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1
Inhibition of Nonfunctional Ras.抑制无功能 Ras。
Cell Chem Biol. 2021 Feb 18;28(2):121-133. doi: 10.1016/j.chembiol.2020.12.012. Epub 2021 Jan 12.
2
SHP2 inhibition diminishes KRASG12C cycling and promotes tumor microenvironment remodeling.SHP2 抑制作用可减少 KRASG12C 循环并促进肿瘤微环境重塑。
J Exp Med. 2021 Jan 4;218(1). doi: 10.1084/jem.20201414.
3
KRAS G12D mutation predicts lower TMB and drives immune suppression in lung adenocarcinoma.KRAS G12D突变预示着肺腺癌中较低的肿瘤突变负荷并驱动免疫抑制。
Lung Cancer. 2020 Nov;149:41-45. doi: 10.1016/j.lungcan.2020.09.004. Epub 2020 Sep 10.
4
KRAS Inhibition with Sotorasib in Advanced Solid Tumors.索托拉西布治疗晚期实体瘤的 KRAS 抑制作用。
N Engl J Med. 2020 Sep 24;383(13):1207-1217. doi: 10.1056/NEJMoa1917239. Epub 2020 Sep 20.
5
BI-3406, a Potent and Selective SOS1-KRAS Interaction Inhibitor, Is Effective in KRAS-Driven Cancers through Combined MEK Inhibition.BI-3406,一种有效且选择性的 SOS1-KRAS 相互作用抑制剂,通过联合 MEK 抑制作用,对 KRAS 驱动的癌症有效。
Cancer Discov. 2021 Jan;11(1):142-157. doi: 10.1158/2159-8290.CD-20-0142. Epub 2020 Aug 19.
6
RAS-targeted therapies: is the undruggable drugged?RAS 靶向治疗:无药可治的靶点被攻克了?
Nat Rev Drug Discov. 2020 Aug;19(8):533-552. doi: 10.1038/s41573-020-0068-6. Epub 2020 Jun 11.
7
and mutations as prognostic biomarkers in an observational real-world lung adenocarcinoma cohort.并在观察性真实世界肺腺癌队列中作为预后生物标志物的突变。
ESMO Open. 2020 Apr;5(2). doi: 10.1136/esmoopen-2020-000706.
8
Oncogenic KRAS-Driven Metabolic Reprogramming in Pancreatic Cancer Cells Utilizes Cytokines from the Tumor Microenvironment.致癌性 KRAS 驱动的胰腺癌细胞代谢重编程利用肿瘤微环境中的细胞因子。
Cancer Discov. 2020 Apr;10(4):608-625. doi: 10.1158/2159-8290.CD-19-0297. Epub 2020 Feb 11.
9
STING-dependent paracriny shapes apoptotic priming of breast tumors in response to anti-mitotic treatment.STING 依赖性旁分泌影响抗有丝分裂治疗对乳腺癌肿瘤凋亡的引发作用。
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The Cytosolic DNA-Sensing cGAS-STING Pathway in Cancer.细胞质 DNA 感应 cGAS-STING 通路在癌症中的作用。
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KRAS G12C 抑制与固有免疫靶向治疗

KRAS G12C inhibition and innate immune targeting.

机构信息

Department of Medical Oncology, Dana-Farber Cancer Institute, Boston, USA.

Department of Cell Biology, Cancer Institute, Japanese Foundation for Cancer Research, Tokyo, Japan.

出版信息

Expert Opin Ther Targets. 2021 Mar;25(3):167-174. doi: 10.1080/14728222.2021.1902991. Epub 2021 Mar 28.

DOI:10.1080/14728222.2021.1902991
PMID:33703985
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8122058/
Abstract

INTRODUCTION

mutations drive tumorigenesis by altering cell signaling and the tumor immune microenvironment. Recent studies have shown promise for KRAS-G12C covalent inhibitors, which are advancing rapidly through clinical trials. The sequencing and combination of these agents with other therapies including immune checkpoint blockade (ICB) will benefit from strategies that also address the immune microenvironment to improve durability of response.

AREAS COVERED

This paper reviews KRAS signaling and discusses downstream effects on cytokine production and the tumor immune microenvironment. RAS targeted therapy is introduced and perspectives on therapeutic targeting of KRAS-G12C and its immunosuppressive tumor microenvironment are offered.

EXPERT OPINION

The availability of KRAS-G12C covalent inhibitors raises hopes for targeting this pervasive oncogene and designing better therapeutic combinations to promote anti-tumor immunity. A comprehensive mechanistic understanding of KRAS immunosuppression is required in order to prioritize agents for clinical trials.

摘要

简介

突变通过改变细胞信号和肿瘤免疫微环境来驱动肿瘤发生。最近的研究表明,KRAS-G12C 共价抑制剂具有很大的潜力,这些抑制剂正在临床试验中迅速推进。对这些药物进行测序并与其他疗法(包括免疫检查点阻断 (ICB))联合使用,将受益于能够改善反应持久性的策略,这些策略还需要解决免疫微环境问题。

涵盖领域

本文回顾了 KRAS 信号通路,并讨论了其对细胞因子产生和肿瘤免疫微环境的下游影响。介绍了 RAS 靶向治疗,并对 KRAS-G12C 的治疗靶向及其免疫抑制性肿瘤微环境提供了观点。

专家意见

KRAS-G12C 共价抑制剂的出现为靶向这种普遍存在的致癌基因并设计更好的治疗组合以促进抗肿瘤免疫提供了希望。为了将药物优先用于临床试验,需要全面了解 KRAS 免疫抑制的机制。