A novel protein encoded by circIMP3 promotes prostate cancer progression by regulating alternative splicing and tumor microenvironment
Wenren Zuo, Weizhou Huang, Haojie Chen, Yan Xu, Yang Zhang

TL;DR
This study identifies a new protein from circIMP3 that promotes prostate cancer by altering splicing and influencing the tumor environment.
Contribution
Discovery of a novel protein encoded by circIMP3 and its role in prostate cancer progression through alternative splicing and tumor microenvironment regulation.
Findings
CircIMP3 is significantly upregulated in prostate cancer tissues and blood samples.
CircIMP3_288aa promotes tumor growth by regulating FBXW7 splicing and stabilizing c-Myc.
High circIMP3 expression correlates with poor survival in prostate cancer patients.
Abstract
Prostate cancer (PC) is one of the most prevalent malignancies in men, with rising incidence and mortality rates globally. Despite advances in therapeutic options such as androgen deprivation therapy and chemotherapy, effective cures, especially for advanced stages of the disease, remain limited. Recent research has highlighted the significant roles of alternative splicing (AS) and noncoding RNAs in tumor progression and drug resistance. This study aims to investigate the role of circIMP3, derived from the IMP3 gene, in prostate cancer development. In this study, we employed quantitative PCR, RNA sequencing, and immunoblotting to identify and characterize circIMP3 in prostate cancer tissues and patient blood samples. Functional assays, including cell proliferation and in vivo tumorigenicity assays, were conducted to assess the biological role of circIMP3 in PC cells. RNA…
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Taxonomy
TopicsCircular RNAs in diseases · RNA Research and Splicing · Cancer Mechanisms and Therapy
