HKUST-led Research Unveils Early Predictors of Glioma Evolution by Self-constructed Machine-learning Model CELLO2 | The Hong Kong University of Science and Technology

October 10, 2023

After analyzing the big data, the team found early predictors associated with TMZ-resistance and rapid progression of gliomas. These predictors include increased expression of regulator gene MYC or MYC-targets activation at initial diagnosis, which lead to treatment-induced hypermutation. The research was conducted in collaboration with Beijing Tiantan Hospital, Samsung Medical Center, and Prince of Wales Hospital at the Chinese University of Hong Kong (CUHK). About The Hong Kong University of Science and TechnologyThe Hong Kong University of Science and Technology (HKUST) (https://hkust.edu.hk/) is a world-class research intensive university that focuses on science, technology and business as well as humanities and social science. Over 80% of our research work were rated “Internationally excellent” or “world leading” in the Research Assessment Exercise 2020 of Hong Kong’s University Grants Committee.

An international research team led by Hong Kong University of Science and Technology (HKUST) has unveiled how primary brain tumors evolve under therapy, and developed an artificial intelligence (AI)-powered model for patients to predict their prognosis, shedding light on better patient management strategies and precision oncology.

Malignant diffuse gliomas are the most common primary brain tumors in adults, which are primarily treated through a combination of surgery, radiotherapy, and the chemotherapy agent temozolomide (TMZ). However, TMZ treatment can usually only prolong patients’ overall survival time for around three months, as they almost inevitably suffer a relapse of aggressive gliomas. Until now, the molecular mechanisms driving the glioma evolution under the standard therapy remain elusive.

To unravel the mystery, the research team led by Prof. WANG Jiguang, Padma Harilela Associate Professor of Life Science in the HKUST’s Division of Life Science and Department of Chemical and Biological Engineering, comprehensively analyzed molecular and clinical data of tumor samples from 544 glioma patients, including 182 patients of East Asian descent, to identify genomic and transcriptomic predictors of tumor evolution in all glioma subtypes. 

After analyzing the big data, the team found early predictors associated with TMZ-resistance and rapid progression of gliomas. These predictors include increased expression of regulator gene MYC or MYC-targets activation at initial diagnosis, which lead to treatment-induced hypermutation. Additionally, the deletion of CDKN2A gene at the time of diagnosis was also found to strongly predict the tumor’s accelerated advancement to later stages.

The team further discovered that East Asian brain tumors have remarkably different genetic mutations as compared to their Caucasian counterparts. East Asian patients see a reduced frequency of chromosomes 7-gain and 10-loss, as well as an increased frequency of MYC copy number gain. Additionally, rs55705857(G) – a known high-glioma risk factor found in Caucasian patients – is less frequently observed in East Asian population. 

“These findings emphasize the significance of tailored therapies targeting cancers,” said Prof. Wang. “We believe the discovery of these early predictors in glioma evolution could help develop precision medicine of this aggressive type of brain tumor, especially for recurrent patients.”

To help better evaluate patient prognosis, the research team developed a machine learning model named CELLO2 (Cancer EvoLution for LOngitudinal data version 2), to evaluate patient prognosis after the initial diagnosis. The trained model could accurately predict whether the recurrent tumor will progress into more aggressive forms under the TMZ treatment, and to identify patients of higher risk.

To facilitate public access to the predictive model, the team developed an interactive and openly available web portal (CELLO2) for patients and doctors to explore longitudinal glioma data resource and make predictions regarding the development of treatment-induced hypermutation and grade progression based on clinical and genomic features. The platform serves as a valuable tool for patients, allowing them to gain a deeper understanding of the aggressiveness of their brain tumors. 

Prof. JIANG Tao, Professor of Beijing Tiantan Hospital at Capital Medical University and Director of Beijing Neurosurgical Institute said, "CELLO2 is the first valuable tool to predict the potential increase in recurrent tumor grade or drug resistance based on molecular features of the primary tumor. It provides important references for clinical management and prognosis estimation."

The research was conducted in collaboration with Beijing Tiantan Hospital, Samsung Medical Center, and Prince of Wales Hospital at the Chinese University of Hong Kong (CUHK). Their findings were recently published in Science Translational Medicine.

Moving forward, the team plans to further enhance the machine-learning model by integrating additional patient data, which could help explore other molecular mechanisms that also play a role in the development of drug resistance within gliomas. The team is also working with CUHK, Beijing Tiantan Hospital and Shanghai Huashan Hospital to develop an AI platform that combines imaging and multi-omics data to advance precision neuro-oncology.

About The Hong Kong University of Science and Technology 
The Hong Kong University of Science and Technology (HKUST) (https://hkust.edu.hk/) is a world-class research intensive university that focuses on science, technology and business as well as humanities and social science. HKUST offers an international campus, and a holistic and interdisciplinary pedagogy to nurture well-rounded graduates with global vision, a strong entrepreneurial spirit and innovative thinking. Over 80% of our research work were rated “Internationally excellent” or “world leading” in the Research Assessment Exercise 2020 of Hong Kong’s University Grants Committee. We were ranked 2nd in Times Higher Education’s Young University Rankings 2023, and our graduates were ranked 30th worldwide and among the best from universities from Asia in Global Employability University Ranking and Survey 2022. As of September 2023, HKUST members have founded 1,747 active start-ups, including 9 Unicorns and 13 exits (IPO or M&A), generating economic impact worth over HK$ 400 billion. InvestHK cited QS World University Rankings by Subject 2021 to demonstrate the performance of five world’s top 100 local universities in several innovation-centric areas, among which HKUST ranked top in four engineering and materials science subjects.

The source of this news is from The Hong Kong University of Science and Technology

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