| Description | The tumour necrosis factor (TNF) receptor (TNFR) superfamily comprises more than 20 type-I transmembrane proteins. Family members are defined based on similarity in their extracellular domain - a region that contains many cysteine residues arranged in a specific repetitive pattern [ ]. The cysteines allow formation of an extended rod-like structure, responsible for ligand binding []. Upon receptor activation, different intracellular signalling complexes are assembled for different members of the TNFR superfamily, depending on their intracellular domains and sequences []. Activation of TNFRs can therefore induce a range of disparate effects, including cell proliferation, differentiation, survival, or apoptotic cell death, depending upon the receptor involved [, ].TNFRs are widely distributed and play important roles in many crucial biological processes, such as lymphoid and neuronal development, innate and adaptive immunity, and maintenance of cellular homeostasis [ ]. Drugs that manipulate their signalling have potential roles in the prevention and treatment of many diseases, such as viral infections, coronary heart disease, transplant rejection, and immune disease [].TNF receptor 9 (also known as ILA and CD137 antigen) is expressed by activated T and B lymphocytes and monocytes. Stimulation of the receptor inhibits proliferation of activated T lymphocytes and induces programmed cell death [ ]. | Name | Tumour necrosis factor receptor 9 |
| Short Name | TNFR_9 | Type | Family |
Powered by
Have you tried our InterMine mobile apps?
and interoperation is funded by 
