Effects of a murine mammary tumor on in vivo and in vitro hemopoiesis

The effects of an autologous transplanted mammary tumor (RIII-T3) on hemopoiesis in RIII mice are described. Tumor-bearing animals died 30 to 40 days after inoculation and displayed splenomegaly, extreme neutrophilia, and moderately increased monocyte levels in the spleen, peripheral blood, and bone marrow. The precursors of neutrophils and monocytes, granulocyte/macrophage colony-forming cells (GM-CFC) were elevated in the spleen, bone marrow, and peripheral blood. RIII-T3-conditioned medium stimulated bone marrow GM-CFC and caused the myelomonocytic cell line, WEHI-3B, to differentiate in vitro. The conditioned medium did not stimulate erythroid, megakaryocyte, or eosinophil colony formation. When conditioned medium was fractionated, two peaks of activity corresponding to GM-CSF and G-CSF were observed, suggesting that the extreme neutrophilia observed in tumor-bearing animals may result from chronic exposure of the hemopoietic system to these hemopoietic hormones.     

Cellular changes in bone marrow of malaria-infected mice. III. Chemotaxis of granulocytes

The number of bone marrow cells and their chemotactic activity was studied during malaria infection. Two days after infection of Balb/c mice with Plasmodium berghei, an increase in granulocyte number was observed in the blood. A modified Boyden chamber chemotaxis assay was employed to investigate the mechanism of granulocyte accumulation in the blood. Bone marrow cells from normal mice, from mice during a primary lethal infection and from immune mice after challenge were compared. The complement factor C5a showed chemotactic activity for bone marrow cells; a significant decrease of chemotaxis was only observed after 6 days of primary infection. Extracts of spleen, liver and infected erythrocytes lacked chemotactic activity, or caused inhibition of cell migration. Serum from mice with a 2-day primary infection contained chemotactic activity. The active component was heat labile, protease sensitive and had an estimated molecular weight of 250,000.     

Radioprotection of mice with interleukin-1: relationship to the number of erythroid and granulocyte-macrophage colony-forming cells

This report presents the results of an investigation of changes in the number of erythroid and granulocyte-macrophage colony-forming cells (GM-CFC) that had occurred in tissues of normal B6D2F1 mice 20 h after administration of a radioprotective dose (150 ng) of human recombinant interleukin-1 (rIL-1). Neutrophilia in the peripheral blood and changes in the tissue distribution of GM-CFC demonstrated that cells were mobilized from the bone marrow in response to rIL-1 injection. For example, 20 h after rIL-1 injection marrow GM-CFC numbers were 80% of the numbers in bone marrow from saline-injected mice. Associated with this decrease there was a twofold increase in the number of peripheral blood and splenic GM-CFC. Also, as determined by hydroxyurea injection, there was an increase in the number of GM-CFC in S phase of the cell cycle in the spleen, but not in the bone marrow. Data in this report suggest that when compared to the spleen, stimulation of granulopoiesis after rIL-1 injection is delayed in the bone marrow. Also, the earlier recovery of GM-CFC in the bone marrow of irradiated mice is not dependent upon an increase in the number of GM-CFC at the time of irradiation.     

IL-33转基因小鼠骨髓造血干／祖细胞向髓系细胞分化的能力增强

目的：利用IL-33转基因小鼠研究IL-33对造血干/祖细胞的增殖和分化影响。方法利用流式细胞仪分析IL-33转基因小鼠及同窝野生对照小鼠的外周血、脾脏、骨髓细胞的免疫表型及造血干细胞分化不同阶段细胞的数量变化;利用体外成克隆实验和细胞周期分析研究IL-33对于造血干细胞增殖能力的影响。结果与野生型小鼠相比,IL-33转基因小鼠B细胞和T细胞在外周血中都明显降低,粒细胞在外周血和骨髓中都有明显增加;IL-33转基因小鼠的骨髓造血干细胞和多能祖细胞数量减少,共同淋系祖细胞数量减少,共同髓系祖细胞和粒单系祖细胞数量增加;IL-33转基因小鼠的造血干细胞处于S-G2-M的细胞增多;体外单克隆实验发现IL-33转基因小鼠造血干细胞形成的集落数增加。结论 IL-33转基因小鼠造血干细胞增殖能力增强,更易向髓系细胞分化。     

B lymphocyte differentiation in lethally irradiated and reconstituted mice. I. The effect of Strontium-89 induced bone marrow aplasia on the recovery of the B cell compartment in the spleen.

The influence of ⁸⁹Sr-treatment on the recovery of the B cell compartment in lethally irradiated, fetal liver reconstituted mice was studied by means of membrane fluorescence. ⁸⁹Sr is a bone-seeking radio-isotope which causes in a dose of 3 μCi ⁸⁹Sr/g body weight a depletion of all nucleated cells, including immunoglobulin-bearing (B) cells, of the bone marrow.Treatment of irradiated and fetal liver reconstituted mice with 3 μCi ⁸⁹Sr/g body weight immediately and at 17 days after irradiation and reconstitution prevented recovery of the nucleated cell population, including B cells, in the bone marrow. In the spleen of such mice both nucleated cells and B cells reappeared at day 7 and 14 respectively. The B cell population in the spleen did not recover up to normal values during the experimental period of 45 days. It is concluded that B cell differentiation in lethally irradiated, fetal liver reconstituted mice can take place outside the bone marrow. The efficiency of this extra-medullary differentiation is discussed. The conclusion was drawn that mice with a ⁸⁹Sr-induced bone marrow aplasia are able to generate B lymphocytes. Consequently the bone marrow microenvironment seems not to be obligate to the differentiation of B lymphocytes. The peripheral lymphoid organs of such mice were found to be unable to compensate completely for the absence of B lymphocyte production in the bone marrow.     

Effect of fibroblasts from monolayer cultures of hematopoietic and lymphoid tissue on the immune response in vitro]

Stromal fibroblasts from the monolayer cultures of human bone marrow, guinea pig bone marrow, spleen, thymus and peripheral blood suppressed the response of the plagueforming cells against sheep erythrocytes in the suspension cultures of mouse spleen cells. Combined cultivation of 20 X 10(6) fibroblasts from all the mentioned sources led to complete suppression of the immune response. This suppression was less in mice immunized three days before the spleen cell explantation into the suspension cultures and was absent entirely in case the pre-immunization of spleen cell donors was accomplished nine days before the explantation.     

Elimination of porcine hemopoietic cells by macrophages in mice.

The difficulty in achieving donor hemopoietic engraftment across highly disparate xenogeneic species barriers poses a major obstacle to exploring xenograft tolerance induction by mixed chimerism. In this study, we observed that macrophages mediate strong rejection of porcine hemopoietic cells in mice. Depletion of macrophages with medronate-encapsulated liposomes (M-liposomes) markedly improved porcine chimerism, and early chimerism in particular, in sublethally irradiated immunodeficient and lethally irradiated immunocompetent mice. Although porcine chimerism in the peripheral blood and spleen of M-liposome-treated mice rapidly declined after macrophages had recovered and became indistinguishable from controls by wk 5 post-transplant, the levels of chimerism in the marrow of these mice remained higher than those in control recipients at 8 wks after transplant. These results suggest that macrophages that developed in the presence of porcine chimerism were not adapted to the porcine donor and that marrow-resident macrophages did not phagocytose porcine cells. Moreover, M-liposome treatment had no effect on the survival of porcine PBMC injected into the recipient peritoneal cavity, but was essential for the migration and relocation of these cells into other tissues/organs, such as spleen, bone marrow, and peripheral blood. Together, our results suggest that murine reticuloendothelial macrophages, but not those in the bone marrow and peritoneal cavity, play a significant role in the clearance of porcine hemopoietic cells in vivo. Because injection of M-liposomes i.v. mainly depletes splenic macrophages and liver Kupffer cells, the spleen and/or liver are likely the primary sites of porcine cell clearance in vivo.     

急性淋巴细胞白血病CD34+CD38-细胞在NOD/SCID小鼠体内的自我更新与增值能力

目的 探索急性淋巴细胞白血病(ALL)患者CD34+ CD38-细胞移植到NOD/SCID小鼠体内建立白血病的可行性、自我更新与增殖潜能.方法 分选并鉴定ALL患者骨髓CD34+ CD38-细胞及对照CD34- CD38+细胞后,经尾静脉分别注射104个细胞于亚致死剂量射线照射的NOD/SCID小鼠体内,连续监测小鼠状态以及外周血血象改变,对濒死或死亡小鼠进行骨髓检查、肝脾病理学检查.结果 接种从ALL患者分选的CD34+ CD38-细胞到NOD/SCID小鼠体内后4周,小鼠外周血白细胞上升,到8周左右达高峰,约15×109～20× 109/L,原始及幼稚淋巴细胞明显增多.骨髓象显示以原始及幼稚淋巴细胞增生为主,约为40％,且肝脾组织也有白细胞浸润,明显高于接种了对照组CD34- CD38+细胞的NOD/SCID小鼠.结论 ALL患者CD34+CD38-细胞可以成功移植NOD/SCID 小鼠,在小鼠体内增殖形成白血病,说明该群细胞具有自我更新和增殖的潜能,可作为探索白血病起始细胞研究的重要载体.     

Chronic alcohol consumption impairs distribution and compromises circulation of B cells in B16BL6 melanoma-bearing mice

Accumulating research indicates that B cells are involved in anti-tumor immunity. Chronic alcohol consumption is associated with decreased survival of cancer patients. The effect of alcohol consumption on B cells in tumor-bearing hosts is unknown. Results in melanoma-bearing mice showed that chronic alcohol consumption did not alter the percentage and number of B cells in bone marrow, spleen, and lymph nodes but dramatically decreased B cells in the peripheral blood. Alcohol consumption did not alter the development of B cells in the bone marrow and did not affect follicular B cells in the spleen; however, it increased T1 B cells and decreased marginal zone B cells in the spleen. Alcohol consumption also decreased mature B cells in the blood. It did not alter the chemotactic capacity of plasma to facilitate migration of splenocytes or the chemotactic response of splenocytes to CXCL13 and CCL21. However, the response of splenocytes to sphingosine-1-phosphate was impaired in alcohol-consuming, melanoma-bearing mice. The expression of sphingosine-1-phosphate receptor-1 (S1PR1) and sphingosine-1-phosphate lyase-1 (SPL1) in splenocytes was downregulated. Taken together, these results indicate that chronic alcohol consumption decreases peripheral blood B cells by compromising B cell egress from the spleen. The downregulation of S1PR1 and SPL1 expression in alcohol-consuming, melanoma-bearing mice could be associated with compromised egress of B cells from the spleen.     

B-lymphocyte differentiation in lethally irradiated and reconstituted mice. III. The influence of splenectomy on the recovery of the B-cell populations.

The recovery of the B-cell population was studied in irradiated and fetal liver-reconstituted mice. Since in irradiated and reconstituted mice the B-cell population in the spleen recovers much more rapidly than in the other lymphoid organs, we assessed the role of the spleen in the recovery of the B-cell compartment in the other organs. It was found that the absence of the spleen did not delay or diminish the recovery of the immunoglobulin (Ig)-bearing (B)-cell population in the bone marrow, lymph nodes, Peyer's patches, and peripheral blood. Throughout the recovery period the number of B lymphocytes in the lymphoid organs of splenectomized mice was even greater than in the same organs of sham-operated mice. B cells obtained from the bone marrow of splenectomized, irradiated, and reconstituted mice appeared to be fully immunocompetent, as shown by their ability to cooperate with thymocytes in an adoptive plaque-forming cell response to sheep red blood cells. The compensatory effect of the increased numbers of B cells in the bone marrow and peripheral lymphoid organs of splenectomized mice was reflected in the level of the serum immunoglobulins. Apart from a lower IgM concentration in the serum of splenectomized mice, no significant differences were found in IgG₁, IgG_2b, and IgA levels between splenectomized and sham-splenectomized mice. It is concluded that the spleen is not essential for both normal B-lymphocyte differentiation and maturation after irradiation and reconstitution.     

Differential recovery of polymorphonuclear neutrophils,B and T cell subpopulations in the thymus,bone marrow,spleen and blood of mice following split-dose polychemotherapy

In these studies, we examined the effect of a maximum-tolerated, split-dose chemotherapy protocol of cyclophosphamide, cisplatin, and 1,3-bis(2-chloroethyl)-1-nitrosourea carmustine on neutrophil and lymphocyte subpopulations in the peripheral blood (PBL), thymus, bone marrow and spleen. It was found that this protocol of polychemotherapy, modeled after the induction protocol used with autologous bone marrow transplantation for breast cancer, suppressed both B and T cell populations and T cell function at times when the absolute neutrophil count had returned to normal or supernormal numbers. In the peripheral blood, 7 days following initiation of chemotherapy, there was a twofold increase in the percentage of granulocytes as compared to the level in control animals on the basis of a differential count. The polymorphonuclear neutrophil (PMN) frequency in the bone marrow was increased on day 14 and statistically identical to that in control mice on all other days analyzed. In contrast to the bone marrow cells and PBL on day 7, the frequency of PMN in the spleen and thymus was depressed. B cells (B220+) were depressed in the PBL, spleen and bone marrow and took 18–32 days to return to their normal frequency, while the frequency of B cells in the thymus was increased owing to a loss of immature T cells. The percentage of CD3+ cells in the thymus, spleen and bone marrow was significantly increased and required 10–18 days to return to normal levels, while the absolute number of CD3+ cells in the blood varied around the normal value. The ratio of CD4+ to CD8+ cells in all the organs studied varied only slightly owing to a similar reconstitution of CD4+ and CD8+ cells. In contrast to the phenotypic recovery of the CD3+, CD4+ and CD8+ cells, the ability of the splenic lymphocytes to respond to concanavalin-A was depressed and remained depressed, despite the phenotypic reconstitution of the T cell subsets, on the basis of both percentage and absolute cell number. These results show a selective T and B cell depression following multi-drug, split-dose chemotherapy in tissue and blood leukocyte populations and a chronic depression in T cell function.     

Radioprotection of hematopoietic tissues in mice by indomethacin

We recently reported that indomethacin, an inhibitor of prostaglandin (PG) synthesis, increased the radioresponse of PG-producing murine tumors, but it protected the hematopoietic system from radiation damage [Furuta et al., Cancer Res. 48, 3008-3013 (1988)]. Here we have investigated possible mechanisms responsible for the radioprotective effect of indomethacin. In the exogenous spleen colony assay, bone marrow cells from indomethacin-treated mice showed a similar radioresponse to those from mice not treated with indomethacin, thus excluding true radioprotection as a mechanism. Also, neither the total number of bone marrow cells nor the number of stem cells in bone marrow were affected by the treatment with indomethacin. However, indomethacin induced significant splenomegaly, which was associated with an increased number of both nucleated cells and hematopoietic stem cells in the spleen. The latter was determined by the exogenous spleen colony assay. Thus indomethacin protected hematopoietic tissue indirectly through stimulation of hematopoietic cells in the spleen. When indomethacin was combined with WR-2721, which is a true radioprotector, we obtained a greater radioprotective effect than with either used alone according to the endogenous spleen colony assay.     

Plasmodium berghei: influence on granulopoiesis and macrophage production in BALB/c mice

Granulocyte and macrophage progenitor cells forming colonies in vitro (GM-CFC) from bone marrow, spleen, and peripheral blood of BALB/c mice infected with Plasmodium berghei were cultured at various times postinfection in a viscous, 0.8% methylcellulose system. The numbers of GM-CFCs from bone marrow increased gradually during the first week of infection, reaching a maximum around the tenth day of the disease. Subsequently, a rise of GM-CFCs in cultures of nucleated cells from the peripheral blood was observed and, with some delay, in spleen cell cultures also, with a maximum around the end of the second week. After the tenth day of malaria infection a fall of colony frequency in bone marrow-derived cells took place, leading to subnormal values of GM-CFCs during the third week of infection. Subsequently, a decrease in the spleen cell cultures followed, but colony numbers did not fall to normal values. The general increase in GM-CFCs in the different organs was preceded by a rise in serum levels of colony-stimulating activity (CSA), attaining a maximum 1 week after P. berghei inoculation. During the following period the CSA levels fell and reached normal values around the seventeenth day of the disease. Chemotherapy with chloroquine started on the fifteenth day of infection, when GM-CFCs in the bone marrow have dropped to normal values, stopped their further decrease. In the spleen a gradual normalization took more than 2 weeks. A challenge infection evoked an elevation of GM-CFC numbers in the bone marrow and in the spleen during the first 10 days in only about 50% of immune mice. The reaction was immediate in some animals, but generally lower and of shorter duration than during primary infection. The results have indicated that a lethal P. berghei infection in mice caused a transient increase in production of CSA followed by a general recruitment of GM-CFCs in all hemopoietic organs.     

Smad3基因剔除对小鼠造血功能的影响

研究Smad3基因剔除对小鼠造血功能的影响。实验小鼠分为 5组 ,每组有Smad3基因剔除小鼠(Smad3 - - )和其同窝孪生的野生型小鼠 (Smad3 + + )各 1只。小鼠的造血功能用 14天形成的脾结节 (CFU S1 4 )、多系祖细胞 (CFU GEMM)、粒 单系祖细胞 (CFU GM)、红系祖细胞 (BFU E)测定及外周血象、骨髓象等实验血液学指标来确定。每组小鼠取尾血作白细胞、红细胞和血小板计数 ,涂片作白细胞分类计数。将一侧股骨的骨髓冲出 ,制成单细胞悬液 ,计数其中有核细胞数 ,测定CFU GM、BFU E、CFU GEMM值。将每只小鼠的 4× 10 4个骨髓有核细胞 ,经尾静脉注入 3只 8～ 10周经致死量射线照射的同系雌性小鼠体内 ,测定 14天的CFU S。取一部分胸骨、肝脏、脾脏固定做病理切片 ,其余胸骨冲出骨髓 ,涂片作分类计数。结果Smad3 - - 小鼠外周血白细胞和血小板计数明显高于Smad3 + + 小鼠 ,红细胞数无显著差异。外周血白细胞分类结果也表明粒细胞显著增高。骨髓有核细胞数无显著差异 ,CFU GM显著增高 ,BFU E无显著差异 ,CFU GEMM明显减少 ,CFU S显著减少。病理形态学观察发现骨髓增生极度活跃 ,以粒系为主 ,肝脾无显著差别。骨髓涂片分类表明粒系增多 ,粒系 :红系比例增高。因此得出结论Smad3基因剔除使小鼠造血干祖细胞数目     

The effect of internal exposure to 90Sr on hematopoietic stem cells in CBA mice

After acute intake of 90Sr the changes of d-9 CFUs number in mice (CBA) bone marrow, spleen and peripheral blood were investigated. The obtained results indicated similar quantitative changes in bone marrow and spleen CFUs on exposure to the 90Sr when radiation doses did not cause the decrease in life-time (1.11 kBq/g). Sarcomogeneous doses of 90Sr (29.6 kBq/g) resulted in drastic changes of hemopoietic system: spleen haematopoiesis activation and suppression of bone marrow functions. On the first day after 90Sr injection (29.6 kBq/g) the increase in number of peripheral blood CFUs (circulating pool) was observed.     

Impairment of erythroid and megakaryocytic differentiation by a leukemia-associated and t(9;9)-derived fusion gene product, SET/TAF-Ibeta-CAN/Nup214

SET-CAN associated with the t(9;9) in acute undifferentiated leukemia encodes almost the entire sequence of SET and the C-terminal two-third portion of CAN, including the FG repeat region. To clarify a role(s) of SET-CAN in leukemogenesis, we developed transgenic mice expressing SET-CAN under the control of the Gata1 gene hematopoietic regulatory domain that is active in distinct sets of hematopoietic cells. SET-CAN transgenic mice showed anemia, thrombocytopenia, and splenomegaly. A significant number of transgenic mice started dying after 6 months post-birth, being in good agreement with the fact that red blood cells and platelets decreased. We found that a significant number of c-kit+ myeloid cells appeared in peripheral blood in transgenic mice. Characterization of the bone marrow cells of transgenic mice indicated impairment in hematopoietic differentiation of erythroid, megakaryocytic, and B cell lineages by SET-CAN. Transgenic mice, in particular, exhibited a high population of the c-kit+Sca-1+Lin- fraction in bone marrow cells compared with that of the control littermates. Our results demonstrate that SET-CAN blocks the hematopoietic differentiation program--one of the characteristics of acute myeloid leukemia.     

Colony-forming activity of hematopoietic stem cells in tolerant mice as affected by antigens

The effect of sheep red blood cells (SRBC) and human red blood cells (HRBC) on the amount of CFUs in the bone marrow and spleen of (CBA X C57BL/6) FI SRBC-tolerant mice was studied. The increase in the number of bone marrow and spleen CFUs was demonstrated in SRBC-tolerant mice injected with HRBC. Using SRBC test injection the increase in CFUs amount was observed in the spleen, but not the bone marrow, where the amount of CFUs remained unchanged.     

Mechanisms of lymphocytic choriomeningitis virus-induced hemopoietic dysfunction.

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.