Construct of qualitative diagnostic biomarkers specific for glioma by pairing serum microRNAs

Hongdong Li; Liyuan Ma; Fengyuan Luo; Wenkai Liu; Na Li; Tao Hu; Haijian Zhong; You Guo; Guini Hong

doi:10.1186/s12864-023-09203-w

BMC Genomics (Mar 2023)

Construct of qualitative diagnostic biomarkers specific for glioma by pairing serum microRNAs

Hongdong Li,
Liyuan Ma,
Fengyuan Luo,
Wenkai Liu,
Na Li,
Tao Hu,
Haijian Zhong,
You Guo,
Guini Hong

Affiliations

Hongdong Li: School of Medical Information Engineering, Gannan Medical University
Liyuan Ma: School of Medical Information Engineering, Gannan Medical University
Fengyuan Luo: School of Medical Information Engineering, Gannan Medical University
Wenkai Liu: School of Medical Information Engineering, Gannan Medical University
Na Li: School of Medical Information Engineering, Gannan Medical University
Tao Hu: School of Medical Information Engineering, Gannan Medical University
Haijian Zhong: School of Medical Information Engineering, Gannan Medical University
You Guo: Medical Big Data and Bioinformatics Research Centre at First Affiliated Hospital of Gannan Medical University
Guini Hong: School of Medical Information Engineering, Gannan Medical University

DOI: https://doi.org/10.1186/s12864-023-09203-w
Journal volume & issue: Vol. 24, no. 1
pp. 1 – 11

Abstract

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Abstract Background Serum microRNAs (miRNAs) are promising non-invasive biomarkers for diagnosing glioma. However, most reported predictive models are constructed without a large enough sample size, and quantitative expression levels of their constituent serum miRNAs are susceptible to batch effects, decreasing their clinical applicability. Methods We propose a general method for detecting qualitative serum predictive biomarkers using a large cohort of miRNA-profiled serum samples (n = 15,460) based on the within-sample relative expression orderings of miRNAs. Results Two panels of miRNA pairs (miRPairs) were developed. The first was composed of five serum miRPairs (5-miRPairs), reaching 100% diagnostic accuracy in three validation sets for distinguishing glioma and non-cancer controls (n = 436: glioma = 236, non-cancers = 200). An additional validation set without glioma samples (non-cancers = 2611) showed a predictive accuracy of 95.9%. The second panel included 32 serum miRPairs (32-miRPairs), reaching 100% diagnostic performance in training set on specifically discriminating glioma from other cancer types (sensitivity = 100%, specificity = 100%, accuracy = 100%), which was reproducible in five validation datasets (n = 3387: glioma = 236, non-glioma cancers = 3151, sensitivity> 97.9%, specificity> 99.5%, accuracy> 95.7%). In other brain diseases, the 5-miRPairs classified all non-neoplastic samples as non-cancer, including stroke (n = 165), Alzheimer’s disease (n = 973), and healthy samples (n = 1820), and all neoplastic samples as cancer, including meningioma (n = 16), and primary central nervous system lymphoma samples (n = 39). The 32-miRPairs predicted 82.2 and 92.3% of the two kinds of neoplastic samples as positive, respectively. Based on the Human miRNA tissue atlas database, the glioma-specific 32-miRPairs were significantly enriched in the spinal cord (p = 0.013) and brain (p = 0.015). Conclusions The identified 5-miRPairs and 32-miRPairs provide potential population screening and cancer-specific biomarkers for glioma clinical practice.

Published in BMC Genomics

ISSN: 1471-2164 (Online)
Publisher: BMC
Country of publisher: United Kingdom
LCC subjects: Technology: Chemical technology: Biotechnology; Science: Biology (General): Genetics
Website: http://bmcgenomics.biomedcentral.com

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