Akiko Joo scite author profile

Suppressor of cytokine signaling-1 (SOCS1) was identi¢ed as the negative regulator of Janus kinase (JAK) and signal transducer and activator of transcription (STAT) signal transduction pathway. However, the kinetics and control mechanism of the pathway have not yet been fully understood. We have developed the computer simulation of the JAK/STAT pathway. Without nuclear phosphatase, SOCS1's binding to JAK did not cause the decrease in nuclear phosphorylated STAT1. However, without SH2 domain-containing tyrosine phosphatase 2 (SHP-2) or cytoplasmic phosphatase, it did. So nuclear phosphatase is considered to be the most important in this system. By changing parameters of the model, dynamical characteristics and control mechanism were investigated.

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STAP-2/BKS, an Adaptor/Docking Protein, Modulates STAT3 Activation in Acute-phase Response through Its YXXQ Motif

Minoguchi¹,

Minoguchi²,

Aki³

et al. 2003

Journal of Biological Chemistry

154

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As a c-fms-interacting protein, we cloned a novel adaptor molecule, signal-transducing adaptor protein-2 (STAP-2), which contains pleckstrin homology-and Src homology 2-like (PH and SRC) domains and a prolinerich region. STAP-2 is structurally related to STAP-1/ BRDG1 (BCR downstream signaling-1), which we had cloned previously from hematopoietic stem cells. STAP-2 is a murine homologue of a recently identified adaptor molecule, BKS, a substrate of BRK tyrosine kinase. STAP-2 was tyrosine-phosphorylated and translocated to the plasma membrane in response to epidermal growth factor when overexpressed in fibroblastic cells. To define the function of STAP-2, we generated mice lacking the STAP-2 gene. STAP-2 mRNA was strongly induced in the liver in response to lipopolysaccharide and in isolated hepatocytes in response to interleukin-6. In the STAP-2 ؊/؊ hepatocytes, the interleukin-6-induced expression of acute-phase (AP) genes and the tyrosinephosphorylation level of STAT3 were reduced specifically at the late phase (6 -24 h) of the response. These data indicate that STAP-2 plays a regulatory role in the AP response in systemic inflammation. STAP-2 contains a YXXQ motif in the C-terminal region that is a potential STAT3-binding site. Overexpression of wild-type STAP-2, but not of mutants lacking this motif, enhanced the AP response element reporter activity and an AP protein production. These data suggest that STAP-2 is a new class of adaptor molecule that modulates STAT3 activity through its YXXQ motif.Tyrosine kinases play an important role in regulating cell growth, differentiation, and transformation. Activated receptor tyrosine kinases trans-phosphorylate several tyrosines in their cytoplasmic domains, which provide recognition sites for various adaptor and effector proteins in multiple signal transduction pathways (1, 2). These adaptor proteins utilize their Src homology-2 (SH2) 1 and SH3 domains to mediate the interactions that link different proteins involved in signal transduction. For example, the adaptor protein Grb2 links a variety of surface receptors to the Ras/MAP kinase signaling cascade. Grb2 interacts with activated receptor tyrosine kinases via its SH2 domain and recruits the guanine nucleotide-releasing factor, SOS (Son of Sevenless), close to its target protein, Ras, at the cell membrane. Phosphoinositide-3-OH kinase (PI3K) and phospholipase C␥ (PLC␥) are also recruited to receptor tyrosine kinases through their SH2 domains. Growth factor-induced membrane recruitment of signaling proteins is also mediated by a family of docking proteins. These docking proteins contain an N-terminal membrane-targeting domain, such as the PH domain, and C-terminal multiple tyrosine phosphorylation sites for recruiting SH2 domain-containing proteins. A significant effort has been made to search for novel adaptor and docking proteins, because these molecules will uncover the unique signal transduction and modulation mechanisms of receptor tyrosine kinases.Signal transducer and activator of transcription (STAT) fam...

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SOCS1 Is a Suppressor of Liver Fibrosis and Hepatitis-induced Carcinogenesis

et al. 2004

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Hepatocellular carcinomas (HCCs) mainly develop from liver cirrhosis and severe liver fibrosis that are established with long-lasting inflammation of the liver. Silencing of the suppressor of the cytokine signaling-1 (SOCS1) gene, a negative regulator of cytokine signaling, by DNA methylation has been implicated in development or progress of HCC. However, how SOCS1 contributes to HCC is unknown. We examined SOCS1 gene methylation in >200 patients with chronic liver disease and found that the severity of liver fibrosis is strongly correlated with SOCS1 gene methylation. In murine liver fibrosis models using dimethylnitrosamine, mice with haploinsufficiency of the SOCS1 gene (SOCS1−/+ mice) developed more severe liver fibrosis than did wild-type littermates (SOCS1+/+ mice). Moreover, carcinogen-induced HCC development was also enhanced by heterozygous deletion of the SOCS1 gene. These findings suggest that SOCS1 contributes to protection against hepatic injury and fibrosis, and may also protect against hepatocarcinogenesis.

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STAT3 and MITF cooperatively induce cellular transformation through upregulation of c-fos expression

et al. 2004

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The signal transducer and activator of transcription (STAT) family proteins are transcription factors critical in mediating cytokine signaling. Among them, STAT3 is frequently activated in a number of human cancers and transformed cell lines and is implicated in tumorigenesis. However, although constitutively activated STAT3 mutant (STAT3C) leads to cellular transformation, its transformation potential such as colony-forming activity in soft-agar is much weaker than that of v-src. To identify tumorigenic factors that cooperatively induce cellular transformation with STAT3C, we screened the retroviral cDNA library. We found that the microphthalmiaassociated transcription factor (MITF), an essential transcription factor for melanocyte development and pigmentation, induces anchorage-independent growth of NIH-3T3 cells in cooperation with STAT3C. Microarray analysis revealed that c-fos is highly expressed in transformants expressing STAT3C and MITF. Promoter analysis and chromatin immunoprecipitation assay suggested that both STAT3 and MITF can cooperatively upregulate the c-fos gene. In addition, the transformation of NIH-3T3 cells by both MITF and STAT3C was significantly suppressed by a dominant-negative AP-1 retrovirus. These data indicate that MITF and STAT3 cooperatively induce c-fos, resulting in cellular transformation.

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Association study of polymorphisms in the GluR5 kainate receptor gene (GRIK1) with schizophrenia

Shibata

Joo

Fujii

et al. 2001

Psychiatric Genetics

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The glutamatergic dysfunction hypothesis suggests genes involved in glutamatergic transmission as candidates for schizophrenia susceptibility genes. We screened single nucleotide polymorphisms (SNPs) in the entire coding sequence of the GluR5 kainate receptor gene, GRIK1, by polymerase chain reaction-single strand conformation polymorphism and direct sequencing. We identified six SNPs including three known ones, 522A/C (174T, synonymous), 1173C/T (391D, synonymous), and 2705C/T (902L/S), as well as three novel ones, 995C/T (332A/V), 2400C/T (800L, synonymous), and 2585A/G (862R/Q). We genotyped Japanese samples of schizophrenia (n = 193-203) and healthy controls (n = 199-215) for three SNPs those were commonly observed in our samples, 522A/C, 1173C/T, and 2705C/T. We observed no significant associations of the SNPs and their haplotypes with schizophrenia. Therefore, we conclude that GRIK1 does not play a major role in schizophrenia pathogenesis in the Japanese population.

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Akiko Joo

Control mechanism of JAK/STAT signal transduction pathway

STAP-2/BKS, an Adaptor/Docking Protein, Modulates STAT3 Activation in Acute-phase Response through Its YXXQ Motif

SOCS1 Is a Suppressor of Liver Fibrosis and Hepatitis-induced Carcinogenesis

STAT3 and MITF cooperatively induce cellular transformation through upregulation of c-fos expression

Association study of polymorphisms in the GluR5 kainate receptor gene (GRIK1) with schizophrenia

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