Ryan J J, Miner D W, Mond J J, Finkelman F D, Woody J N
J Immunol. 1987 Apr 15;138(8):2392-401.
Activation of murine B lymphocytes in a splenocyte stimulator population with affinity-purified goat anti-mouse IgD (G alpha M delta) antibody was previously shown by this laboratory to enhance the presentation of strongly stimulatory major histocompatibility complex (MHC) and minor lymphocyte-stimulating (Mlsa,d) determinants in a primary mixed lymphocyte reaction. In the present study, the G alpha M delta treatment of murine splenocytes was employed to enhance the detection of the weakly stimulatory non-MHC Mlsc determinant in order to study the role the MHC might play as a restricting element for the recognition of these minor antigens in a primary mixed lymphocyte reaction. Indeed, enhanced T cell proliferation to Mlsc determinants presented on G alpha M delta-treated splenocytes was observed when the responder and activated H-2-compatible stimulator cell shared certain MHC haplotypes. High responsiveness was associated with the H-2a,k,j,p haplotypes, intermediate responsiveness was associated with the H-2f,g haplotypes and low responsiveness was associated with the H-2b,s haplotypes. (Low X high responder)F1 T cells preferentially responded to the Mlsc determinants presented on G alpha M delta-treated stimulator cells of the F1 or parental high responder H-2 haplotype. When mitomycin C instead of irradiation was used to inactivate normal (non-IgD-treated) splenocytes, a similar preferential response of T cells to Mlsc determinants presented on stimulator cells of a high responder H-2 haplotype was also observed. The inability of G alpha M delta-treated splenocytes of the low responder haplotype to elicit substantial levels of T cell proliferation across an Mlsc difference could not be attributed to the failure of these stimulator cells to become activated by the anti-Ig antibody. In addition, co-culture experiments could not identify the poor T cell response to Mlsc determinants presented on certain MHC haplotypes as being caused by the induction of nonspecific suppressor cells. Presentation of Mlsc determinants caused by transgene product complementation was detectable in F1 mice derived by crossing one parent that had the Mlsc non-MHC genes and a poorly permissive H-2 haplotype with a parent that expressed a permissive H-2 haplotype but lacked the Mlsc non-MHC genes.(ABSTRACT TRUNCATED AT 400 WORDS)
本实验室先前已证明,用亲和纯化的山羊抗小鼠IgD(GαMδ)抗体激活脾细胞刺激群体中的小鼠B淋巴细胞,可增强在初次混合淋巴细胞反应中强刺激主要组织相容性复合体(MHC)和次要淋巴细胞刺激(Mlsa,d)决定簇的呈递。在本研究中,采用GαMδ处理小鼠脾细胞来增强对弱刺激非MHC Mlsc决定簇的检测,以研究MHC在初次混合淋巴细胞反应中作为识别这些次要抗原的限制元件可能发挥的作用。实际上,当应答者和活化的H-2相容刺激细胞共享某些MHC单倍型时,观察到T细胞对GαMδ处理的脾细胞上呈递的Mlsc决定簇的增殖增强。高反应性与H-2a、k、j、p单倍型相关,中等反应性与H-2f、g单倍型相关,低反应性与H-2b、s单倍型相关。(低×高反应者)F1 T细胞优先对F1或亲代高反应性H-2单倍型的GαMδ处理的刺激细胞上呈递的Mlsc决定簇作出反应。当使用丝裂霉素C而不是照射来灭活正常(未用IgD处理)的脾细胞时,也观察到T细胞对高反应性H-2单倍型的刺激细胞上呈递的Mlsc决定簇有类似的优先反应。低反应性单倍型的GαMδ处理的脾细胞无法在Mlsc差异上引发大量T细胞增殖,这不能归因于这些刺激细胞未能被抗Ig抗体激活。此外,共培养实验无法确定T细胞对某些MHC单倍型上呈递的Mlsc决定簇反应不佳是由非特异性抑制细胞的诱导引起的。在通过将一个具有Mlsc非MHC基因和低允许性H-2单倍型的亲本与一个表达允许性H-2单倍型但缺乏Mlsc非MHC基因的亲本杂交产生的F1小鼠中,可检测到由转基因产物互补引起的Mlsc决定簇的呈递。(摘要截断于400字)
