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核因子κB在近端T细胞信号传导中对于钙内流和活化T细胞核因子的激活至关重要。

NF-κB is crucial in proximal T-cell signaling for calcium influx and NFAT activation.

作者信息

Bronk Crystina C, Yoder Sean, Hopewell Emily L, Yang Shengyu, Celis Esteban, Yu Xue-Zhong, Beg Amer A

机构信息

Department of Immunology, Moffitt Cancer Center, Tampa, FL, USA; Department of Oncologic Sciences, University of South Florida, Tampa, FL, USA.

出版信息

Eur J Immunol. 2014 Dec;44(12):3741-6. doi: 10.1002/eji.201444904. Epub 2014 Oct 22.

DOI:10.1002/eji.201444904
PMID:25251667
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4261047/
Abstract

In the accepted model of T-cell activation, parallel signal-transduction pathways activate the transcription factors NF-κB, NFAT, and AP-1 to drive clonal expansion of T cells in response to Ag. Genome-wide transcriptional profiling following Ag-induced CD8(+) T-cell activation in C57BL/6 mouse T cells revealed that genes regulated by NFAT were also reduced in the absence of NF-κB p50 and cRel subunits. Importantly, p50(-/-) cRel(-/-) CD8(+) T cells had significantly diminished NFAT and AP-1 activation compared with WT or PKCθ(-/-) CD8(+) T cells. Attenuated NFAT activation after TCR engagement was associated with reduced calcium influx, PLCγ and Zap70 activation. Interestingly, pharmacological bypass of PLCγ-regulated pathways largely rescued p50(-/-) cRel(-/-) T-cell proliferative defects. These results indicate a crucial and unexpected requirement for NF-κB p50 and cRel subunits in proximal TCR signaling and calcium responses. They further suggest that key defects in T cells in the absence of NF-κB pathway components may be due to impaired proximal T-cell signaling.

摘要

在公认的T细胞激活模型中,平行的信号转导通路激活转录因子NF-κB、NFAT和AP-1,以驱动T细胞针对抗原(Ag)进行克隆扩增。在C57BL/6小鼠T细胞中,抗原诱导的CD8(+) T细胞激活后进行全基因组转录谱分析,结果显示,在缺乏NF-κB p50和cRel亚基的情况下,受NFAT调控的基因也会减少。重要的是,与野生型或PKCθ(-/-) CD8(+) T细胞相比,p50(-/-) cRel(-/-) CD8(+) T细胞的NFAT和AP-1激活明显减弱。TCR参与后NFAT激活减弱与钙内流减少、PLCγ和Zap70激活有关。有趣的是,PLCγ调控通路的药理学旁路在很大程度上挽救了p50(-/-) cRel(-/-) T细胞的增殖缺陷。这些结果表明,NF-κB p50和cRel亚基在近端TCR信号传导和钙反应中存在关键且意想不到的需求。它们进一步表明,在缺乏NF-κB通路成分的情况下,T细胞中的关键缺陷可能是由于近端T细胞信号传导受损所致。