"Tolerization" of human T-helper cell clones by chronic exposure to alloantigen: culture conditions dictate autocrine proliferative status but not acquisition of cytotoxic potential and suppressor-induction capacity.

The Journal of molecular and cellular immunology : JMCI Pub Date : 1988-01-01

G Pawelec, T Brocker, F W Busch, H J Bühring, N Fernandez, E M Schneider, P Wernet

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Abstract

Induction of clonal anergy in T-helper (Th) cells may have a role in regulating immune responses. A model system for studying Th cell tolerization at the clonal level in vitro could be useful for investigating the mechanisms involved. Accordingly, alloreactive helper cells were maintained in culture with interleukin 2 (IL 2) by intermittent stimulation with specific antigen. Regardless of the frequency of antigen stimulation, clones of age less than ca. 35 population doublings (PD) were found to undergo antigen-specific autocrine clonal expansion in the absence of exogenous IL 2. Such young clones (designated as phase I) could therefore not be "tolerized" by frequent exposure to antigen. In contrast, most clones of age greater than ca. 35 PD could be tolerized by frequent exposure to antigen (designated as phase II clones). Their autocrine proliferation was then blocked, although they still recognized antigen specifically as shown by their retained ability to secrete interferon-gamma (IFN-gamma) and granulocyte-macrophage colony stimulating factor (GM-CSF). The mechanism of response failure involved both an inability to upregulate IL 2 receptors in the absence of exogenous IL 2, as well as an inability to secrete IL 2. These defects were not overcome by stimulation with mitogens or calcium ionophore and phorbol esther in place of alloantigen. T-cell receptor, alpha, beta, and gamma-chain gene rearrangements remained identical in phase I and phase II clones. Tolerization of phase II clones could be avoided by increasing the period between antigen exposures. Despite this, whether or not phase II cells were capable of autocrine proliferation, they were found to have acquired the novel function of inducing suppressive activity in fresh lymphocytes. Suppressor-induction was blocked by the broadly reactive MHC class II-specific monoclonal antibody (moAb) TU39, but not by moAb preferentially reacting only with HLA-DR, DQ, or DP. Sequential immunoprecipitation on T-cell clones showed the presence of a putative non-DR, DQ, DP, TU39+ molecule on phase II clones. However, this molecule was also found on phase I clones. The nature of the TU39-blockable suppressor-inducing determinant present on phase II but not on (most) phase I clones thus remains to be clarified. In addition to suppressor-induction activity, phase II clones also acquired lytic potential as measured in a lectin approximation system. Cytotoxic (CTX) potential was also not influenced by the frequency of antigenic stimulation and could be viewed as a constitutive modulation of clonal function.(ABSTRACT TRUNCATED AT 400 WORDS)

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慢性暴露于同种异体抗原对人t辅助细胞克隆的“耐受性”:培养条件决定自分泌增殖状态，但不获得细胞毒性潜能和抑制诱导能力。

诱导辅助性t细胞(Th)克隆能可能在调节免疫应答中起作用。在体外克隆水平上研究细胞耐受的模型系统可能有助于研究所涉及的机制。因此，在白细胞介素2 (IL - 2)的培养中，通过特异性抗原的间歇性刺激来维持同种异体辅助细胞。无论抗原刺激的频率如何，年龄小于35倍群(PD)的克隆在缺乏外源IL - 2的情况下进行抗原特异性自分泌克隆扩增。因此，这种年轻的克隆体(称为第一阶段)不能通过频繁接触抗原而“耐受”。相比之下，大多数年龄大于35 PD的克隆可以通过频繁暴露于抗原而耐受(称为II期克隆)。它们的自分泌增殖被阻断，尽管它们仍然能够特异性地识别抗原，这表明它们保留了分泌干扰素- γ (ifn - γ)和粒细胞-巨噬细胞集落刺激因子(GM-CSF)的能力。反应失败的机制包括在缺乏外源IL 2的情况下无法上调IL 2受体，以及无法分泌IL 2。这些缺陷不能被有丝分裂原或钙离子载体和磷载体代替同种异体抗原刺激克服。t细胞受体，α， β和γ链基因重排在I期和II期克隆中保持相同。可以通过增加抗原暴露间隔时间来避免II期克隆的耐受性。尽管如此，无论II期细胞是否能够自分泌增殖，它们都被发现在新鲜淋巴细胞中获得了诱导抑制活性的新功能。抑制因子诱导可被广泛反应的MHC ii类特异性单克隆抗体(moAb) TU39阻断，但不能被moAb仅与HLA-DR, DQ或DP优先反应阻断。对t细胞克隆的序列免疫沉淀显示，在II期克隆上存在假定的非dr、DQ、DP、TU39+分子。然而，在I期克隆中也发现了这种分子。因此，存在于II期而不存在于(大多数)I期克隆的tu39可阻断抑制因子诱导行列式的性质仍有待澄清。除了抑制因子诱导活性外，II期克隆还获得了凝集素近似系统测量的裂解电位。细胞毒性(CTX)电位也不受抗原刺激频率的影响，可以视为克隆功能的组成性调节。(摘要删节为400字)

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Journal of molecular and cellular immunology : JMCI

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