Abstract
A missense single-nucleotide polymorphism in the gene encoding the lymphoid-specific tyrosine phosphatase (Lyp) has been identified as a causal factor in a wide spectrum of autoimmune diseases. Interestingly, the autoimmune-predisposing variant of Lyp appears to represent a gain-of-function mutation, implicating Lyp as an attractive target for the development of effective strategies for the treatment of many autoimmune disorders. Unfortunately, the precise biological functions of Lyp in signaling cascades and cellular physiology are poorly understood. Identification and characterization of Lyp substrates will help define the chain of molecular events coupling Lyp dysfunction to diseases. In the current study, we identified consensus sequence motifs for Lyp substrate recognition using an "inverse alanine scanning" combinatorial library approach. The intrinsic sequence specificity data led to the discovery and characterization of SKAP-HOM, a cytosolic adaptor protein required for proper activation of the immune system, as a bona fide Lyp substrate. To determine the molecular basis for Lyp substrate recognition, we solved crystal structures of Lyp in complex with the consensus peptide as well as the phosphopeptide derived from SKAP-HOM. Together with the biochemical data, the structures define the molecular determinants for Lyp substrate specificity and provide a solid foundation upon which novel therapeutics targeting Lyp can be developed for multiple autoimmune diseases.
Highlights
How this process is abrogated in the pathogenesis of human diseases must necessarily include characterization of proteintyrosine phosphatases (PTPs),4 in addition to protein-tyrosine kinases
The lymphoid-specific tyrosine phosphatase (Lyp) has garnered tremendous interest due to the observation that a missense C1858T single nucleotide polymorphism in the gene (PTPN22) encoding Lyp is associated with multiple autoimmune disorders, including type I diabetes [3], rheumatoid arthritis [4, 5], Graves disease [6], and systemic lupus erythematosus [7]
Recent studies of PTPN22 C1858T carriers point to a role for Lyp in B cell signaling, indicating that a combination of disregulation of T cell, B cell, and possibly macrophage function by the Lyp/R620W mutant may contribute to autoimmunity (14 –16)
Summary
Lyp substrate specificity using an “inverse alanine scanning” peptide library approach [18]. The obtained consensus peptide corresponds to a stretch of amino acid sequence in the integrinsignaling adaptor SKAP-HOM [19, 20], which is a homolog of Src kinase-associated protein of 55 kDa (SKAP-55) [21]. Biochemical and substrate-trapping studies support the notion that SKAP-HOM is a bona fide Lyp substrate. To determine the molecular basis for Lyp substrate recognition, we solved crystal structures of Lyp in complex with the consensus peptide as well as the phosphopeptide derived from SKAP-HOM. Together with the biochemical data, the structures define the molecular determinants for Lyp substrate specificity and provide a solid foundation upon which novel therapeutics targeting Lyp can be developed for multiple autoimmune disorders
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