Widespread alteration of protein autoinhibition in human cancers.

Cell systems Pub Date : 2024-03-20 Epub Date: 2024-02-15 DOI:10.1016/j.cels.2024.01.009
Jorge A Holguin-Cruz, Jennifer M Bui, Ashwani Jha, Dokyun Na, Jörg Gsponer
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Abstract

Autoinhibition is a prevalent allosteric regulatory mechanism in signaling proteins. Reduced autoinhibition underlies the tumorigenic effect of some known cancer drivers, but whether autoinhibition is altered generally in cancer remains elusive. Here, we demonstrate that cancer-associated missense mutations, in-frame insertions/deletions, and fusion breakpoints are enriched within inhibitory allosteric switches (IASs) across all cancer types. Selection for IASs that are recurrently mutated in cancers identifies established and unknown cancer drivers. Recurrent missense mutations in IASs of these drivers are associated with distinct, cancer-specific changes in molecular signaling. For the specific case of PPP3CA, the catalytic subunit of calcineurin, we provide insights into the molecular mechanisms of altered autoinhibition by cancer mutations using biomolecular simulations, and demonstrate that such mutations are associated with transcriptome changes consistent with increased calcineurin signaling. Our integrative study shows that autoinhibition-modulating genetic alterations are positively selected for by cancer cells.

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人类癌症中蛋白质自身抑制的广泛改变。
自身抑制是信号蛋白中一种普遍的异位调节机制。自抑制作用的降低是一些已知癌症驱动因子致癌作用的基础,但自抑制作用在癌症中是否普遍发生改变仍是未知数。在这里,我们证明了癌症相关的错义突变、框架内插入/缺失和融合断点在所有癌症类型的抑制性异位开关(IASs)中都有富集。对癌症中反复发生突变的 IASs 进行筛选,可以发现已确定的和未知的癌症驱动因素。这些驱动因素的 IASs 中的复发性错义突变与分子信号转导中不同的、癌症特异性变化有关。对于钙调神经蛋白催化亚基 PPP3CA 的具体情况,我们利用生物分子模拟深入了解了癌症突变改变自身抑制的分子机制,并证明这种突变与转录组变化相关,与钙调神经蛋白信号的增加一致。我们的综合研究表明,癌细胞会积极选择调节自身抑制的基因改变。
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