Sandor M, Houlden B, Bluestone J, Hedrick S M, Weinstock J, Lynch R G
Department of Pathology, University of Iowa College of Medicine, Iowa City 52242.
J Immunol. 1992 Apr 15;148(8):2363-9.
The present studies examined resting and activated murine gamma/delta T lymphocytes, in vitro and in vivo, for surface expression of FcR. Polyclonal gamma/delta TCR+ lymphocytes selectively grown from the spleen and intestine of normal mice did not express FcR when the cells were in a resting state, but when cells were activated with anti-CD3 antibody virtually all of the splenic gamma/delta lymphocytes and a large subpopulation of the intestinal gamma/delta lymphocytes expressed IgA and IgM FcR. This was confirmed by using transgenic mice. Resting gamma/delta TCR+ lymphocytes from the spleen, thymus, lymph node, and blood of gamma/delta TCR transgenic mice did not express FcR for any of the five major classes of Ig H chains. Activation of the gamma/delta TCR+ cells via the CD3/TCR complex induced high levels of IgM and IgA FcR and low levels of IgG FcR. Finally, in hepatic granulomas of schistosome-infected mice, activated gamma/delta TCR+ cells are present and express high levels of IgA and IgM FcR and low levels of IgG FcR. These investigations establish that transition of gamma/delta TCR+ lymphocytes from a resting to an activated state (triggered via the T3Ti TCR complex) is accompanied by the induction of surface membrane receptors specific for Ig H chain isotypes. The activation-linked expression of FcR on gamma/delta TCR+ lymphocytes provides potential mechanisms for coupling the functional activities of gamma/delta T lymphocytes with immune mechanisms that involve Ig molecules, such as antibody-dependent cellular cytotoxicity.
本研究在体外和体内检测了静息和活化的小鼠γ/δ T淋巴细胞的FcR表面表达。从正常小鼠脾脏和肠道中选择性培养的多克隆γ/δ TCR⁺淋巴细胞在静息状态时不表达FcR,但在用抗CD3抗体激活细胞后,几乎所有脾脏γ/δ淋巴细胞和大部分肠道γ/δ淋巴细胞都表达IgA和IgM FcR。这一点通过使用转基因小鼠得到了证实。来自γ/δ TCR转基因小鼠脾脏、胸腺、淋巴结和血液的静息γ/δ TCR⁺淋巴细胞对五种主要Ig H链类别中的任何一种都不表达FcR。通过CD3/TCR复合物激活γ/δ TCR⁺细胞会诱导高水平的IgM和IgA FcR以及低水平的IgG FcR。最后,在血吸虫感染小鼠的肝肉芽肿中,存在活化的γ/δ TCR⁺细胞,它们表达高水平的IgA和IgM FcR以及低水平的IgG FcR。这些研究表明,γ/δ TCR⁺淋巴细胞从静息状态转变为活化状态(通过T3Ti TCR复合物触发)伴随着针对Ig H链同种型的表面膜受体的诱导。γ/δ TCR⁺淋巴细胞上与活化相关的FcR表达为将γ/δ T淋巴细胞的功能活性与涉及Ig分子的免疫机制(如抗体依赖性细胞毒性)相耦合提供了潜在机制。
