Krista Stanley scite author profile

Abstract. Transforming growth factors/~1 and/~2 bind with high affinity to the core protein of a 250-350-kD cell surface proteoglycan. This proteoglycan (formerly referred to as the type III TGF-/3 receptor) coexists in many cells with the receptor implicated in TGF-/~ signal transduction (type I TGF-/3 receptor), but its function is not known. We report here that soluble TGF-/3-binding proteoglycans are released by several cell types into the culture media, and can be found in serum and extracellular matrices. As has been shown for the membrane-bound form, the soluble proteoglycans have a heterogeneous core protein of 100-120 kD that carries chondroitin sulfate and/or heparan sulfate glycosaminoglycan chains and a small amount of N-linked carbohydrate. The membrane-bound form of this proteoglycan is hydrophobic and associates with liposomes, whereas the soluble forms lack a membrane anchor and do not associate with liposomes. Differences in the electrophoretic migration of the soluble and membrane forms of this proteoglycan suggest additional structural differences in their core proteins and glycosaminoglycan chains. These soluble and membrane-bound proteoglycans, for which we propose the name "betaglycans," might play distinct roles in periceUular retention, delivery, or clearance of activated TGF-B.

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Mutational removal of the major site of serine phosphorylation of the epidermal growth factor receptor causes potentiation of signal transduction: role of receptor down-regulation.

Theroux

Stanley

Campbell

et al. 1992

Molecular Endocrinology

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The major site of epidermal growth factor receptor (EGF-R) serine phosphorylation is located within the COOH-terminal domain of the receptor at Ser1046/7. We have previously demonstrated that this phosphorylation site accounts for the acute desensitization of the EGF-R observed in EGF-treated cells. Here we show that the mutational removal of this negative regulatory phosphorylation site causes potentiation of signal transduction by the EGF-R. This potentiation can be accounted for in part by a block in the EGF-stimulated down-regulation of the EGF-R. These data indicate that the SER1046/7 phosphorylation site may have a regulatory role during long term incubation of cells with mitogenic concentrations of EGF.

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Heterodimeric transforming growth factor beta. Biological properties and interaction with three types of cell surface receptors.

Cheifetz

Bassols

Stanley

et al. 1988

Journal of Biological Chemistry

123

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Signal transduction by the epidermal growth factor receptor is attenuated by a COOH-terminal domain serine phosphorylation site.

Theroux

Latour

Stanley

et al. 1992

Journal of Biological Chemistry

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Krista Stanley

Membrane-anchored and soluble forms of betaglycan, a polymorphic proteoglycan that binds transforming growth factor-beta.

Mutational removal of the major site of serine phosphorylation of the epidermal growth factor receptor causes potentiation of signal transduction: role of receptor down-regulation.

Heterodimeric transforming growth factor beta. Biological properties and interaction with three types of cell surface receptors.

Signal transduction by the epidermal growth factor receptor is attenuated by a COOH-terminal domain serine phosphorylation site.

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