCFU-S的减少率分别是32.8和60.6%(Cach)以及38.4和49.5%(Impro)。这种效应可分别被胆碱能N受体阻断剂筒箭毒(10~(-6)mol/L)和组胺H_2受体阻断剂甲氰咪呱(10~(-6)mol/L)所阻断,表明9d和13d CFU-S表面胆碱能N受体和组胺H_2受体的密度或活性存在差别,再次证实了CFU-S是一个不均一的细胞群。  相似文献   

4.
Hematopoietic stem cells interact with a complex microenvironment both in vivo and in vitro. In association with this microenvironment, murine stem cells are maintained in vitro for several months. Fibroblast-like stromal cells appear to be important components of the microenvironment, since several laboratories have demonstrated that cloned stromal cell lines support hematopoiesis in vitro. The importance of the tissue of origin of such cell lines remains unknown, since systematic generation of stromal cell lines from adult tissues has never been accomplished. In addition, the capacity of stromal cell lines to support reconstituting stem cell has not been examined. We have previously described an efficient and rapid method for the immortalization of primary bone marrow stromal cell lines (Williams et al., Mol. Cell. Biol. 8:3864-3871, 1988) which can be used to systematically derive cell lines from multiple tissues of the adult mouse. Here we report the immortalization of primary murine lung, kidney, skin, and bone marrow stromal cells using a recombinant retrovirus vector (U19-5) containing the simian virus large T antigen (SV40 LT) and the neophosphotransferase gene. The interaction of these stromal cells with factor-dependent cells Patterson-Mix (FDCP-Mix), colony forming units-spleen (CFU-S), and reconstituting hematopoietic stem cells was studied in order to analyze the ability of such lines to support multipotent stem cells in vitro. These studies revealed that stromal cell lines from these diverse tissues were morphologically and phenotypically similar and that they quantitatively bound CFU-S and FDCP-Mix cells equally well. However, only those cell lines derived from bone marrow-supported maintenance of day 12 CFU-S in vitro. One lung-derived stromal cell line, ULU-3, supported the survival of day 8 CFU-S, but not the more primitive CFU-S12. A bone marrow-derived stromal cell line, U2, supported the survival of long-term reconstituting stem cells for up to 3 weeks in vitro as assayed by reconstitution 1 year post-transplant. These studies suggest that adherence of HSC to stromal cells is necessary but not sufficient for maintenance of these stem cell populations and that bone marrow provides specific signals relating to hematopoietic stem cell survival and proliferation.  相似文献   

5.
Results of this study showed that lymphocytic choriomeningitis virus infection causes a marked activation of natural killer (NK) cells not only in the spleen but also in the bone marrow. This activity reached its peak at about day 3 of infection and declined after days 6 to 7. Enhanced NK cell activity was found to correlate with decreased receptivity for syngeneic stem cells in bone marrow and spleen, with the notable exception that decreased receptivity persisted longer in bone marrow. Treatment of infected recipients with anti-asialo GM1 (ganglio-N-tetraosylceramide) significantly increased the receptivity for syngeneic hemopoietic cells. These findings are consistent with the hypothesis that NK cell activation causes rejection of syngeneic stem cells, thus resulting in hemopoietic depression. To understand the mechanisms behind the prolonged decrease in bone marrow receptivity (and bone marrow function in the intact mouse) mentioned above, we followed the changes in the number of pluripotential stem cells (CFU-S) circulating in the peripheral blood and in endogenous spleen colonies in irradiated mice, the limbs of which were partially shielded. It was found that following a marked early decline, both parameters increased to normal or supranormal levels at about day 9 after infection. Because the bone marrow pool of CFU-S is only about 20% of normal at this time after infection, a marked tendency for CFU-S at this stage in the infection to migrate from the bone marrow to the spleen is suggested. It seems, therefore, that as NK cell activity declines, the spleen regains the ability to support growth of hemopoietic cells and the bone marrow resumes an elevated export of stem cells to the spleen. This diversion of hemopoiesis could explain both the long-standing deficiencies of the bone marrow compartment and the prolonged decrease in the receptivity of this organ.  相似文献   

6.
The galactosylsphingosine psychosine (Psy) is one of the sphingolipids and induce the formation of multinuclear cells in several cell lines by inhibiting cytokinesis. In the present report, we show that intracellular organelles, including wheat germ agglutinin (WGA)-positive vesicles and early endosomes, are selectively dispersed by Psy. WGA is a conventional Golgi marker and WGA-positive vesicles appeared to co-localize with the Golgi apparatus in untreated cells. Psy treatment induced the dispersal of WGA-positive vesicles without affecting the structure of the Golgi apparatus, resulting in discrimination of WGA-positive vesicles from the Golgi apparatus. In sharp contrast to this effect of Psy, WGA-positive vesicles were not affected by brefeldin A treatment, which induced the disappearance of the Golgi apparatus. Immunostaining with anti-TGN46 antibodies revealed that a large portion of the WGA-positive vesicles were derived from the trans-Golgi network. Notably, the dispersed WGA-positive vesicles did not stain with anti-syntaxin 6, another marker of the trans-Golgi network. During cytokinesis, WGA-positive vesicles in the cytoplasm decreased, and WGA staining accumulated at the cleavage furrow, which was apparently inhibited by the presence of Psy. These data suggest that the transport of WGA-positive vesicles to the cleavage furrow is associated with the progression of cytokinesis.  相似文献   

7.
Summary These studies have addressed firstly the effect of single small doses of x-rays upon murine hematopoietic stem cells to obtain a better estimate of theD q . It is small, of the order of 20 rad.Secondly, a dose fractionation schedule that does not kill or perturb the kinetics of hemopoietic cell proliferation was sought in order to investigate the leukemogenic potential of low level radiation upon an unperturbed hemopoietic system. Doses used by others in past radiation leukemogenesis studies clearly perturb hemopoiesis and kill a detectable fraction of stem cells. The studies reported herein show that 1.25 rad every day decrease the CFU-S content of bone marrow by the time 80 rads are accumulated. Higher daily doses as used in published studies on radiation leukemogenesis produce greater effects.Studies on the effect of 0.5, 1.0, 2.0, and 3.0 rad 3 times per week are under way. Two rad 3 times per week produced a modest decrease in CFU-S content of bone marrow after an accumulation of 68 rad. With 3.0 rad 3 times per week an accumulation of 102 rad produced a significant decrease in CFU-S content of bone marrow. Dose fractionation at 0.5 and 1.0 rad 3 times per week has not produced a CFU-S depression after accumulation of 17 and 34 rad.Radiation leukemogenesis studies published to date have utilized single doses and chronic exposure schedules that probably have significantly perturbed the kinetics of hematopoietic stem cells. Whether radiation will produce leukemia in animal models with dose schedules that do not perturb kinetics of hematopoietic stem cells remains to be seen.Dedicated to Prof. L.E. Feinendegen on the occasion of his 60th birthdayResearch supported by the U.S. Department of Energy under contract DE-ACO2-7 6CH00016. Accordingly, the U.S. government retains a nonexclusive, royalty-free license to publish or reproduce the published form of this contribution, or allow others to do so, for U.S. government purpose  相似文献   

8.
刘存仁  贺福初 《生理学报》1997,49(3):255-260
本文选择Y染色体特异的性别决定基因作为新的细胞遗传标志,采用PCR技术研究了小鼠造血干细胞的增殖与分化性能。将雄鼠骨髓细胞输注给经致死剂量射线照射的雌性受体小鼠、PCR测试结果表明,所有CFU-S均为供体起源。供体来源的CFU-S在其输入体内后,可通过增殖,分化形成各系造血细胞,但CFU-S中的纤维母细胞和CFU-S重建造血后受体小鼠骨髓中的纤维母细胞均为受体起源。由此可见,小鼠骨髓中的CFC-S  相似文献   

9.
A role for T-cells in the regulation of CFU-S proliferation was investigated by determining the presence and activity of CFU-S proliferation stimulator (CFU-S stimulator) in adult mouse bone marrow after irradiation or cyclophosphamide (Cy) treatment. CBA mice previously deprived of T-cells by thymectomy, irradiation and bone marrow reconstitution (TIR) were thereafter treated with 4.5 Gy irradiation or 200 mg/kg Cy. Regenerating bone marrow cells of TIR and corresponding control mice after irradiation or Cy treatment produced CFU-S stimulator. The dose dependent increase in cytosine arabinoside cell death of normal bone marrow day 8 CFU-S was found when both CFU-S stimulators obtained after irradiation of TIR or corresponding control animals were tested. CFU-S stimulator activity in the bone marrow of TIR-Cy treated mice was also detected, but the effect was not dose-dependent. This was not related to the presence of an inhibitor of CFU-S proliferation. It appears that the CFU-S stimulator activity is not related to IL-6, IL-1 or IL-2, or to an inhibitor of IL-6 or IL-1 activity. The results demonstrate the existence of CFU-S proliferation stimulator unrelated to the two major monokines in the bone marrow of immunosuppressed mice.  相似文献   

10.
In order to study a previously described genetic difference manifested in stem cell kinetics of specific mouse strains, effects of this putative gene, stk, were measured on growth and expansion of stem and progenitor cell populations ex vivo. Bone marrow cells from each of two inbred mouse strains, C57BL/6J and DBA/2J, were placed into separate bioreactor cultures perfused continuously with growth medium containing erythropoietin (Epo), interleukin-3 (IL-3), granulocyte-macrphage colony stimulating factor (GM-CSF), and Kit ligand as well as 5% CO2. Expansion of cell numbers reached 20-fold for DBA/2J and 10-fold for C57BL/6J marrow within about 1 week of culture. Significant production was also seen of colonyforming unit (CFU)-GM (up nine-fold from input levels) just prior to the cell production peak, and, importantly, moderate expansion of day 12 colony-forming unit-spleen (CFU-S; two- to threefold) occurred as well, although CFU-S production peaked at a relatively short 4 days. CFU-S and CFU-GM levels declined rapidly in culture, either because of unfavorable growth conditions or terminal differentiation. Attempts to remove toxic metabolites by increasing the media perfusion rate resulted in a boost in cell expansion capability by DBA/2J marrow. In bioreactors in which stromal cells were established before marrow inoculation, there was greater expansion of CFU-S (especially by DBA/2J) and CFU-GM, although total cell yield appeared to be unaffected, perhaps because the maximum cell density had already been reached. The relative high potential for CFU-S expansion measured in DBA/2J marrow over that of C57BL/6J will be useful in following genetic contributions to bone marrow production capacity. © 1995 Wiley-Liss, Inc.  相似文献   

11.
Cyclophosphamide was injected at a dose of 150 mg/kg once to CBA mice and caused expressed hypoplasia of bone marrow hemopoiesis (decreased myelokaryocyte count, CFU-S and CFU-D) from day 1 of the experiment. The rise of CFU-S (8) and CFU-S (12) to a baseline level was noted on day 4 (the time of intensive regeneration processes), whereas CFU-D levels did not change. It is suggested that cytostatic action may trigger "shunt" hemopoiesis mechanisms which enhance differentiation of primitive hemopoietic cells and proliferative activity of mature hemopoietic elements.  相似文献   

12.
M Ogawa  S C Clark 《Blood cells》1988,14(2-3):329-337
Interleukin-6 (Il-6), also known as B cell stimulatory factor 2/interferon beta 2, has been found to support colony formation by murine granulocyte-macrophage progenitors. We have reported that Il-6 also acts synergistically with interleukin-3 (Il-3) in the support of the proliferation of multipotential stem cells in the quiescent, Go phase of the cell cycle. Our serial observations (mapping studies) of the development of blast cell colonies from spleen cells harvested from mice 4 days after the injection of 150 mg/kg 5-fluorouracil revealed that the blast cell colonies appeared earlier in culture in the presence of Il-6 and Il-3 than with either factor alone. Because the combination of factors did not alter the rate of growth of the colony, this effect must result from an early exit from Go. In the human system using purified, My-10+ bone marrow progenitors in a culture system with delayed addition of growth factors, the combination of Il-6 and Il-3 yielded twice as many colonies as did Il-3 alone. The human blast cell colonies also appeared at earlier times when grown in the presence of Il-6 and Il-3 as compared to either factor alone. These results suggested that human Il-6 acts synergistically with Il-3 in the support of the proliferation of human and murine hemopoietic stem cells in Go and that part of the effect appears to be a shortening of the Go residence time of the hemopoietic stem cells.  相似文献   

13.
Diffusible inhibitors and stimulators are involved in the regulation of bone marrow pluripotent stem cell (CFU-S) proliferation. We have previously shown the existence of CFU-S inhibitors in foetal calf marrow and liver and have started their purification. The lack of a simple and time-saving test to determine the kinetic state of CFU-S and the activity of the inhibitors led us to explore the possibility of a biochemical proliferation marker that could be used for screening purpose. Since it was shown that cyclic AMP was implicated in the regulation of CFU-S proliferation, it was of interest to study the variations in cAMP levels after stimulation and inhibition of CFU-S entry into cycle. The results of in vitro experiments showed that the increase in cAMP levels observed in bone marrow cells after incubation with different haemopoietic stimulators was specific neither for bone marrow cells nor for the various haematopoietic regulators. In the in vivo experiments, an increased cAMP level was observed 8 hr after one injection of Ara-C at the time when CFU-S are recruited into S phase. However, no modification of cAMP levels has been observed after injection of CFU-S inhibitors in the Ara-C-treated mice. Although cAMP does not seem to be a suitable marker for testing the activity of inhibitory fractions during the purification process, this work has contributed to the study of CFU-S stimulators.  相似文献   

14.
Mechanisms of haemopoietic stem cell proliferation control   总被引:1,自引:0,他引:1  
The control of stem cell (CFU-S) proliferation is mediated by short-range acting factors which can be detected by the proliferation modifying activities present in media conditioned by haemopoietic cells. A specific inhibitor of stem cell proliferation is obtained from haemopoietic tissue containing minimally proliferating CFU-S, whilst stimulatory material is obtained from cell suspensions containing rapidly proliferating CFU-S. Used competitively, these factors, which are detected in different molecular weight range fractions, manipulate the rate of CFU-S proliferation in a manner compatible with a physiological control mechanism. In addition, a long-term bone marrow culture system has been shown to provide an in vitro model of stem cell control. Fractionation of cell populations from haemopoietic tissues reveals marked concentration differences of the CFU-S proliferation modifying activities depending on the proliferative state of the CFU-S. However, irrespective of whether the tissue contains stem cells that are actively or minimally proliferating, both stimulatory and inhibitory activities are detected. From dose-response studies it is concluded that stem cell proliferation is controlled by an appropriate balance of stimulatory and inhibitory factors which, however, are not produced by the stem cells themselves.  相似文献   

15.
The radioadaptive survival response induced by a conditioning exposure to 0.45 Gy and measured as an increase in 30-day survival after mid-lethal X irradiation was studied in C57BL/6N mice. The acquired radioresistance appeared on day 9 after the conditioning exposure, reached a maximum on days 12-14, and disappeared on day 21. The conditioning exposure 14 days prior to the challenge exposure increased the number of endogenous spleen colonies (CFU-S) on days 12-13 after the exposure to 5 Gy. On day 12 after irradiation, the conditioning exposure also increased the number of endogenous CFU-S to about five times that seen in animals exposed to 4.25-6.75 Gy without preirradiation. The effect of the interval between the preirradiation and the challenge irradiation on the increase in endogenous CFU-S was also examined. A significant increase in endogenous CFU-S was observed when the interval was 14 days, but not 9 days. This result corresponded to the increase in survival observed on day 14 after the challenge irradiation. Radiation-inducted resistance to radiation-induced lethality in mice appears to be closely related to the marked recovery of endogenous CFU-S in the surviving hematopoietic stem cells that acquired radioresistance by preirradiation. Preirradiation enhanced the recovery of the numbers of erythrocytes, leukocytes and thrombocytes very slightly in mice exposed to a sublethal dose of 5 Gy, a dose that does not cause bone marrow death. There appears to be no correlation between the marked increase in endogenous CFU-S and the slight increase or no increase in peripheral blood cells induced by the radioadaptive response. The possible contribution by some factor, such as Il4 or Il11, that has been reported to protect irradiated animals without stimulating hematopoiesis is discussed.  相似文献   

16.
Diffusible inhibitors and stimulators are involved in the regulation of bone marrow pluripotent stem cell (CFU-S) proliferation. We have previously shown the existence of CFU-S inhibitors in foetal calf marrow and liver and have started their purification. the lack of a simple and time-saving test to determine the kinetic state of CFU-S and the activity of the inhibitors led us to explore the possibility of a biochemical proliferation marker that could be used for screening purpose. Since it was shown that cyclic AMP was implicated in the regulation of CFU-S proliferation, it was of interest to study the variations in cAMP levels after stimulation and inhibition of CFU-S entry into cycle. the results of in vitro experiments showed that the increase in cAMP levels observed in bone marrow cells after incubation with different haemopoietic stimulators was specific neither for bone marrow cells nor for the various haematopoietic regulators. In the in vivo experiments, an increased cAMP level was observed 8 hr after one injection of Ara-C at the time when CFU-S are recruited into S phase. However, no modification of cAMP levels has been observed after injection of CFU-S inhibitors in the Ara C-treated mice. Although cAMP does not seem to be a suitable marker for testing the activity of inhibitory fractions during the purification process, this work has contributed to the study of CFU-S stimulators.  相似文献   

17.
In marrow from Sl/Sld mice (but not +/+ mice) day 7 and day 8 CFU-S proliferate whilst day 10 and day 12 CFU-S exhibit negligible proliferation. Media conditioned by both +/+ and Sl/Sld marrow contains an inhibitor of CFU-S proliferation but day 8 CFU-S in +/+ and Sl/Sld marrow show marked dose-response differences to this factor. To inhibit the proliferation of Sl/Sld CFU-S required approximately ten times the concentration of inhibitor that inhibited the proliferation of +/+ CFU-S. Thus abnormally responsive day 8-CFU-S were shown to proliferate in an inhibitory environment. Abnormalities in Sl/Sld CFU-S function were also demonstrated in heterotopic transplantation experiments using +/+ and Sl/Sld donors and hosts to obtain ectopic bone marrow with various stromal (donor) and haemopoietic (host) combinations. Day 8 Sl/Sld CFU-S were seen to proliferate, irrespective of whether the stromal environment was derived from Sl/Sld or +/+ marrow. Sl/Sld mice are generally regarded as animals in which there is a genetically determined defect in haemopoiesis due to an abnormality in the haemopoietic environment. It is difficult, however, to attribute the abnormal CFU-S behaviour in these experiments to environmental factors and the results are consistent with mutation at the Sl locus affecting the responses of CFU-S to regulatory signals, i.e. the genetic defect is not confined to the stromal environment.  相似文献   

18.
Effects of ten day long exposure to gamma-irradiation at low doses (mean dose rate of 1.5-2.0 m Gy/day, total dose of 15 m Gy) on hemopoietic (CFU-S) and stromal (CFU-F) progenitor cells from murine bone marrow were examined. The CFU-F content measured as in vitro fibroblastic colony number showed 1.5-4.5-fold increase. Additionally, the size of ectopic marrow transplants evaluated by counting myelokariocytes and CFU-S numbers also increased. No significant changes of CFU-S proliferation rate were found.  相似文献   

19.
T.M. Dexter  D. Scott  N.M. Teich 《Cell》1977,12(2):355-364
Long-term cultures of proliferating hematopoietic stem cells derived from bone marrow permit the study of the interaction between murine leukemia virus (MuLV) infection and the proliferation and differentiation of stem cells. We have used this system to analyze the replication of different biological variants of MuLV in bone marrow cells; the effect of MuLV infection upon pluripotent stem cell (CFU-S) proliferation; and the effect of MuLV on differentiation of CFU-S along different hematopoietic pathways. Two MuLV variants were studied in detail: the Moloney strain of lymphatic leukemia virus (Mol-MuLV) and the erythroleukemic Friend virus complex (FLV) consisting of the lymphoid leukemia helper virus and the defective spleen focus-forming virus (SFFV). Mol-MuLV and its sarcoma virus pseudotype, MSV(Mol-MuLV), replicate efficiently in the bone marrow cultures; however, CFU-S are lost more readily than in uninfected cultures, and the cultures are soon represented by a majority population of mononuclear macrophages. On the other hand, infection with FLV produces a prolonged survival of the spleen colony-forming cells, CFU-S, and CFU-C (the committed granulocytic precursor cells). Production of erythroleukemogenic SFFV is maintained in these cultures for more than 40 weeks. No erythroblastic differentiation was observed in vitro, however, neither erythroblast precursor cells (CFU-E) nor hemoglobin-producing cells could be detected. This suggests that the target cell for FLV is an earlier precursor cell.  相似文献   

20.
本文采用Y染色体特异的性别决定基因(Sry)作为新的细胞遗传标志,通过PCR技术来追踪观察造血干细胞的增殖与分化性能。该方法具有简便、灵敏和特异等优点。雌性受体小鼠输注雄鼠骨髓细胞和13天脾结节(CFU-S13)细胞后,Sry PCR测试受体小鼠的CFU-S结果表明,它们均为供体来源的XY细胞。用Sry PCR骨髓细胞和骨髓中脾结节生成细胞(CPU-S)的长期重建造血能力,结果表明,在存活雌性小鼠  相似文献   

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