Sarasija Hoare scite author profile

Tnk1/Kos1 is a non-receptor protein tyrosine kinase implicated in negatively regulating cell growth in a mechanism requiring its intrinsic catalytic activity. Tnk1/Kos1 null mice were created by homologous recombination by deleting the catalytic domain. Both Tnk1 +/À and Tnk1 À/À mice develop spontaneous tumors, including lymphomas and carcinomas, at high rates [27% (14 of 52) and 43% (12 of 28), respectively]. Tnk1/Kos1 expression is silenced in tumors that develop in Tnk1 +/À mice but not in adjacent uninvolved tissue, and silencing occurs in association with Tnk1 promoter hypermethylation. Tissues and murine embryonic fibroblasts derived from Tnk1/Kos1-null mice exhibit proportionally higher levels of basal and epidermal growth factor-stimulated Ras activation that results from increased Ras-guanine exchange factor (GEF) activity. Mechanistically, Tnk1/Kos1 can directly tyrosine phosphorylate growth factor receptor binding protein 2 (Grb2), which promotes disruption of the Grb2-Sos1 complex that mediates growth factor-induced Ras activation, providing dynamic regulation of Ras GEF activity with suppression of Ras. Thus, Tnk1/Kos1 is a tumor suppressor that functions to down-regulate Ras activity.

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Identification of a GABP / Binding Site Involved in the Induction of Oxytocin Receptor Gene Expression in Human Breast Cells. Potentiation by c-Fos/c-Jun

Hoare¹

1999

Endocrinology

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Oxytocin (OT) receptors (OTRs) mediate reproductive functions, including the initiation of labor and milk ejection. OTR messenger RNA levels are highly regulated, reaching the greatest concentration in the uterus at the end of gestation, and in the mammary gland during lactation. Factors directly effecting changes in OTR gene expression in the mammary gland are not known, so the present studies were done to elucidate possible regulators by characterizing the human OTR gene promoter and 5'-flanking sequence. By analyzing expression of promoter-luciferase constructs, we localized a region between -85 and -65 that was required for both basal and serum-induced expression in a mammary tumor cell line (Hs578T) that expresses inducible, endogenous OTRs. This DNA region contains an ets family target sequence (5'-GGA-3'), and a CRE/AP-1-like motif. The specific Ets factor binding to the OTR promoter was identified, by electrophoretic mobility immunoshift assays, to be GABP alpha/beta. Co-transfection of a -85 OTR/luciferase construct with vectors expressing GABP alpha and GABP beta1 had only a modest effect on expression, but cotransfection with GABP alpha/beta- with c-Fos/c-Jun-expressing plasmids resulted in an increase of almost 10-fold in luciferase activity. Mutation of either the GABP- or CRE-like binding sites obliterated the induction. These findings are consistent with the involvement of protein kinase C activity in serum induction of the endogenous gene in Hs578T cells. We showed the requirement for GABP alpha/beta and c-Fos/c-Jun in endogenous OTR gene expression, using oligonucleotide GABP and AP-1 binding decoys to inhibit serum-induced increases in 125I-labeled OT antagonist binding to Hs578T cells. Our work is the first characterization of the proximal promoter region of the human OTR gene, and it sets the stage for studying regulation of OTR expression in breast cells.

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Sarasija Hoare

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Identification of a GABP / Binding Site Involved in the Induction of Oxytocin Receptor Gene Expression in Human Breast Cells. Potentiation by c-Fos/c-Jun

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