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分泌型IgA应答启动过程的特殊特征。用霍乱毒素启动B细胞。

Special features of the priming process for a secretory IgA response. B cell priming with cholera toxin.

作者信息

Fuhrman J A, Cebra J J

出版信息

J Exp Med. 1981 Mar 1;153(3):534-44. doi: 10.1084/jem.153.3.534.

DOI:10.1084/jem.153.3.534

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2186107/

Abstract

Administration of cholera toxin/toxoid by either intraduodenal or parenteral routes increases the frequency of antigen-sensitive B cells in Peyer's patches (PP) and in distant lymphoid tissues greater than 50-fold. The special feature of mucosal priming with toxin is its unique effectiveness at generating secondary B cells, whose progeny express IgA exclusively, and such cells appear in highest frequency in PP and in appreciable numbers in spleen. Thus, this deliberate intraduodenal immunization seems to mimic the natural priming process induced by enteric bacterial colonization, which we have postulated to account for the high frequencies of IgA-committed cells specific for bacterial determinants in the PP of conventionally reared mice. furthermore, as a result of intraduodenal immunization, antigen-specific memory B cells are disseminated to sites distant form that of antigen application, including the lymphoid follicles associated with the respiratory mucosa. Direct antigenic stimulation of cells in the PP therefore results in effective cross-priming among mucosal and systemic sites through division, differentiation, and disemination of antigen-sensitive secondary B cells.

摘要

通过十二指肠内或肠胃外途径给予霍乱毒素/类毒素，可使派尔集合淋巴结（PP）和远处淋巴组织中对抗原敏感的B细胞频率增加50倍以上。用毒素进行黏膜致敏的特殊之处在于其在产生次级B细胞方面具有独特的有效性，这些次级B细胞的后代仅表达IgA，并且此类细胞在PP中出现的频率最高，在脾脏中也有相当数量。因此，这种刻意的十二指肠内免疫似乎模拟了由肠道细菌定植诱导的自然致敏过程，我们推测这可以解释常规饲养小鼠PP中针对细菌决定簇的IgA定向细胞的高频率。此外，由于十二指肠内免疫，抗原特异性记忆B细胞会扩散到远离抗原应用部位的地方，包括与呼吸道黏膜相关的淋巴滤泡。因此，对PP中的细胞进行直接抗原刺激会通过抗原敏感的次级B细胞的分裂、分化和扩散，在黏膜和全身部位之间产生有效的交叉致敏。