Schwartz R H, Yano A, Stimpfling J H, Paul W E
J Exp Med. 1979 Jan 1;149(1):40-57. doi: 10.1084/jem.149.1.40.
The immune response (Ir) to the random copolymer GLphi depends upon the function of two Ir genes, Ir-GLphi-beta[beta] and Ir-GLphi-alpha[alpha], mapped to the I-A and I-E/C subregions of the major histocompatibility complex, respectively. In this paper, the site(s) of expression of the products of these two Ir genes was examined by evaluating T-lymphocyte proliferative responses of bone marrow radiation chimeras. Chimeras were created in [alpha+beta- X alpha-beta+]F1 responder mice by lethal irradiation and reconstitution with a mixture of bone marrow cells from both parental strains. These chimeras failed to respond to GLphi, although they were capable or responding to the much weaker antigens, (T,G)-A--L, TEPC-15, pigeon cytochrome c, and (H,G)-A--L. This failure to respond to GLphi was shown not to be the result of a cryptic mixed lymphocyte reaction, as similar chimeras created in (alpha+beta+ X alpha-beta+)F1 mice responded well to GLphi, although they possessed almost the same potential histoincompatibility. Furthermore, the lack of response to GLphi could not be attributed to a general failure of the two parental cell types in the chimeras to collaboratc with each other, as each chimeric parental cell type could respond to dinitrophenyl conjugated ovalbumin presented on nonimmune spleen cells from the other parent. Thus, the failure of low responder parental into F1 high responder chimeras to generate an immune response to GLphi suggests that immune competence for this antigen requires at least one cell type in the immune system to express gene products of both the Ir-glphi-alpha and -beta genes, i.e. one cell must be of high responder genotype. The the antigen-presenting cell is one such cell type was shown by experiments in which GLphi-primed T lymphocytes from responder F1 mice were stimulated with antigen bound to nonimmune spleen cells. Only spleen cells from responder F1 and recombinant mice could present GLphi. Neither of the two complementing nonresponder parental spleen cell populations, either alone or mixed together, could present GLphi, although both could present purified protein derivative of tuberculin. This was shown to be the case for T cells positively selected in vitro as well as freshly explanted T cells. Thus, both Ir-GLphi-alpha and Ir-GLphi-beta gene products must be expressed in the same antigen-presenting cell to generate a T-lymphocyte proliferative response to GLphi. The implications of these findings for models of two gene complementation are discussed.
对随机共聚物GLphi的免疫反应(Ir)取决于两个Ir基因的功能,即Ir-GLphi-beta[β]和Ir-GLphi-alpha[α],它们分别定位于主要组织相容性复合体的I-A和I-E/C亚区。在本文中,通过评估骨髓辐射嵌合体的T淋巴细胞增殖反应,研究了这两个Ir基因产物的表达位点。通过致死性照射并用来自两个亲本品系的骨髓细胞混合物进行重建,在[α+β-×α-β+]F1应答小鼠中创建嵌合体。这些嵌合体对GLphi无反应,尽管它们能够对弱得多的抗原(T,G)-A--L、TEPC-15、鸽细胞色素c和(H,G)-A--L产生反应。对GLphi无反应并非由于隐匿性混合淋巴细胞反应,因为在(α+β+×α-β+)F1小鼠中创建的类似嵌合体对GLphi反应良好,尽管它们具有几乎相同的潜在组织不相容性。此外,对GLphi无反应不能归因于嵌合体中两种亲代细胞类型相互协作的普遍失败,因为每种嵌合亲代细胞类型都能对来自另一亲代的非免疫脾细胞上呈现的二硝基苯基偶联卵清蛋白产生反应。因此,低应答亲代细胞进入F1高应答嵌合体后对GLphi不产生免疫反应,这表明对该抗原的免疫能力要求免疫系统中至少有一种细胞类型表达Ir-glphi-alpha和-beta基因的产物,即一个细胞必须具有高应答基因型。通过用与非免疫脾细胞结合的抗原刺激来自应答F1小鼠的经GLphi致敏的T淋巴细胞的实验表明,抗原呈递细胞就是这样一种细胞类型。只有来自应答F1和重组小鼠的脾细胞能够呈递GLphi。两种互补的低应答亲代脾细胞群体,单独或混合在一起,都不能呈递GLphi,尽管它们都能呈递结核菌素纯蛋白衍生物。对于体外阳性选择的T细胞以及新鲜分离的T细胞,情况都是如此。因此,Ir-GLphi-alpha和Ir-GLphi-beta基因产物必须在同一抗原呈递细胞中表达,才能产生对GLphi的T淋巴细胞增殖反应。讨论了这些发现对两个基因互补模型的意义。