Rmed at the Monash Micro-Imaging Facility at Monash University.Author ContributionsConceived

Rmed at the Monash Micro-Imaging Facility at Monash University.Author ContributionsConceived

Rmed at the Monash Micro-Imaging Facility at Monash University.Author ContributionsConceived and designed the experiments: YS JL. MedChemExpress 58-49-1 Performed the experiments: YS XQ XZ. Analyzed the data: YS JL. Contributed reagents/materials/analysis tools: JL. Wrote the paper: YS JL GC JB.
LYP (lymphoid tyrosine phosphatase), encoded by the human gene PTPN22, is a classical protein tyrosine FCCP cost phosphatase (PTP) included in the group of PEST (Pro, Glu, Ser, and Thr) phosphatases [1], which also contains PTP-PEST and HSCF phosphatases. They share a highly similar N-terminal PTP domain and a Pro-rich motif (PRM) in the C-terminus 15755315 called CTH (Cterminal homology domain). LYP and PTP-PEST present others PRMs, in addition to the CTH, In particular, LYP includes two other PRM: P1 motif (aa 615?20), and P2 motif (aa 690?00). Another characteristic to all the PEST phosphatases is the capacity to bind CSK, the kinase that regulates negatively Src family kinases (SFKs) [2]. LYP expression is restricted to hematopoietic cells. Studies on T lymphocytes have implicated this phosphatase in the regulation of TCR signaling pathways [3] where several proteins have been proposed to be LYP substrates, for example vav, the f chain [4], Cbl [5] and the kinases LCK, Fyn and Zap-70 [4,6]. Among these proteins, the best characterized substrate of LYP is LCK, a SFK (Src family kinase) critical for T-cell development and activation. LYP dephosphorylates LCK Tyr394, the positive regulatory Tyr placed in its activation loop [4]. Another critical residue for LCK activity is the C-terminal Tyr505 that, when is phosphorylated by CSK, interacts intramolecularly with the SH2 domain and favors a closed and inactive conformation of LCK. It has been proposed that the concerted action of the tandem formed by Pep and CSK inactivates LCK [6,7,8].The description in LYP of a single nucleotide polymorphism (SNP) [9,10] associated to several autoimmune diseases such as type 1 diabetes, systemic lupus erytematosus and rheumatoid arthritis [11] indicates that this phosphatase plays a critical role in the regulation of the immune response. This SNP, C1858T, changes into a Trp the Arg620 present in the P1 PRM that binds to CSK SH3 domain [9,12]. Based on data obtained in T 1081537 lymphocytes, LYPW has been proposed to be a gain-of-function variant with increased phosphatase activity that reduces early Tcell signaling parameters such as Ca2+ mobilization and LCK phosphorylation [13]. Nevertheless, it is not fully clear how these changes in early signaling affect T cell physiology. A recent work has proposed that a reduced interaction with CSK leads to a lower tyrosine phosphorylation of LYP in a negative regulatory site, responsible for the increase in the activity of LYP [14]. Although the gain-of-function phenotype has received support from several studies, there is no agreement on this point; and recent reports have claimed that LYPW is a loss of function variant [15,16]. Furthermore, knockout mice deficient in Pep phosphatase did not develop any autoimmune disease [17], despite augmented LCK activity in re-stimulated T-lymphocytes and an increase in the number of germinal centers. Current knowledge about LYP/CSK binding is mainly based on the study of Csk interaction with Pep [6,8,12]. However, no detailed study has been yet reported on the association of LYP with CSK to determine the validity of this model in human cells, which is relevant to the pathogenesis of autoimmune diseases. Therefore, to determine h.Rmed at the Monash Micro-Imaging Facility at Monash University.Author ContributionsConceived and designed the experiments: YS JL. Performed the experiments: YS XQ XZ. Analyzed the data: YS JL. Contributed reagents/materials/analysis tools: JL. Wrote the paper: YS JL GC JB.
LYP (lymphoid tyrosine phosphatase), encoded by the human gene PTPN22, is a classical protein tyrosine phosphatase (PTP) included in the group of PEST (Pro, Glu, Ser, and Thr) phosphatases [1], which also contains PTP-PEST and HSCF phosphatases. They share a highly similar N-terminal PTP domain and a Pro-rich motif (PRM) in the C-terminus 15755315 called CTH (Cterminal homology domain). LYP and PTP-PEST present others PRMs, in addition to the CTH, In particular, LYP includes two other PRM: P1 motif (aa 615?20), and P2 motif (aa 690?00). Another characteristic to all the PEST phosphatases is the capacity to bind CSK, the kinase that regulates negatively Src family kinases (SFKs) [2]. LYP expression is restricted to hematopoietic cells. Studies on T lymphocytes have implicated this phosphatase in the regulation of TCR signaling pathways [3] where several proteins have been proposed to be LYP substrates, for example vav, the f chain [4], Cbl [5] and the kinases LCK, Fyn and Zap-70 [4,6]. Among these proteins, the best characterized substrate of LYP is LCK, a SFK (Src family kinase) critical for T-cell development and activation. LYP dephosphorylates LCK Tyr394, the positive regulatory Tyr placed in its activation loop [4]. Another critical residue for LCK activity is the C-terminal Tyr505 that, when is phosphorylated by CSK, interacts intramolecularly with the SH2 domain and favors a closed and inactive conformation of LCK. It has been proposed that the concerted action of the tandem formed by Pep and CSK inactivates LCK [6,7,8].The description in LYP of a single nucleotide polymorphism (SNP) [9,10] associated to several autoimmune diseases such as type 1 diabetes, systemic lupus erytematosus and rheumatoid arthritis [11] indicates that this phosphatase plays a critical role in the regulation of the immune response. This SNP, C1858T, changes into a Trp the Arg620 present in the P1 PRM that binds to CSK SH3 domain [9,12]. Based on data obtained in T 1081537 lymphocytes, LYPW has been proposed to be a gain-of-function variant with increased phosphatase activity that reduces early Tcell signaling parameters such as Ca2+ mobilization and LCK phosphorylation [13]. Nevertheless, it is not fully clear how these changes in early signaling affect T cell physiology. A recent work has proposed that a reduced interaction with CSK leads to a lower tyrosine phosphorylation of LYP in a negative regulatory site, responsible for the increase in the activity of LYP [14]. Although the gain-of-function phenotype has received support from several studies, there is no agreement on this point; and recent reports have claimed that LYPW is a loss of function variant [15,16]. Furthermore, knockout mice deficient in Pep phosphatase did not develop any autoimmune disease [17], despite augmented LCK activity in re-stimulated T-lymphocytes and an increase in the number of germinal centers. Current knowledge about LYP/CSK binding is mainly based on the study of Csk interaction with Pep [6,8,12]. However, no detailed study has been yet reported on the association of LYP with CSK to determine the validity of this model in human cells, which is relevant to the pathogenesis of autoimmune diseases. Therefore, to determine h.

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