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European Journal of Medical Research
Published in: European Journal of Medical Research 1/2023

Open Access 01-12-2023 | Cytostatic Therapy | Research

M7G-related molecular subtypes can predict the prognosis and correlate with immunotherapy and chemotherapy responses in bladder cancer patients

Authors: Deng-xiong Li, De-chao Feng, Xiao-ming Wang, Rui-cheng Wu, Wei-zhen Zhu, Kai Chen, Ping Han

Published in: European Journal of Medical Research | Issue 1/2023

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Abstract

Background

N7-methylguanosine (m7G) is closely associated with tumor prognosis and immune response in many cancer types. The correlation between m7G and bladder cancer (BC) needs further study. We aimed to orchestrate molecular subtypes and identify key genes for BC from the perspective of m7G.

Methods

RNA-seq and clinical data of BC patients were extracted from TCGA and GSE13507 datasets. The patients were subtyped by “ConsensusClusterPlus” and “limma.” The clusters were validated by the Kaplan‒Meier curves, univariable and multivariate Cox regression models, the concordance index, and calibration curves. The immunotherapy response was evaluated by immune checkpoints, immune infiltration, TIDE score, and IMvigor210 cohort. Genomics of Drug Sensitivity in Cancer was utilized to predict the chemotherapy response between the clusters.

Results

The m7G-related cluster was ultimately established by EIF4G1, NUDT11, NUDT10, and CCNB1. The independent prognostic value of the m7G-related cluster was validated by the TCGA and GSE13507 datasets. The cluster was involved in immune-associated pathways, such as neutrophil degranulation, antigen processing cross-presentation, and signaling by interleukins pathways. Meanwhile, cluster 2 was positively correlated with many immune checkpoints, such as CD274, CTLA4, HAVCR2, LAG3, PDCD1, and PDCD1LG2. The cluster 2 was significantly correlated with a higher TIDE score than the cluster 1. Furthermore, in the IMvigor210 cohort, patients in the cluster 1 had a higher response rate than those in the cluster 2. Patients in the cluster 2 were sensitive to many chemotherapies.

Conclusions

We successfully determined molecular subtypes and identified key genes for BC from the perspective of m7G, thereby providing a roadmap for the evolution of immunotherapy and precision medicine.
Appendix
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Literature
1.
Sung H, Ferlay J, Siegel RL, Laversanne M, Soerjomataram I, Jemal A, Bray F. Global Cancer Statistics 2020: GLOBOCAN estimates of incidence and mortality worldwide for 36 cancers in 185 countries. CA Cancer J Clin. 2021;71:209–49.CrossRef
2.
Siegel RL, Miller KD, Fuchs HE, Jemal A. Cancer statistics. CA Cancer J Clin. 2022;72(2022):7–33.CrossRef
3.
Feng D, Li A, Hu X, Lin T, Tang Y, Han P. Comparative effectiveness of open, laparoscopic and robot-assisted radical cystectomy for bladder cancer: a systematic review and network meta-analysis. Ital J Urol Nephrol. 2020;72:251–64.
4.
EAU Guidelines. Edn. Presented at the EAU Annual Congress Amsterdam 2022. ISBN 978-94-92671-16-5.
5.
6.
Li DX, Wang XM, Tang Y, Yang YB, Feng DC, Li A, Zhang FC, Bai YJ, Han P. Prognostic value of preoperative neutrophil-to-lymphocyte ratio in histological variants of non-muscle-invasive bladder cancer. Investig Clin Urol. 2021;62:641–9.CrossRef
7.
Cowling VH. Regulation of mRNA cap methylation. Biochem J. 2009;425:295–302.CrossRef
8.
Fresco LD, Buratowski S. Conditional mutants of the yeast mRNA capping enzyme show that the cap enhances, but is not required for, mRNA splicing. RNA. 1996;2:584–96.
9.
Malbec L, Zhang T, Chen YS, Zhang Y, Sun BF, Shi BY, Zhao YL, Yang Y, Yang YG. Dynamic methylome of internal mRNA N(7)-methylguanosine and its regulatory role in translation. Cell Res. 2019;29:927–41.CrossRef
10.
Braun DA, Shril S, Sinha A, Schneider R, Tan W, Ashraf S, Hermle T, Jobst-Schwan T, Widmeier E, Majmundar AJ, Daga A, Warejko JK, Nakayama M, Schapiro D, Chen J, Airik M, Rao J, Schmidt JM, Hoogstraten CA, Hugo H, Meena J, Lek M, Laricchia KM, Bagga A, Hildebrandt F. Mutations in WDR4 as a new cause of Galloway-Mowat syndrome. Am J Med Genet A. 2018;176:2460–5.CrossRef
11.
Chen X, Gao Y, Yang L, Wu B, Dong X, Liu B, Lu Y, Zhou W, Wang H. Speech and language delay in a patient with WDR4 mutations. Eur J Med Genet. 2018;61:468–72.CrossRef
12.
Shaheen R, Abdel-Salam GM, Guy MP, Alomar R, Abdel-Hamid MS, Afifi HH, Ismail SI, Emam BA, Phizicky EM, Alkuraya FS. Mutation in WDR4 impairs tRNA m(7)G46 methylation and causes a distinct form of microcephalic primordial dwarfism. Genome Biol. 2015;16:210.CrossRef
13.
Cheng W, Gao A, Lin H, Zhang W. Novel roles of METTL1/WDR4 in tumor via m(7)G methylation. Mol Ther Oncolytics. 2022;26:27–34.CrossRef
14.
Wu X, Li C, Wang Z, Zhang Y, Liu S, Chen S, Chen S, Liu W, Liu X. A bioinformatic analysis study of m(7)G regulator-mediated methylation modification patterns and tumor microenvironment infiltration in glioblastoma. BMC Cancer. 2022;22:729.CrossRef
15.
Chen J, Yao S, Sun Z, Wang Y, Yue J, Cui Y, Yu C, Xu H, Li L. The pattern of expression and prognostic value of key regulators for m(7)G RNA methylation in hepatocellular carcinoma. Front Genet. 2022;13: 894325.CrossRef
16.
Dong K, Gu D, Shi J, Bao Y, Fu Z, Fang Y, Qu L, Zhu W, Jiang A, Wang L. Identification and verification of m(7)G modification patterns and characterization of tumor microenvironment infiltration via multi-omics analysis in clear cell renal cell carcinoma. Front Immunol. 2022;13: 874792.CrossRef
17.
Ming J, Wang C. N7-methylguanosine-related lncRNAs: integrated analysis associated with prognosis and progression in clear cell renal cell carcinoma. Front Genet. 2022;13: 871899.CrossRef
18.
Hong P, Du H, Tong M, Cao Q, Hu D, Ma J, Jin Y, Li Z, Huang W, Tong G. A Novel M7G-related microRNAs risk signature predicts the prognosis and tumor microenvironment of kidney renal clear cell carcinoma. Front Genet. 2022;13: 922358.CrossRef
19.
Mei W, Jia X, Xin S, Liu X, Jin L, Sun X, Zhang JX, Zhang B, Yang G, Chen P, Ye L. A N(7)-methylguanine-related gene signature applicable for the prognosis and microenvironment of prostate cancer. J Oncol. 2022;2022:8604216.CrossRef
20.
Xin S, Deng Y, Mao J, Wang T, Liu J, Wang S, Song X, Song W, Liu X. Characterization of 7-methylguanosine identified biochemical recurrence and tumor immune microenvironment in prostate cancer. Front Oncol. 2022;12: 900203.CrossRef
21.
Ying X, Liu B, Yuan Z, Huang Y, Chen C, Jiang X, Zhang H, Qi D, Yang S, Lin S, Luo J, Ji W. METTL1-m(7) G-EGFR/EFEMP1 axis promotes the bladder cancer development. Clin Transl Med. 2021;11: e675.CrossRef
22.
Warde-Farley D, Donaldson SL, Comes O, Zuberi K, Badrawi R, Chao P, Franz M, Grouios C, Kazi F, Lopes CT, Maitland A, Mostafavi S, Montojo J, Shao Q, Wright G, Bader GD, Morris Q. The GeneMANIA prediction server: biological network integration for gene prioritization and predicting gene function. Nucleic Acids Res. 2010;38:W214–20.CrossRef
23.
Mariathasan S, Turley SJ, Nickles D, Castiglioni A, Yuen K, Wang Y, Kadel EE III, Koeppen H, Astarita JL, Cubas R, Jhunjhunwala S, Banchereau R, Yang Y, Guan Y, Chalouni C, Ziai J, Şenbabaoğlu Y, Santoro S, Sheinson D, Hung J, Giltnane JM, Pierce AA, Mesh K, Lianoglou S, Riegler J, Carano RAD, Eriksson P, Höglund M, Somarriba L, Halligan DL, van der Heijden MS, Loriot Y, Rosenberg JE, Fong L, Mellman I, Chen DS, Green M, Derleth C, Fine GD, Hegde PS, Bourgon R, Powles T. TGFβ attenuates tumour response to PD-L1 blockade by contributing to exclusion of T cells. Nature. 2018;554:544–8.CrossRef
24.
Zhang C, Zhou D, Wang Z, Ju Z, He J, Zhao G, Wang R. Risk model and immune signature of m7G-related lncRNA based on lung adenocarcinoma. Front Genet. 2022;13: 907754.CrossRef
25.
Zhou K, Yang J, Li X, Xiong W, Zhang P, Zhang X. N7-methylguanosine regulatory genes profoundly affect the prognosis, progression, and antitumor immune response of hepatocellular carcinoma. Front Surg. 2022;9: 893977.CrossRef
26.
27.
Zhang S, Huang N, Pan X, Zang JL, Guan XX, Zhang JH, Liu LC, Lei XY. Role of eukaryotic translation initiation factor 4G in tumor. Acta Physiol Sin. 2016;68:207–14.
28.
Li XY, Wang SL, Chen DH, Liu H, You JX, Su LX, Yang XT. Construction and validation of a m7G-related gene-based prognostic model for gastric cancer. Front Oncol. 2022;12: 861412.CrossRef
29.
Kamdar S, Isserlin R, Van der Kwast T, Zlotta AR, Bader GD, Fleshner NE, Bapat B. Exploring targets of TET2-mediated methylation reprogramming as potential discriminators of prostate cancer progression. Clin Epigenet. 2019;11:54.CrossRef
30.
Achilla C, Papavramidis T, Angelis L, Chatzikyriakidou A. The implication of X-linked genetic polymorphisms in susceptibility and sexual dimorphism of cancer. Anticancer Res. 2022;42:2261–76.CrossRef
31.
Kim SK, Roh YG, Park K, Kang TH, Kim WJ, Lee JS, Leem SH, Chu IS. Expression signature defined by FOXM1-CCNB1 activation predicts disease recurrence in non-muscle-invasive bladder cancer. Clin Cancer Res. 2014;20:3233–43.CrossRef
32.
Drazkowska K, Tomecki R, Warminski M, Baran N, Cysewski D, Depaix A, Kasprzyk R, Kowalska J, Jemielity J, Sikorski PJ. 2’-O-Methylation of the second transcribed nucleotide within the mRNA 5’ cap impacts the protein production level in a cell-specific manner and contributes to RNA immune evasion. Nucleic Acids Res. 2022;1862:272.
33.
Labadie BW, Balar AV, Luke JJ. Immune checkpoint inhibitors for genitourinary cancers: treatment indications, investigational approaches and biomarkers. Cancers (Basel). 2021;13(21):5415.CrossRef
34.
Locati M, Curtale G, Mantovani A. Diversity, mechanisms, and significance of macrophage plasticity. Annu Rev Pathol. 2020;15:123–47.CrossRef
35.
Pan Y, Yu Y, Wang X, Zhang T. Tumor-associated macrophages in tumor immunity. Front Immunol. 2020;11: 583084.CrossRef
36.
Jiang P, Gu S, Pan D, Fu J, Sahu A, Hu X, Li Z, Traugh N, Bu X, Li B, Liu J, Freeman GJ, Brown MA, Wucherpfennig KW, Liu XS. Signatures of T cell dysfunction and exclusion predict cancer immunotherapy response. Nat Med. 2018;24:1550–8.CrossRef
Metadata
Title
M7G-related molecular subtypes can predict the prognosis and correlate with immunotherapy and chemotherapy responses in bladder cancer patients
Authors
Deng-xiong Li
De-chao Feng
Xiao-ming Wang
Rui-cheng Wu
Wei-zhen Zhu
Kai Chen
Ping Han
Publication date
01-12-2023
Publisher
BioMed Central
Published in
European Journal of Medical Research / Issue 1/2023
Electronic ISSN: 2047-783X
DOI
https://doi.org/10.1186/s40001-023-01012-x

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