钙调蛋白和 IQGAP1 激活 KRAS、HRAS 和 NRAS 驱动的癌症中的 PI3Kα 和 Akt。

Calmodulin and IQGAP1 activation of PI3Kα and Akt in KRAS, HRAS and NRAS-driven cancers.

机构信息

Cancer and Inflammation Program, Leidos Biomedical Research, Inc., Frederick National Laboratory for Cancer Research, National Cancer Institute at Frederick, Frederick, MD 21702, United States; Department of Human Molecular Genetics and Biochemistry, Sackler School of Medicine, Tel Aviv University, Tel Aviv 69978, Israel.

Cancer and Inflammation Program, Leidos Biomedical Research, Inc., Frederick National Laboratory for Cancer Research, National Cancer Institute at Frederick, Frederick, MD 21702, United States.

出版信息

Biochim Biophys Acta Mol Basis Dis. 2018 Jun;1864(6 Pt B):2304-2314. doi: 10.1016/j.bbadis.2017.10.032. Epub 2017 Oct 31.

DOI:10.1016/j.bbadis.2017.10.032

PMID:29097261

Abstract

Calmodulin (CaM) binds only oncogenic KRas, but not HRas or NRas, and thus contributes only to KRAS-driven cancers. How CaM interacts with KRas and how it boosts KRAS cancers are among the most coveted aims in cancer biology. Here we address this question, and further ask: Are there proteins that can substitute for CaM in HRAS- and NRAS-driven cancers? Can scaffolding protein IQGAP1 be one? Data suggest that formation of a CaM-KRas-PI3Kα ternary complex promotes full PI3Kα activation, and thereby potent PI3Kα/Akt/mTOR proliferative signaling. CaM binds PI3Kα at the cSH2 and nSH2 domains of its regulatory p85 subunit; the WW domain of IQGAP1 binds cSH2. This raises the question whether IQGAP1, together with an oncogenic Ras isoform, can partially activate PI3Kα. Activated, membrane-bound PI3Kα generates PIP. CaM shuttles Akt to the plasma membrane; CaM's release and concomitant phosphoinositide binding stimulates Akt activation. Notably, IQGAP1 directly interacts with, and helps juxtapose, PI3Kα and Akt as well as mTOR. Our mechanistic review aims to illuminate CaM's actions, and help decipher how oncogenic Ras isoforms - not only KRas4B - can activate the PI3Kα/Akt/mTOR pathway at the membrane and innovate drug discovery, including blocking the PI3Kα-IQGAP1 interaction in HRAS- and NRAS-driven cancers.

摘要

钙调蛋白 (CaM) 仅与致癌性 KRas 结合，而不与 HRas 或 NRas 结合，因此仅有助于 KRAS 驱动的癌症。CaM 如何与 KRas 相互作用以及如何增强 KRAS 癌症是癌症生物学中最令人垂涎的目标之一。在这里，我们解决了这个问题，并进一步提出：是否有蛋白质可以替代 HRAS 和 NRAS 驱动的癌症中的 CaM？支架蛋白 IQGAP1 可以吗？数据表明，CaM-KRas-PI3Kα 三元复合物的形成促进了全 PI3Kα 的激活，从而产生了强大的 PI3Kα/Akt/mTOR 增殖信号。CaM 通过其调节亚基 p85 的 cSH2 和 nSH2 结构域与 PI3Kα 结合；IQGAP1 的 WW 结构域与 cSH2 结合。这就提出了一个问题，即 IQGAP1 是否可以与致癌性 Ras 同工型一起部分激活 PI3Kα。激活的、膜结合的 PI3Kα 生成 PIP。CaM 将 Akt 转运到质膜；CaM 的释放和伴随的磷脂结合刺激 Akt 的激活。值得注意的是，IQGAP1 直接相互作用，并有助于将 PI3Kα 和 Akt 以及 mTOR 并置。我们的机制综述旨在阐明 CaM 的作用，并帮助破译致癌性 Ras 同工型 - 不仅是 KRas4B - 如何在膜上激活 PI3Kα/Akt/mTOR 途径，并创新药物发现，包括阻断 HRAS 和 NRAS 驱动的癌症中的 PI3Kα-IQGAP1 相互作用。

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钙调蛋白和 IQGAP1 激活 KRAS、HRAS 和 NRAS 驱动的癌症中的 PI3Kα 和 Akt。

Calmodulin and IQGAP1 activation of PI3Kα and Akt in KRAS, HRAS and NRAS-driven cancers.

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