克拉斯
生物
癌症研究
肿瘤微环境
串扰
表观遗传学
后生
免疫系统
原癌基因蛋白质c-myc
PI3K/AKT/mTOR通路
自噬
计算生物学
PD-L1
细胞内
癌症
表型
功能(生物学)
生物信息学
清脆的
分子肿瘤学
双重角色
肿瘤进展
下调和上调
免疫疗法
基因表达调控
疾病
细胞生长
系统生物学
福克斯M1
靶向治疗
作者
Man Yan,Kai Liu,Jiayi Xu,Yandi Liu,Liechen Ji,Shiwu Zhang
标识
DOI:10.1186/s12943-026-02659-w
摘要
KRAS is a critical proto-oncogene that encodes a protein functioning as a pivotal molecular switch in intracellular signaling. Both KRAS mutations and MYC dysregulation are key drivers of tumor progression and have historically been regarded as “undruggable” targets. Emerging evidence underscores that the coordinated activation of KRAS and MYC cooperatively fuels tumorigenesis, suggesting that dual inhibition of these oncogenes may constitute a synergistic therapeutic approach for KRAS-mutant cancers. However, the mechanistic basis underlying the effective combined targeting of KRAS and MYC remains poorly defined, largely due to the complexity of their functional interplay. This review examines their collaborative roles in metabolic reprogramming, epigenetic remodeling, and shaping an immunosuppressive tumor microenvironment through crosstalk with immune cells. It also surveys current and emerging anti-KRAS strategies and discusses the challenge of therapy resistance, particularly in the setting of MYC dysregulation. Since resistant tumors often circumvent KRAS inhibition by reactivating MYC to sustain proliferation and survival, interventions that concurrently target these adaptive pathways may hold promise for overcoming resistance in KRAS-driven malignancies.
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