BARCELONA, Spain, Sept. 20, 2024 /PRNewswire/ -- The highly anticipated 2024 European Society for Medical Oncology (ESMO) Annual Congress has taken place from September 13 to 17 in Barcelona, Spain. As one of the most influential annual gatherings in oncology, this congress brings together leading cancer experts and researchers from around the globe, showcasing the latest advancements in the field and providing high-quality educational and networking opportunities for oncology professionals.
Biosyngen, an innovative biotechnology company specializing in immune cell therapies, has showcased its groundbreaking technology on gene-modified, functionally enhanced tumor-infiltrating lymphocytes (TILs) derived from liver cancer biopsy samples.
BioSyngen has secured ten clinical trial approvals in China and the U.S. for its innovative fourth-generation oncology therapies. Currently, our leading pipeline product, BRG01, is in the pivotal Phase II clinical trial stage for solid tumors. Additionally, the first patients have been enrolled in the Phase I trials for our other groundbreaking therapies, BST02 and BRL03, with completion of Phase I trials anticipated later this year.
Abstract Title
Pre-clinical Development of Genetically Modified Tumor-infiltrating Lymphocytes using Biopsy Samples from Liver Cancer Patients
Abstract No.
1034P
Tumor-infiltrating lymphocytes (TILs) are heterogeneous lymphocyte populations within the tumor microenvironment that contains T cells capable of recognizing tumor- or virus-associated antigens. In February of this year, the FDA approved the first TIL-based therapy used with IL-2 for advanced metastatic/recurrent melanoma. However, due to the variability in T cell infiltration between hot and cold tumors, differential abundance of antigen-specific T cells with robust immune response functionality, and the dependence of TIL anti-tumor efficacy on concomitant use of high-dose IL-2 combination therapy, the therapeutic applications of non-edited TILs are quite limited outside of melanoma.
To address these challenges, Biosyngen has developed a proprietary platform for expanding TILs from biopsy samples, achieving production of 1011 cells within four weeks. Additionally, the company has established a stable gene modification platform that reprograms TIL metabolism, enhances TIL activity and sustained antitumor efficacy by expressing membrane anchor proteins. Anti-tumor efficacy has significantly enhanced (without IL-2 co-injection) and no obvious toxicity observed.
Biosyngen houses best-in-class proprietary TIL platform aiming to expand the clinical applications of TIL technology with following features: