Mizuochi T, Ono S, Malek T R, Singer A
J Exp Med. 1986 Mar 1;163(3):603-19. doi: 10.1084/jem.163.3.603.
This study has characterized the primary T cell subpopulations that secrete IL-2 in response to recognition of either class I or class II MHC encoded determinants. The addition to culture of anti-IL-2-R mAb inhibited the consumption of IL-2 by activated lymphocytes during the response period, permitting a much more accurate assessment of the amount of IL-2 produced in the response cultures. Using this response system, we found that primary T cell populations contain two IL-2-secreting T cell subsets that express reciprocal phenotypes and different MHC recognition specificities: an L3T4+, Lyt-2- T cell subset responsive to both class I and class II MHC alloantigens, and an L3T4-Lyt-2+ T cell subset responsive only to class I MHC alloantigens. The L3T4+ T cell subset expressed a broad functional response repertoire in that L3T4+ T cells were triggered to secrete IL-2 upon recognition of unmodified self-Ia determinants, allogeneic Ia determinants, and class I alloantigens presented by self-Ia determinants. The activation of L3T4+ IL-2-secreting T cells, even those responsive to class I MHC alloantigens, could be blocked completely by anti-Ia mAbs, confirming that the L3T4+ T cell subset was in fact class II restricted. In contrast, the Lvt-2+ T cell subset expressed a narrow functional response repertoire in that they were triggered to secrete IL-2 only in response to allogeneic class I MHC determinants, and were not triggered to secrete IL-2 even in response to TNP-modified self-MHC determinants. The specificity of Lyt-2+ IL-2-secreting T cells for class I MHC allodeterminants was confirmed by the observations that: (a) their activation could be blocked completely by anti-class I mAbs, (b) they could be triggered by Ia- cell lines which expressed class I MHC alloantigens and possessed accessory function, and (c) they responded to class I MHC alloantigens but failed to respond to class II MHC alloantigens, even in the presence of exogenously added second signals that circumvented the requirement for alloantigen-bearing accessory cells. Finally, the frequency of primary Lyt-2+ T cells that secreted IL-2 in response to class I (Kbm1) MHC alloantigens was shown to be only minimally lower than that of L3T4+ T cells that secreted IL-2 in response to class II (I-Abm12) MHC alloantigens.(ABSTRACT TRUNCATED AT 400 WORDS)
本研究已对主要的T细胞亚群进行了特征描述,这些亚群在识别I类或II类MHC编码的决定簇后会分泌白细胞介素-2(IL-2)。在培养物中添加抗IL-2-R单克隆抗体(mAb)可抑制反应期内活化淋巴细胞对IL-2的消耗,从而能更准确地评估反应培养物中产生的IL-2量。利用这个反应系统,我们发现原代T细胞群体包含两个分泌IL-2的T细胞亚群,它们表现出相互对应的表型和不同的MHC识别特异性:一个L3T4 +、Lyt-2 - T细胞亚群,对I类和II类MHC同种异体抗原均有反应;另一个L3T4 - Lyt-2 + T细胞亚群,仅对I类MHC同种异体抗原有反应。L3T4 + T细胞亚群表现出广泛的功能反应谱,即L3T4 + T细胞在识别未修饰的自身Ia决定簇、同种异体Ia决定簇以及由自身Ia决定簇呈递的I类同种异体抗原后会被触发分泌IL-2。分泌IL-2的L3T4 + T细胞的活化,即使是那些对I类MHC同种异体抗原有反应的细胞,也能被抗Ia mAb完全阻断,这证实L3T4 + T细胞亚群实际上受II类限制。相比之下,Lyt-2 + T细胞亚群表现出狭窄的功能反应谱,即它们仅在对同种异体I类MHC决定簇有反应时才被触发分泌IL-2,即使对经三硝基苯(TNP)修饰的自身MHC决定簇有反应时也不会被触发分泌IL-2。分泌IL-2的Lyt-2 + T细胞对I类MHC同种异体决定簇的特异性通过以下观察结果得到证实:(a)它们的活化可被抗I类mAb完全阻断;(b)它们可被表达I类MHC同种异体抗原并具有辅助功能的Ia - 细胞系触发;(c)它们对I类MHC同种异体抗原有反应,但对II类MHC同种异体抗原无反应,即使存在外源添加的第二信号,该信号可绕过对携带同种异体抗原的辅助细胞的需求。最后,发现对I类(Kbm1)MHC同种异体抗原分泌IL-2的原代Lyt-2 + T细胞的频率仅略低于对II类(I - Abm12)MHC同种异体抗原分泌IL-2的L3T4 + T细胞的频率。(摘要截短至400字)
