Serum Biomarker Panel for Rapid Early Diagnosis of Lung Cancer

生物标志物 肺癌 自身抗体 医学 癌症 生物标志物发现 内科学 蛋白质微阵列 肿瘤科 抗体 免疫学 微阵列 蛋白质组学 生物 基因表达 基因 生物化学
作者
Shucai Wu,Jiawen Zhang,Hongyan Wei,Ying Liu,Xianli Dai,Jinyu Xue,Ting Shen,Xinyan Liu
出处
期刊:Current Cancer Drug Targets [Bentham Science Publishers]
卷期号:23 (7): 534-546 被引量:4
标识
DOI:10.2174/1568009622666220523154333
摘要

Background: Lung cancer is the leading cause of cancer death in most countries. Although early diagnosis and treatment critically influence prognosis, lung cancers are generally only discovered in the late stages of the disease. Objective: Widely-used screening and diagnostic methods are not suitable for preventive screening, and high-throughput technologies based on serum biomarkers are needed. Methods: We screened 501 serum samples, including 224 lung cancer (LC), 126 disease control (DC), and 151 healthy donor (HC) samples for new serum autoantibodies as biomarkers in the early diagnosis of lung cancer. In phase I, we used HuProtTM microarrays to perform preliminary serum antibody screening on 24 LC and 24 HC samples. In phase II, we screened 60 LC, 60 DC, and 60 HC serum samples using focused arrays constructed with 22 of the candidate autoantibody biomarkers screened out in phase I. Results: After data modeling and validation, we selected four potential early LC protein biomarker candidates, IL2RB, CENPB, TP53, and XAGE1A, with individual specificities >90% and sensitivities ranging from 21.2% to 32.2%. These four biomarkers had a specificity of >90% and a sensitivity of >65.5% for early LC when they combined in a panel. Further evaluation of these four biomarker candidates using ELISA assays and 273 serum samples (140 LC, 66 DC, and 67 HC) gave similar results (specificity of >91.7%, sensitivity >61.43%). Conclusion: IL2RB, CENPB, TP53, and XAGE1A combined biomarker panel holds potential for rapid screening and improving the diagnosis of early-stage LC, thus potentially also improving its prognosis.
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