Eckner R J
J Exp Med. 1975 Oct 1;142(4):936-48. doi: 10.1084/jem.142.4.936.
Exposure of NIH Swiss mouse embryo fibroblasts (MEF) to infectious Friend virus (FV) complex [containing defective spleen focus-forming virus (SFFV) and endogenous NB-tropic leukemia-inducing helper virus (LLV-F)] resulted in the productive infection of these cells by both SFFV and LLV-F. Stocks of SFFV derived after extensive growth in this Swiss MEF cell culture system are fully leukemogenic in adult mice for the induction of erythroleukemia and spleen foci. In addition, in vitro-derived LLV-F, when isolated free of SFFV, is fully leukemogenic for the induction of lymphatic leukemia when inoculated into susceptible newborn BALB/c mice. The host range of in vitro-derived FV complex (i.e., FV-TC) for focus formation in vivo is NB-tropic. Unlike in vivo-derived FV complex, FV-TC does not suppress the responsiveness of murine thymocytes to concanavalin A (Con A) in vitro. Rather, FV-TC acts as a mitogen to nonspecifically stimulate the proliferation of BALB/c thymocytes. The mitogenicity of in vitro-derived FV complex is directly associated with the presence of type-C virus particles, is a heat-labile and UV-sensitive property of the virus, and may be primarily due to LLV since equivalent amounts of LLV with or without SFFV present are equally mitogenic. One in vivo passage of FV-TC resulted in the total loss of this mitogenic property with the reappearance of full immunosuppressive properties. This result demonstrates a clear association between in vivo growth of FV and its ability to suppress mouse thymocytes, and suggests that FV complex (SFFV-LLV) is not inherently immunosuppressive for these cells. While the mechanism of this interconversion between immunostimulatory and fully suppressive virus is unknown, both virus markers appear to be dependent upon the presence of infectious FV.
将NIH瑞士小鼠胚胎成纤维细胞(MEF)暴露于感染性Friend病毒(FV)复合物[包含缺陷型脾集落形成病毒(SFFV)和内源性嗜NB白血病诱导辅助病毒(LLV-F)],导致这些细胞被SFFV和LLV-F进行增殖性感染。在这种瑞士MEF细胞培养系统中大量生长后获得的SFFV毒株,在成年小鼠中具有完全致白血病性,可诱导红白血病和脾集落。此外,体外获得的LLV-F,当与SFFV分离时,接种到易感的新生BALB/c小鼠中,对于诱导淋巴白血病具有完全致白血病性。体外获得的FV复合物(即FV-TC)在体内形成集落的宿主范围是嗜NB型。与体内获得的FV复合物不同,FV-TC在体外不会抑制小鼠胸腺细胞对刀豆球蛋白A(Con A)的反应性。相反,FV-TC作为一种有丝分裂原,可非特异性刺激BALB/c胸腺细胞的增殖。体外获得的FV复合物的有丝分裂原性与C型病毒颗粒的存在直接相关,是病毒的一种热不稳定和紫外线敏感特性,并且可能主要归因于LLV,因为存在或不存在SFFV的等量LLV具有同等的有丝分裂原性。FV-TC在体内传代一次导致这种有丝分裂原性完全丧失,同时重新出现完全的免疫抑制特性。这一结果表明FV在体内生长与其抑制小鼠胸腺细胞的能力之间存在明显关联,并表明FV复合物(SFFV-LLV)对这些细胞并非固有免疫抑制性。虽然免疫刺激病毒和完全抑制性病毒之间这种相互转化的机制尚不清楚,但两种病毒标志物似乎都依赖于感染性FV的存在。