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一种定量信号筛选方法鉴定了 CARD 和 LATCH 结构域中的 CARD11 突变,这些突变诱导 Bcl10 泛素化和人淋巴瘤细胞存活。

A quantitative signaling screen identifies CARD11 mutations in the CARD and LATCH domains that induce Bcl10 ubiquitination and human lymphoma cell survival.

机构信息

Department of Biological Chemistry and Institute for Cell Engineering, The Johns Hopkins University School of Medicine, Baltimore, Maryland, USA.

出版信息

Mol Cell Biol. 2013 Jan;33(2):429-43. doi: 10.1128/MCB.00850-12. Epub 2012 Nov 12.

DOI:10.1128/MCB.00850-12
PMID:23149938
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3554118/
Abstract

Antigen receptor signaling to NF-κB, essential for normal lymphocyte activation, is dysregulated in several types of lymphoma. During normal signaling, the multidomain adapter CARD11 transitions from a closed, inactive state to an open, active scaffold that assembles a multiprotein complex, leading to NF-κB activation. The regulation of CARD11 scaffold function is bypassed by lymphoma-associated oncogenic CARD11 mutations that induce spontaneous signaling. We report an unbiased high-throughput quantitative signaling screen that identifies new CARD11 hyperactive variants and defines a LATCH domain that functions with the CARD to promote CARD11 autoinhibition. Gain-of-function mutations in the LATCH or CARD disrupt inhibitory domain binding, promote Bcl10 association, and induce Bcl10 ubiquitination, NF-κB activation, and human lymphoma cell survival. Our results identify CARD11 mutations with oncogenic potential, provide a mechanistic explanation for their signaling potency, and offer a straightforward method for the discovery of variants that promote the tumorigenesis of NF-κB-dependent lymphomas.

摘要

抗原受体信号转导至 NF-κB 对于正常淋巴细胞的激活至关重要,而在多种类型的淋巴瘤中,该信号通路都出现了失调。在正常信号转导过程中,多结构域衔接蛋白 CARD11 从封闭的、无活性的状态转变为开放的、活跃的支架,组装成一个多蛋白复合物,从而导致 NF-κB 的激活。淋巴瘤相关的致癌性 CARD11 突变绕过了 CARD11 支架功能的调控,导致自发信号转导。我们报告了一项无偏的高通量定量信号转导筛选,该筛选可识别新的 CARD11 高活性变体,并定义了一个 LATCH 结构域,该结构域与 CARD 一起发挥作用,促进 CARD11 的自动抑制。LATCH 或 CARD 中的功能获得性突变会破坏抑制结构域的结合,促进 Bcl10 的结合,并诱导 Bcl10 的泛素化、NF-κB 的激活以及人淋巴瘤细胞的存活。我们的研究结果鉴定出了具有致癌潜能的 CARD11 突变,为其信号转导效力提供了机制解释,并提供了一种简单的方法来发现促进 NF-κB 依赖性淋巴瘤发生的变体。

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