TNFSF9

TNFSF9 is a protein that in humans is encoded by the TNFSF9 gene. This protein is a member of the tumor necrosis factor (TNF) ligand family, which is known for playing a pivotal role in immune system regulation and inflammatory processes. TNFSF9 is also commonly referred to as CD137L or 4-1BBL, indicating its role as a ligand for the CD137 receptor, a costimulatory molecule involved in the activation and survival of T cells.

Function

TNFSF9 is primarily expressed on antigen-presenting cells (APCs) such as dendritic cells, macrophages, and activated B cells. The interaction between TNFSF9 and its receptor, CD137 (also known as 4-1BB), is crucial for the costimulation of T lymphocytes. This costimulatory signal enhances T cell proliferation, cytokine production, and survival. Additionally, the TNFSF9-CD137 axis is involved in the regulation of immune responses, including the promotion of antitumor immunity. Studies have shown that targeting this pathway can enhance the efficacy of cancer immunotherapy by boosting the immune system's ability to fight cancer cells.

Clinical Significance

The TNFSF9-CD137 interaction has been identified as a potential therapeutic target in cancer treatment. Agonistic antibodies to CD137 are being investigated in clinical trials for their ability to enhance antitumor immunity. Conversely, the pathway's role in autoimmune diseases is also under study, with the potential for therapeutic interventions aimed at inhibiting this interaction to treat conditions characterized by excessive immune responses.

Gene

The TNFSF9 gene is located on chromosome 19 in humans. It encodes a type II transmembrane protein that is primarily expressed on the surface of APCs. The gene and its encoded protein are involved in the regulation of immune responses, particularly in the activation and survival of T cells.

Research Directions

Research on TNFSF9 and its receptor CD137 is focused on understanding their roles in immune regulation and their potential as targets for immunotherapy. Studies are exploring the use of agonistic antibodies to enhance the immune response against cancer cells and investigating the pathway's involvement in autoimmune diseases and potential for therapeutic intervention.

References

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