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核内易位的 ASPL-TFE3 融合蛋白通过介导转位性肾细胞癌中的自噬作用创造有利的代谢。

Nuclear translocation of ASPL-TFE3 fusion protein creates favorable metabolism by mediating autophagy in translocation renal cell carcinoma.

机构信息

Department of Pathology, Jinling Hospital, Nanjing University School of Medicine, Nanjing, Jiangsu, China.

Department of Pathology, Zhejiang Provincial People's Hospital, People's Hospital of Hangzhou Medical College, Hangzhou, Zhejiang, China.

出版信息

Oncogene. 2021 May;40(18):3303-3317. doi: 10.1038/s41388-021-01776-8. Epub 2021 Apr 12.

DOI:10.1038/s41388-021-01776-8
PMID:33846569
Abstract

The ASPL-TFE3 fusion gene, resulting from t(X;17)(p11.2;q25.3), is one of the most commonly identified fusion genes in Xp11 translocation renal cell carcinoma (tRCC). However, its roles and underlying mechanism in RCC development are not yet clear. Here, we identified ASPL-TFE3 fusion as the most common tRCC subtype in a Chinese population (29/126, 23.03%). This fusion protein translocated into the nucleus and promoted RCC cell proliferation both in vitro and in vivo. Mechanistically, the fusion protein transcriptionally activated the lysosome-autophagy pathway by binding to the promoters of lysosome-related genes. Autophagy, activated by ASPL-TFE3, enabled RCC cells to escape energy stress by promoting the utilization of proteins and lipids. Moreover, we found that the ASPL-TFE3 fusion escaped regulation by the classic mTOR-TFE3 signal and instead activated phospho-mTOR and its downstream targets. Finally, targeting both autophagy and the mTOR axis resulted in a greater antiproliferative effect than single pathway inhibition. In summary, these results confirmed the ASPL-TFE3 fusion as a master regulator of metabolic adaptation mediated by autophagy in tRCC. The simultaneous manipulation of autophagy and the mTOR axis may represent a novel treatment strategy for ASPL-TFE3 fusion RCC.

摘要

ASPL-TFE3 融合基因,源于 t(X;17)(p11.2;q25.3),是 Xp11 易位肾细胞癌 (tRCC) 中最常鉴定到的融合基因之一。然而,其在 RCC 发展中的作用和潜在机制尚不清楚。在这里,我们鉴定出 ASPL-TFE3 融合是中国人群中最常见的 tRCC 亚型(29/126,23.03%)。该融合蛋白易位到细胞核内,并在体外和体内均促进 RCC 细胞增殖。从机制上讲,融合蛋白通过结合溶酶体相关基因的启动子,转录激活溶酶体自噬途径。自噬被 ASPL-TFE3 激活,使 RCC 细胞能够通过促进蛋白质和脂质的利用来逃避能量应激。此外,我们发现 ASPL-TFE3 融合逃避了经典 mTOR-TFE3 信号的调控,而是激活了磷酸化 mTOR 及其下游靶标。最后,与单一路径抑制相比,同时靶向自噬和 mTOR 轴可产生更大的抗增殖作用。总之,这些结果证实了 ASPL-TFE3 融合是 tRCC 中自噬介导的代谢适应的主要调节因子。同时操纵自噬和 mTOR 轴可能代表了一种治疗 ASPL-TFE3 融合 RCC 的新策略。

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