Citation

Zheng R, Dunlap M, Bobkov GOM, Gonzalez-Figueroa C, Patel KJ, Lyu J, Harvey SE, Chan TW, Quinones-Valdez G, Choudhury M, Le Roux CA, Bartels MD, Vuong A, Flynn RA, Chang HY, Van Nostrand EL, Xiao X, Cheng C. 2024. hnRNPM protects against the dsRNA-mediated interferon response by repressing LINE-associated cryptic splicing. Molecular cell. 84(11):2087-2103.e8. Pubmed: 38815579 DOI:S1097-2765(24)00397-6

Abstract

RNA splicing is pivotal in post-transcriptional gene regulation, yet the exponential expansion of intron length in humans poses a challenge for accurate splicing. Here, we identify hnRNPM as an essential RNA-binding protein that suppresses cryptic splicing through binding to deep introns, maintaining human transcriptome integrity. Long interspersed nuclear elements (LINEs) in introns harbor numerous pseudo splice sites. hnRNPM preferentially binds at intronic LINEs to repress pseudo splice site usage for cryptic splicing. Remarkably, cryptic exons can generate long dsRNAs through base-pairing of inverted ALU transposable elements interspersed among LINEs and consequently trigger an interferon response, a well-known antiviral defense mechanism. Significantly, hnRNPM-deficient tumors show upregulated interferon-associated pathways and elevated immune cell infiltration. These findings unveil hnRNPM as a guardian of transcriptome integrity by repressing cryptic splicing and suggest that targeting hnRNPM in tumors may be used to trigger an inflammatory immune response, thereby boosting cancer surveillance.
Copyright © 2024 Elsevier Inc. All rights reserved.

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Ryan Flynn’s laboratory is focused on the exploration and discovery of how biopolymers like RNA and glycans work together to control cellular processes in the context of human disease.

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