Van Zant G, Shultz L
Department of Cell Biology and Anatomy, Texas Tech University Health Sciences Center, Lubbock 79430.
Exp Hematol. 1989 Feb;17(2):81-7.
We have studied the hematopoietic system of the immunodeficient mouse mutant, viable motheaten (mev/mev). These mice usually die by 9 weeks of age from severe pneumonitis. The lungs at that time are infiltrated with granulocytes, macrophages, and lymphocytes. Granulocyte and macrophage precursor cells (CFU-GM) are dramatically increased in the spleens of mev/mev mice, whereas the bone marrow population of these precursors is decreased when compared with littermate control animals. The CFU-GM population retained its normal dependence on granulocyte-macrophage colony-stimulating factor (GM-CSF) for proliferation and differentiation. In contrast, the frequency of an erythroid precursor (CFU-E) was dramatically increased in spleen and showed increased sensitivity to erythropoietin (Epo). Moreover, a splenic CFU-E subpopulation formed normally appearing erythroid colonies in the absence of exogenous Epo. The bone marrow CFU-E population was significantly diminished in size when compared with either wildtype C57BL/6J mice or mice heterozygous for the mev allele. Unlike the CFU-E population, erythroid burst-forming unit (BFU-E) frequency in mev/mev mice was diminished both in bone marrow and in spleen, although the total number of splenic BFU-E was increased because of splenomegaly in these animals. BFU-E retained their dependence on the presence of both Epo and a source of interleukin 3 (IL-3) for proliferation and differentiation into erythroid bursts. Spleen cells from mev/mev mice, when stimulated in vitro with pokeweed mitogen, failed to produce significant quantities of IL-3. Comparison with medium or +/mev heterozygotes revealed that mev/mev spleen cell-conditioned medium showed a 40-fold reduction in burst-promoting activity. Thus, in viable motheaten mice, there is a major shift in hematopoiesis from bone marrow to spleen, which is accompanied by a diminished capacity of spleen cells to produce burst-promoting activity. These data and those from other studies suggest that the hematopoietic microenvironment of marrow may be impaired in this mutant.
我们研究了免疫缺陷小鼠突变体——活的食母生小鼠(mev/mev)的造血系统。这些小鼠通常在9周龄时死于严重肺炎。此时肺部有粒细胞、巨噬细胞和淋巴细胞浸润。在mev/mev小鼠的脾脏中,粒细胞和巨噬细胞前体细胞(CFU-GM)显著增加,而与同窝对照动物相比,这些前体细胞的骨髓数量减少。CFU-GM群体在增殖和分化方面仍正常依赖粒细胞-巨噬细胞集落刺激因子(GM-CSF)。相比之下,脾脏中红系前体细胞(CFU-E)的频率显著增加,并且对促红细胞生成素(Epo)的敏感性增强。此外,脾脏CFU-E亚群在没有外源性Epo的情况下形成了外观正常的红系集落。与野生型C57BL/6J小鼠或mev等位基因杂合的小鼠相比,骨髓CFU-E群体的大小显著减小。与CFU-E群体不同,mev/mev小鼠骨髓和脾脏中的红系爆式集落形成单位(BFU-E)频率均降低,尽管由于这些动物脾脏肿大,脾脏BFU-E的总数增加。BFU-E在增殖和分化为红系爆式集落方面仍依赖Epo和白细胞介素3(IL-3)来源的存在。用商陆有丝分裂原体外刺激mev/mev小鼠的脾细胞,未能产生大量IL-3。与培养基或+/mev杂合子相比,发现mev/mev脾细胞条件培养基的爆式促进活性降低了40倍。因此,在活的食母生小鼠中,造血过程从骨髓向脾脏发生了重大转变,同时脾细胞产生爆式促进活性的能力降低。这些数据以及其他研究的数据表明,该突变体的骨髓造血微环境可能受损。
