Frontiers in Oncology (Feb 2021)

Identification of Novel Autoantibodies Based on the Human Proteomic Chips and Evaluation of Their Performance in the Detection of Gastric Cancer

  • Chi Cui,
  • Chi Cui,
  • Yaru Duan,
  • Yaru Duan,
  • Cuipeng Qiu,
  • Cuipeng Qiu,
  • Peng Wang,
  • Peng Wang,
  • Peng Wang,
  • Guiying Sun,
  • Guiying Sun,
  • Hua Ye,
  • Hua Ye,
  • Hua Ye,
  • Liping Dai,
  • Liping Dai,
  • Liping Dai,
  • Zhuo Han,
  • Zhuo Han,
  • Chunhua Song,
  • Chunhua Song,
  • Kaijuan Wang,
  • Kaijuan Wang,
  • Jianxiang Shi,
  • Jianxiang Shi,
  • Jianxiang Shi,
  • Jianxiang Shi,
  • Jianying Zhang,
  • Jianying Zhang,
  • Jianying Zhang,
  • Jianying Zhang

DOI
https://doi.org/10.3389/fonc.2021.637871
Journal volume & issue
Vol. 11

Abstract

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Autoantibodies against tumor-associated antigens (TAAbs) can be used as potential biomarkers in the detection of cancer. Our study aims to identify novel TAAbs for gastric cancer (GC) based on human proteomic chips and construct a diagnostic model to distinguish GC from healthy controls (HCs) based on serum TAAbs. The human proteomic chips were used to screen the candidate TAAbs. Enzyme-linked immunosorbent assay (ELISA) was used to verify and validate the titer of the candidate TAAbs in the verification cohort (80 GC cases and 80 HCs) and validation cohort (192 GC cases, 128 benign gastric disease cases, and 192 HCs), respectively. Then, the diagnostic model was established by Logistic regression analysis based on OD values of candidate autoantibodies with diagnostic value. Eleven candidate TAAbs were identified, including autoantibodies against INPP5A, F8, NRAS, MFGE8, PTP4A1, RRAS2, RGS4, RHOG, SRARP, RAC1, and TMEM243 by proteomic chips. The titer of autoantibodies against INPP5A, F8, NRAS, MFGE8, PTP4A1, and RRAS2 were significantly higher in GC cases while the titer of autoantibodies against RGS4, RHOG, SRARP, RAC1, and TMEM243 showed no difference in the verification group. Next, six potential TAAbs were validated in the validation cohort. The titer of autoantibodies against F8, NRAS, MFGE8, RRAS2, and PTP4A1 was significantly higher in GC cases. Finally, an optimal prediction model with four TAAbs (anti-NRAS, anti-MFGE8, anti-PTP4A1, and anti-RRAS2) showed an optimal diagnostic performance of GC with AUC of 0.87 in the training group and 0.83 in the testing group. The proteomic chip approach is a feasible method to identify TAAbs for the detection of cancer. Moreover, the panel consisting of anti-NRAS, anti-MFGE8, anti-PTP4A1, and anti-RRAS2 may be useful to distinguish GC cases from HCs.

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