TS-066052 — Novel T-cells expressing the IL-2a receptor to enhance cancer cell targeting.

TS-066051 — Novel antibodies targeting IL-2 with the ability to inhibit IL-2 signaling through IL-2 Rαβg to a greater extent than through IL-2 Rβg.

TS-065697 — Chimeric B-cell epitope peptide vaccines targeting human PD-L1 and/or CTLA-4 to induce immune response against the PD-1/PD-L1 signaling pathway.

TS-065460 — The Need Cancer remains one of the most pressing medical challenges worldwide, necessitating novel therapeutic approaches to combat its proliferation. Despite advancements, targeted therapies are often limited by immune responses or cumbersome production processes. There's a growing demand for …

TS-065453 — The Need: Colon cancer remains one of the most prevalent and lethal forms of cancer worldwide. Timely and accurate diagnosis is critical for effective treatment and improved patient outcomes. Current diagnostic methods often lack the precision and sensitivity needed for early detection and prognosi…

TS-064581 — Antibodies are essential therapeutic modalities for treating a plethora of different diseases, ranging from cancer, autoimmune disorders, degenerative diseases, and inflammation. The FDA approved the first antibody over three decades ago, and since more than 570 have been studied in clinical trials,…

TS-064577 — Glioblastoma (GBM) is the most common malignant brain tumor accounting for 47.7% of all brain cancers. Unfortunately, treatments are limited, and survival is poor, with approximately only 40% living past the first-year post-diagnosis and 17% in the second year. The Need Developing drugs for cance…

TS-064262 — The Need Addressing the limitations of current melanoma therapies, there exists a critical need for innovative approaches that enhance the effectiveness of immune checkpoint therapeutics. Despite advancements in immunotherapy, a significant percentage of melanoma patients do not achieve complete re…

TS-064248 — The Notch signaling pathway is important in immune cell differentiation and maturation. As a result, it has been shown that Notch receptor signaling can promote or suppress adaptive immune responses depending on the particular ligands and receptors involved. A set of native protein-inspired biolog…

TS-062822 — Humanized Antibody-drugs conjugate for chemo-immunotherapy of multiple cancer types