B细胞活化导致ikk依赖性,而不是c-Rel或rela依赖性,B细胞耐受诱导基因Ets1的转录减少。

Alyssa Kearly, Kristina Ottens, Michael C Battaglia, Anne B Satterthwaite, Lee Ann Garrett-Sinha
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摘要

Ets1是B细胞中防止过早分化为B -分泌细胞所需的关键转录因子。先前,我们发现BCR和TLR信号下调了Ets1水平,而PI3K、Btk、IKK和JNK激酶是这一过程所必需的。PI3K通过生成膜脂磷脂酰肌醇(3,4,5)-三磷酸,在激活Btk中起重要作用,Btk通过其PH结构域与之结合。Btk反过来在激活IKK激酶途径中起重要作用,这是通过激活磷脂酶Cγ2→蛋白激酶Cβ信号传导来实现的。在本研究中,我们进一步研究了小鼠B细胞中Ets1的调控途径。尽管IKK因其激活典型NF-κB通路的作用而众所周知,但IKK介导的Ets1下调不需要RelA或c-Rel。我们还研究了另外两个不属于NF-κB信号通路的IKK靶点Foxo3a和mTORC2在调节Ets1中的潜在作用。我们发现Foxo3a的缺失或mTORC2的抑制并不能阻断bcr诱导的Ets1下调。因此,这两种途径不是关键的IKK靶点,这意味着其他尚未定义的IKK靶点在这一过程中发挥作用。
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B Cell Activation Results in IKK-Dependent, but Not c-Rel- or RelA-Dependent, Decreases in Transcription of the B Cell Tolerance-Inducing Gene Ets1.

Ets1 is a key transcription factor in B cells that is required to prevent premature differentiation into Ab-secreting cells. Previously, we showed that BCR and TLR signaling downregulate Ets1 levels and that the kinases PI3K, Btk, IKK, and JNK are required for this process. PI3K is important in activating Btk by generating the membrane lipid phosphatidylinositol (3,4,5)-trisphosphate, to which Btk binds via its PH domain. Btk in turn is important in activating the IKK kinase pathway, which it does by activating phospholipase Cγ2→protein kinase Cβ signaling. In this study, we have further investigated the pathways regulating Ets1 in mouse B cells. Although IKK is well known for its role in activating the canonical NF-κB pathway, IKK-mediated downregulation of Ets1 does not require either RelA or c-Rel. We also examined the potential roles of two other IKK targets that are not part of the NF-κB signaling pathway, Foxo3a and mTORC2, in regulating Ets1. We find that loss of Foxo3a or inhibition of mTORC2 does not block BCR-induced Ets1 downregulation. Therefore, these two pathways are not key IKK targets, implicating other as yet undefined IKK targets to play a role in this process.

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