Actin dysregulation induces neuroendocrine plasticity and immune evasion: a vulnerability of small cell lung cancer.

Yoojeong Seo, Shengzhe Zhang, Jinho Jang, Kyung-Pil Ko, Kee-Beom Kim, Yuanjian Huang, Dong-Wook Kim, Bongjun Kim, Gengyi Zou, Jie Zhang, Sohee Jun, Wonhong Chu, Nicole A Kirk, Ye Eun Hwang, Young Ho Ban, Shilpa S Dhar, Joseph M Chan, MinGyu Lee, Charles M Rudin, Kwon-Sik Park, Jae-Il Park
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Abstract

Small cell lung cancer (SCLC) is aggressive with limited therapeutic options. Despite recent advances in targeted therapies and immunotherapies, therapy resistance is a recurring issue, which might be partly due to tumor cell plasticity, a change in cell fate. Nonetheless, the mechanisms underlying tumor cell plasticity and immune evasion in SCLC remain elusive. CRACD, a capping protein inhibitor that promotes actin polymerization, is frequently inactivated in SCLC. Cracd knockout (KO) transforms preneoplastic cells into SCLC tumor-like cells and promotes in vivo SCLC development driven by Rb1, Trp53, and Rbl2 triple KO. Cracd KO induces neuroendocrine (NE) plasticity and increases tumor cell heterogeneity of SCLC tumor cells via dysregulated NOTCH1 signaling by actin cytoskeleton disruption. CRACD depletion also reduces nuclear actin and induces EZH2-mediated H3K27 methylation. This nuclear event suppresses the MHC-I genes and thereby depletes intratumoral CD8+ T cells for accelerated SCLC tumorigenesis. Pharmacological blockade of EZH2 inhibits CRACD-negative SCLC tumorigenesis by restoring MHC-I expression and immune surveillance. Unsupervised single-cell transcriptomics identifies SCLC patient tumors with concomitant inactivation of CRACD and downregulated MHC-I pathway. This study defines CRACD, an actin regulator, as a tumor suppressor that limits cell plasticity and immune evasion and proposes EZH2 blockade as a viable therapeutic.

Abstract Image

Abstract Image

Abstract Image

CRACD缺失通过EZH2介导的免疫逃避促进小细胞肺癌癌症的肿瘤发生。
小细胞肺癌(SCLC)免疫逃避和免疫疗法耐药性的机制尚不清楚。在此,我们研究CRACD肿瘤抑制因子在SCLC中的作用。我们发现CRACD在小细胞肺癌中经常失活,并且CRACD敲除(KO)显著加速了由Rb1、Trp53和Rb12缺失驱动的小细胞肺癌的发展。值得注意的是,Cracd缺陷的SCLC肿瘤表现出CD8+T细胞耗竭和抗原呈递途径的抑制。从机制上讲,CRACD损失通过EZH2使MHC-I通路沉默。EZH2阻断足以恢复MHC-I通路并抑制CRACD损失相关的SCLC肿瘤发生。无监督的单细胞转录组分析鉴定了伴有CRACD失活、肿瘤抗原呈递受损和EZH2靶基因下调的SCLC患者肿瘤。我们的发现将CRACD损失定义为与SCLC细胞免疫逃避相关的一种新的分子特征,并提出EZH2阻断是CRACD阴性SCLC治疗的可行选择。
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