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由内在的IKKα依赖性信号调控晚期B细胞分化

Regulation of late B cell differentiation by intrinsic IKKalpha-dependent signals.

作者信息

Mills David M, Bonizzi Giuseppina, Karin Michael, Rickert Robert C

机构信息

Burnham Institute for Medical Research, La Jolla, CA 92037, USA.

出版信息

Proc Natl Acad Sci U S A. 2007 Apr 10;104(15):6359-64. doi: 10.1073/pnas.0700296104. Epub 2007 Apr 2.

DOI:10.1073/pnas.0700296104
PMID:17404218
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1851084/
Abstract

NF-kappaB-inducing kinase (NIK)-mediated IKKalpha phosphorylation activates the alternative NF-kappaB pathway, which is characterized by nuclear translocation of p52:RelB heterodimers. This alternative pathway is initiated by a select few receptors, including LT-betaR, BAFF-R, and CD40. Although NIK, IKKalpha, and p52 are all critical regulators of LT-betaR signaling in stromal cells during humoral immune responses, lymphocytes require NIK, but not p52, for optimal Ig production. This disparity suggests that NIK possesses critical cell-type-specific functions that do not depend on NF-kappaB. Here we use mice bearing targeted mutations of the IKKalpha activation loop Ser(176/180) (IKKalpha(AA)) to address the B cell-intrinsic functions of NIK-IKKalpha signaling in vivo. We find that IKKalpha(AA) B cells mount normal primary antibody responses but do not enter germinal centers. This defect likely derives from ineffective early T-B cell collaboration and leads to impaired generation of humoral memory and relatively short-lived, low-affinity antibody production. Our findings contrast with those obtained by using p52(-/-) B cells, which mount normal Ig responses, and alymphoplasia (NIK mutant) B cells, which produce very little primary Ig. Thus, the NIK-IKKalpha-p52 axis is not as linear and exclusive as previous studies suggest, and IKKalpha possesses critical NF-kappaB-independent functions in B cells.

摘要

核因子κB诱导激酶(NIK)介导的IKKα磷酸化激活了替代性核因子κB信号通路,其特征是p52:RelB异二聚体的核转位。这条替代性通路由少数几种受体启动,包括淋巴毒素β受体(LT-βR)、B细胞活化因子受体(BAFF-R)和CD40。尽管在体液免疫反应期间,NIK、IKKα和p52都是基质细胞中LT-βR信号传导的关键调节因子,但淋巴细胞产生最佳免疫球蛋白需要NIK,而不是p52。这种差异表明,NIK具有不依赖于核因子κB的关键细胞类型特异性功能。在此,我们使用携带IKKα激活环Ser(176/180)靶向突变(IKKα(AA))的小鼠,来研究体内NIK-IKKα信号传导在B细胞中的内在功能。我们发现,IKKα(AA) B细胞产生正常的初次抗体反应,但不会进入生发中心。这种缺陷可能源于早期T-B细胞协作无效,并导致体液免疫记忆生成受损以及产生寿命相对较短、亲和力较低的抗体。我们的研究结果与使用p52基因敲除(p52(-/-))B细胞(产生正常免疫球蛋白反应)和无淋巴细胞症(NIK突变体)B细胞(产生极少的初次免疫球蛋白)所获得的结果形成对比。因此,NIK-IKKα-p52轴并不像先前研究所表明的那样呈线性且具有排他性,并且IKKα在B细胞中具有关键的不依赖于核因子κB的功能。

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