Research Paper Volume 11, Issue 23 pp 11010—11029

Reactive oxygen species metabolism-based prediction model and drug for patients with recurrent glioblastoma

Nian Tan1, , Jianwei Liu1, , Ping Li1, , Zhaoying Sun1, , Jianming Pan1, , Wei Zhao1, ,

  • 1 Department of Human Anatomy, College of Integrated Traditional Chinese and Western Medicine, Tianjin University of Traditional Chinese Medicine, Tianjin, P. R. China

Received: August 7, 2019       Accepted: November 18, 2019       Published: December 4, 2019      

https://doi.org/10.18632/aging.102506
How to Cite

Copyright © 2019 Tan et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY 3.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

Abstract

Background: Tumor recurrence is the main cause of poor prognosis of GBM. Finding the characteristics of recurrent GBM that provide early warning of tumor recurrence can provide guidance for the clinical treatment of recurrent GBM.

Results: Reactive oxygen species (ROS) biosynthetic processes was significantly elevated in recurrent GBM. The recurrent risk score based on the ROS biosynthetic process was closely related to tumor purity and tumor immune functions. The quantitative risk assessment system could be used to predict the recurrence time of GBM. Gallic acid, a compound with high anti-oxidation activity and low cytotoxicity, was screened as a potential chemotherapy sensitizer for recurrent GBM.

Conclusion: The quantitative risk assessment system based on ROS biosynthetic process could be used for early warning of GBM recurrence. Combination of low-dose gallic acid and temozolomide could improve therapeutic outcomes in recurrent GBM.

Methods: A total of 663 primary and recurrent GBM samples with clinical and microarray data were included in this study. GSVA, LASSO-COX, and Kaplan-Meier survive curve were performed to construct and verify a quantitative risk assessment system for GBM recurrence prediction. An antioxidant capacity test and cell viability test were used to discover potential drugs for recurrent GBM.

Abbreviations

GBM: Glioblastoma; ROS: Reactive oxygen species; TMZ: Temozolomide; QRA: the quantitative risk assessment; GSVA: Gene set variation analysis; MGMT: O6-Methylguanine-DNA methyltransferase; KPS: Karnofsky performance score.