PTPN22

Protein tyrosine phosphatase, non-receptor type 22 (lymphoid), also known as PTPN22, is a is_associated_with::protein that in humans is encoded by the PTPN22 is_associated_with::gene. This gene can be expressed in different forms. PTPN22 affects the responsiveness of T and B cell receptors, and mutations are associated with increases or decreases in risks of autoimmune diseases.

Molecular biology
The gene is located on the short arm of Chromosome 1 near the end (is_associated_with::telomere) (1p13.2) on the Crick (minus) strand. It is 57,898 bases in length and encodes a protein of 807 amino acids (molecular weight 91,705 Da). There are 24 is_associated_with::exons in the gene and 21 transcript variants encoding 10 distinct proteins are known. The proteins are located in the is_associated_with::cytoplasm.

Function
This gene encodes a is_associated_with::protein tyrosine phosphatase which is expressed primarily in lymphoid tissues. This enzyme is involved in several signalling pathways associated with the immune response. Based on models of the murine phosphatase, structural identification, and human genetics the phosphatase forms complexes with is_associated_with::C-src tyrosine kinase (Csk), associated with the control of Src family members. The mutation Arg620Trp disrupts binding to Csk, alters the responsiveness of T and B cell receptors, and is associated with autoimmune diseases. There are other suggestions that the phosphatase regulates CBL function in the is_associated_with::T cell receptor signaling pathway. Other interactions are likely.

Disease association
The common 1858T (rs2476601) Arg620Trp nonsynonymous is_associated_with::single nucleotide polymorphism located in the PTPN22 gene has been associated with autoimmune disorders, including an increased risk of is_associated_with::Type 1 Diabetes, is_associated_with::rheumatoid arthritis, is_associated_with::Systemic Lupus Erythematosus, is_associated_with::Vitiligo and is_associated_with::Graves' disease, but a decreased risk of is_associated_with::Crohn's disease.

A recent study suggests that the mutation does not, on a population basis, reduce life span. The mutation may be conserved in human evolution because it may provide a hyper-immune response to infectious disease.

Mutations in PTPN22 are over-represented in is_associated_with::breast cancer.