Abstract 5685: Recognition of internal mRNA N7-methylguanosine by QKI shuttles transcripts into stress granules and modulates drug resistance

Abstract Introduction: Albeit that over 170 types of chemical modifications have been identified in RNAs, the biological functions of most of those decorations are still elusive. N7-methylguanosine (m7G), routinely occurring at the 5’ cap of mRNA or within tRNA and rRNA, also exists in internal mRNA. However, the “reader” proteins that recognize internal mRNA m7G and regulate the metabolism and fate of target mRNAs have yet to be identified. Here, we aim to identify the reader(s) of internal mRNA m7G and elucidate the biological function. Methods: To identify internal m7G reader(s), we utilized RNA-pull down, mass spectrometry (MS), RNA immunoprecipitation (RIP)-seq, and m7G-seq. To evaluate the interaction between QKI and G3BP1, we used Co-IP, immunofluorescence (IF) and proximity ligation assay (PLA). To investigate the function of QKI in stress granule (SG), we performed polyA & m7G RNA fluorescence in situ hybridization (FISH), triple quadrupole MS (QQQ-MS), and Ribo-seq. To assess the role of QKI in drug resistance, we carried out both in vitro cell survival assays and in vivo xenograft mouse model. Results: Our QQQ-MS results suggest cytoplasmic mRNA, in contrast to nuclei mRNA, are highly enriched with internal m7G modification. Quaking proteins (QKI), especially QKI7, can selectively recognize the internal mRNA m7G decoration in the cytosol of various cell types. Our high-throughput sequence data revealed over 1000 confident m7G-modified and QKI-binding RNA targets with a conserved motif, “GANGAN (N=A/U/G)”. Those transcripts are functionally enriched in the “pathways in cancer” and “Hippo signaling pathway”. More strikingly, internal m7G reader QKI7 directly interacts with the SG core protein G3BP1 and can shuttle a subset of m7G-modified transcripts into SG mRNA pool under oxidative stress condition. Additionally, we identified 314 confident m7G-modified & QKI7-binding & SG-enriched target genes in U2OS cells. Ribo-seq indicated that QKI7 modulates the translation efficiency of a set of m7G-modified transcripts via sequestering and silencing them in SGs. Moreover, in line with the observation that many chemotherapy drugs could trigger the assembly of SGs, QKI7 increases the sensitivity of cancer cells to drug treatment (e.g., doxorubicin) in vitro and in vivo in a m7G-dependent manner. Consistently, by analyzing the hepatocellular carcinoma (HCC) pharmacogenomic landscape study dataset, we found that HCC cell lines with higher QKI expression levels are more sensitive to a variety of chemotherapy or targeted therapeutic drugs. Conclusion: Our study identifies QKI as the first internal mRNA m7G reader, provides insights into the biological function of internal mRNA m7G modification in remodeling stress granules transcriptome, and highlights the therapeutic potential of targeting the QKI7/m7G axis in overcoming drug resistance. Citation Format: Zhicong Zhao, Lei Dong, Li Han, Yangchan Li, Jianhuang Xue, Keren Zhou, Wei Li, Xiaolan Deng, Ying Qing, Brandon Tan, Zhenhua Chen, Chao Shen, Andrew Small, Kitty Wang, Keith Leung, Zheng Zhang, Xi Qin, Qiang Xia, Rui Su, Jianjun Chen. Recognition of internal mRNA N7-methylguanosine by QKI shuttles transcripts into stress granules and modulates drug resistance [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 5685.