Litcius/Paper detail

Inactivated cGAS‐STING Signaling Facilitates Endocrine Resistance by Forming a Positive Feedback Loop with AKT Kinase in ER+HER2– Breast Cancer

Kai‐Ming Zhang, De‐Chang Zhao, Zeyu Li, Yan Wang, Jian‐Nan Liu, Tian Du, Ling Zhou, Yuhong Chen, Qi‐Chao Yu, Qingshan Chen, Ruizhao Cai, Zi‐Xuan Zhao, Jia‐Lu Shan, Bingxin Hu, Hai‐Liang Zhang, Gong‐Kan Feng, Xiao‐Feng Zhu, Jun Tang, Rong Deng

2024Advanced Science28 citationsDOIOpen Access PDF

Abstract

Endocrine-resistant ER+HER2- breast cancer (BC) is particularly aggressive and leads to poor clinical outcomes. Effective therapeutic strategies against endocrine-resistant BC remain elusive. Here, analysis of the RNA-sequencing data from ER+HER2- BC patients receiving neoadjuvant endocrine therapy and spatial transcriptomics analysis both show the downregulation of innate immune signaling sensing cytosolic DNA, which primarily occurs in endocrine-resistant BC cells, not immune cells. Indeed, compared with endocrine-sensitive BC cells, the activity of sensing cytosolic DNA through the cGAS-STING pathway is attenuated in endocrine-resistant BC cells. Screening of kinase inhibitor library show that this effect is mainly mediated by hyperactivation of AKT1 kinase, which binds to kinase domain of TBK1, preventing the formation of a trimeric complex TBK1/STING/IRF3. Notably, inactivation of cGAS-STING signaling forms a positive feedback loop with hyperactivated AKT1 to promote endocrine resistance, which is physiologically important and clinically relevant in patients with ER+HER2- BC. Blocking the positive feedback loop using the combination of an AKT1 inhibitor with a STING agonist results in the engagement of innate and adaptive immune signaling and impairs the growth of endocrine-resistant tumors in humanized mice models, providing a potential strategy for treating patients with endocrine-resistant BC.

Topics & Concepts

Cancer researchEndocrine systemInnate immune systemProtein kinase BTANK-binding kinase 1BiologyKinaseStimulator of interferon genesSignal transductionImmune systemCell biologyEndocrinologyImmunologyHormoneMAP kinase kinase kinaseinterferon and immune responsesUbiquitin and proteasome pathwaysRNA modifications and cancer