Large-scale public data reuse to model immunotherapy response and resistance
Tongji University · Dana-Farber Cancer Institute · +5 more institutions
Abstract
Despite growing numbers of immune checkpoint blockade (ICB) trials with available omics data, it remains challenging to evaluate the robustness of ICB response and immune evasion mechanisms comprehensively. To address these challenges, we integrated large-scale omics data and biomarkers on published ICB trials, non-immunotherapy tumor profiles, and CRISPR screens on a web platform TIDE (http://tide.dfci.harvard.edu). We processed the omics data for over 33K samples in 188 tumor cohorts from public databases, 998 tumors from 12 ICB clinical studies, and eight CRISPR screens that identified gene modulators of the anticancer immune response. Integrating these data on the TIDE web platform with three interactive…
Citation impact
- FWCI
- 48.25
- Percentile
- 100%
- References
- 12
Authors
7- JFJingxin FuCorresponding
Tongji University, Dana-Farber Cancer Institute, Shanghai Pulmonary Hospital, Tongji Hospital
- KLKaren Li
- WZWubing Zhang
Tongji University, Dana-Farber Cancer Institute, Shanghai Pulmonary Hospital
- CWChangxin Wan
Tongji University, Dana-Farber Cancer Institute, Shanghai Pulmonary Hospital
- JZJing Zhang
Tongji University, Tongji Hospital
Topics & keywords
- Immunotherapy
- Immune checkpoint
- Medicine
- Computational biology
- CRISPR
- Bioinformatics
- Immune system
- Computer science
- Good health and well-being