Identifying the driver miRNAs with somatic copy number alterations driving dysregulated ceRNA networks in cancers

Dou, Renjie; Kang, Shaobo; Yang, Huan; Zhang, Wanmei; Zhang, Yijing; Liu, Yuanyuan; Ping, Yanyan; Pang, Bo

doi:10.1186/s13062-023-00438-x

Biol Direct

2023

DOI: 10.1186/s13062-023-00438-x

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Identifying the driver miRNAs with somatic copy number alterations driving dysregulated ceRNA networks in cancers

Renjie Dou,

Shaobo Kang,

Huan Yang

et al.

Abstract: Background MicroRNAs (miRNAs) play critical roles in cancer initiation and progression, which were critical components to maintain the dynamic balance of competing endogenous RNA (ceRNA) networks. Somatic copy number alterations (SCNAs) in the cancer genome could disturb the transcriptome level of miRNA to deregulate this balance. However, the driving effects of SCNAs of miRNAs were insufficiently understood. Methods In this study, we proposed a me… Show more

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2024

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References 42 publications

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Unveiling the molecular profile of a prostate carcinoma: implications for personalized medicine

Agostini,

Giacobbi,

Servadei

et al. 2024

Biol Direct

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Background Prostate cancer is the most common diagnosed tumor and the fifth cancer related death among men in Europe. Although several genetic alterations such as ERG-TMPRSS2 fusion, MYC amplification, PTEN deletion and mutations in p53 and BRCA2 genes play a key role in the pathogenesis of prostate cancer, specific gene alteration signature that could distinguish indolent from aggressive prostate cancer or may aid in patient stratification for prognosis and/or clinical management of patients with prostate cancer is still missing. Therefore, here, by a multi-omics approach we describe a prostate cancer carrying the fusion of TMPRSS2 with ERG gene and deletion of 16q chromosome arm. Results We have observed deletion of KDM6A gene, which may represent an additional genomic alteration to be considered for patient stratification. The cancer hallmarks gene signatures highlight intriguing molecular aspects that characterize the biology of this tumor by both a high hypoxia and immune infiltration scores. Moreover, our analysis showed a slight increase in the Tumoral Mutational Burden, as well as an over-expression of the immune checkpoints. The omics profiling integrating hypoxia, ROS and the anti-cancer immune response, optimizes therapeutic strategies and advances personalized care for prostate cancer patients. Conclusion The here data reported can lay the foundation for predicting a poor prognosis for the studied prostate cancer, as well as the possibility of targeted therapies based on the modulation of hypoxia, ROS, and the anti-cancer immune response.

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Unveiling the molecular profile of a prostate carcinoma: implications for personalized medicine

Agostini,

Giacobbi,

Servadei

et al. 2024

Biol Direct

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Identifying the driver miRNAs with somatic copy number alterations driving dysregulated ceRNA networks in cancers

Cited by 1 publication

References 42 publications

Unveiling the molecular profile of a prostate carcinoma: implications for personalized medicine

Unveiling the molecular profile of a prostate carcinoma: implications for personalized medicine

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