Advances in peptides encoded by non-coding RNAs: A cargo in exosome

Yang, Jing; Liu, Mengxiao; Fang, Xidong; Zhang, Huiyun; Ren, Qian; Zheng, Ya; Wang, Yuping; Zhou, Yongning

doi:10.3389/fonc.2022.1081997

Front. Oncol.

2022

DOI: 10.3389/fonc.2022.1081997

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Advances in peptides encoded by non-coding RNAs: A cargo in exosome

Jing Yang

Mengxiao Liu

Xidong Fang

et al.

Abstract: The metastasis of malignant tumors determines patient prognosis. This is the main reason for the poor prognosis of patients with cancer and the most challenging aspect of treating malignant tumors. Therefore, it is important to identify early tumor markers and molecules that can predict patient prognosis. However, there are currently no molecular markers with good clinical accuracy and specificity. Many non-coding RNA (ncRNAs)have been identified, which can regulate the process of tumor development at multiple… Show more

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Emerging role of endogenous peptides encoded by non-coding RNAs in cancer biology

Tornesello,

Cerasuolo,

Starita

et al. 2025

Non-coding RNA Research

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Emerging role of endogenous peptides encoded by non-coding RNAs in cancer biology

Tornesello,

Cerasuolo,

Starita

et al. 2025

Non-coding RNA Research

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ncRNA Coding Potential Prediction Using BiLSTM and Transformer Encoder-Based Model

Zhang,

Lu,

Jiang

et al. 2024

J. Chem. Inf. Model.

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Many noncoding RNAs (ncRNAs) have been identified, and many of them play vital roles in various biological processes, including gene expression regulation, epigenetic regulation, transcription, and control. Recently, a few observations revealed that ncRNAs are translated into functional peptides. Moreover, many computational methods have been developed to predict the coding potential of these transcripts, which contributes to a deeper investigation of their functions. However, most of these are used to distinguish ncRNAs and mRNAs. It is important to develop a highly accurate computational tool for identifying the coding potential of ncRNAs, thereby contributing to the discovery of novel peptides. In this Article, we propose a novel BiLSTM And Transformer encoder-based model (nBAT) with intrinsic features encoded for ncRNA coding potential prediction. In nBAT, we introduce a learnable position encoding mechanism to better obtain the embeddings of the ncRNA sequence. Moreover, we extract 43 intrinsic features from different perspectives and encode these features into the Transformer encoder by calculating their distances. Our performance comparisons show that nBAT achieves a superior performance than the state-of-the-art methods for coding potential prediction on different datasets. We also apply the method to new ncRNAs for identifying the coding potential, and the results further indicate the competitive performance of nBAT. We expect the method can be exploited as a useful tool for high-throughput coding potential prediction for ncRNAs.

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A small protein encoded by PCBP1-AS1 is identified as a key regulator of influenza virus replication via enhancing autophagy

Chi,

Huang,

Wang

et al. 2024

PLoS Pathog

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Many annotated long noncoding RNAs (lncRNAs) contain small open reading frames (sORFs), some of which have been demonstrated to encode small proteins or micropeptides with fundamental biological importance. However, functions of lncRNAs-encoded small proteins or micropeptides in viral pathogenesis remain largely unexplored. Here, we identified a 110-amino acid small protein as a key regulator of influenza A virus (IAV) replication. This small protein that we call PESP was encoded by the putative lncRNA PCBP1-AS1. It was observed that both PCBP1-AS1 and PESP were significantly upregulated by IAV infection. Furthermore, they were markedly induced by treatment with either type I or type III interferon. Overexpression of either PCBP1-AS1 or PESP alone significantly enhanced IAV replication. In contrast, shRNA-mediated knockdown of PCBP1-AS1 or CRISPR/Cas9-mediated knockout of PESP markedly inhibited the viral production. Moreover, the targeted deletion or mutation of the sORF within the PCBP1-AS1 transcript, which resulted in the disruption of PESP expression, significantly diminished the capacity of PCBP1-AS1 to enhance IAV replication, underscoring the indispensable role of PESP in the facilitation of IAV replication by PCBP1-AS1. Interestingly, overexpression of PESP enhanced the IAV-induced autophagy by increasing the expression of ATG7, an essential autophagy effector enzyme. We also found that the 7–22 amino acids at the N-terminus of PESP were crucial for its functionality in modulating ATG7 expression and action as an enhancer of IAV replication. Additionally, HSP90AA1, a protein identified previously as a facilitator of autophagy, was found to interact with PESP, resulting in the stabilization of PESP and consequently an increase in the production of IAV. These data reveal a critical lncRNA-encoded small protein that is induced and exploited by IAV during its infection, and provide a significant insight into IAV-host interaction network.

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Advances in peptides encoded by non-coding RNAs: A cargo in exosome

Cited by 3 publications

References 100 publications

Emerging role of endogenous peptides encoded by non-coding RNAs in cancer biology

Emerging role of endogenous peptides encoded by non-coding RNAs in cancer biology

ncRNA Coding Potential Prediction Using BiLSTM and Transformer Encoder-Based Model

A small protein encoded by PCBP1-AS1 is identified as a key regulator of influenza virus replication via enhancing autophagy

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