Hämmerling G J, Masuda T, McDevitt H O
J Exp Med. 1973 May 1;137(5):1180-200. doi: 10.1084/jem.137.5.1180.
The influence of immunization with (T,G)-A--L on the frequency and characteristics of [(125)I] (T,G)-A--L-binding cells (ABC) was investigated in high and low responder mice, whose ability to respond to (T,G)-A--L is under control of an H-2-linked immune response gene, Ir-1. Unimmunized high and low responder mice have about the same number of ABC in spleen and lymph nodes (6-12 ABC/10(4)). However, after immunization with (T,G)-A--L in aqueous solution, ABC in high responders increase to a much greater extent than they do in low responders. By inhibition of ABC with class-specific anti-Ig sera, it was demonstrated that in nonimmune and primed mice antigen is bound to IgM receptors, which is in agreement with the exclusive production of 19S anti-(T,G)-A--L antibody in primed animals. In contrast, after secondary challenge with antigen, ABC in high and low responder mice have mainly IgG receptors, although under the conditions used for immunization, low responders are not able to produce detectable amounts of 7S anti-(T,G)-A--L antibody. From these results and from the evidence that low responders very probably have a T cell defect, it is suggested that the switchover from IgM to IgG precursor cells can be induced by antigen itself, without the action of specific T cells. Furthermore, the failure of marked proliferation of ABC in low responders after antigenic stimulation is explained by the lack of stimulation by specific T cells. By independent methods it has been shown that all ABC detected in this study are B cells. Preliminary experiments indicate that purified peripheral T cells bind antigen, but much less per cell than do B cells.
研究了用(T,G)-A--L免疫对高反应性和低反应性小鼠中[(125)I](T,G)-A--L结合细胞(ABC)频率和特性的影响,这些小鼠对(T,G)-A--L的反应能力受H-2连锁免疫反应基因Ir-1的控制。未免疫的高反应性和低反应性小鼠脾脏和淋巴结中的ABC数量大致相同(6-12个ABC/10^4)。然而,用(T,G)-A--L水溶液免疫后,高反应性小鼠中的ABC增加幅度远大于低反应性小鼠。通过用类特异性抗Ig血清抑制ABC,证明在未免疫和免疫的小鼠中,抗原与IgM受体结合,这与免疫动物中仅产生19S抗(T,G)-A--L抗体一致。相反,在用抗原进行二次攻击后,高反应性和低反应性小鼠中的ABC主要具有IgG受体,尽管在用于免疫的条件下,低反应性小鼠无法产生可检测量的7S抗(T,G)-A--L抗体。根据这些结果以及低反应性小鼠很可能存在T细胞缺陷的证据,表明从IgM前体细胞向IgG前体细胞的转换可由抗原本身诱导,而无需特异性T细胞的作用。此外,低反应性小鼠在抗原刺激后ABC显著增殖失败可由缺乏特异性T细胞的刺激来解释。通过独立方法已表明本研究中检测到的所有ABC都是B细胞。初步实验表明,纯化的外周T细胞能结合抗原,但每个细胞结合的抗原比B细胞少得多。