Physiological degradation converts the soluble syndecan-1 ectodomain from an inhibitor to a potent activator of FGF-2
M Kato, H Wang, V Kainulainen, ML Fitzgerald… - Nature medicine, 1998 - nature.com
M Kato, H Wang, V Kainulainen, ML Fitzgerald, S Ledbetter, DM Ornitz, M Bernfield
Nature medicine, 1998•nature.comThe activity of fibroblast growth factor 2 (FGF-2) is stringently controlled. Inactive in
undisturbed tissues, it is activated during injury and is critical for tissue repair. We find that
this control can be imposed by the soluble syndecan-1 ectodomain, a heparan sulfate
proteoglycan shed from cell surfaces into wound fluids. The ectodomain potently inhibits
heparin-mediated FGF-2 mitogenicity because of the poorly sulfated domains in its heparin
sulfate chains. Degradation of these regions by platelet heparanase produces heparin-like …
undisturbed tissues, it is activated during injury and is critical for tissue repair. We find that
this control can be imposed by the soluble syndecan-1 ectodomain, a heparan sulfate
proteoglycan shed from cell surfaces into wound fluids. The ectodomain potently inhibits
heparin-mediated FGF-2 mitogenicity because of the poorly sulfated domains in its heparin
sulfate chains. Degradation of these regions by platelet heparanase produces heparin-like …
Abstract
The activity of fibroblast growth factor 2 (FGF-2) is stringently controlled. Inactive in undisturbed tissues, it is activated during injury and is critical for tissue repair. We find that this control can be imposed by the soluble syndecan-1 ectodomain, a heparan sulfate proteoglycan shed from cell surfaces into wound fluids. The ectodomain potently inhibits heparin-mediated FGF-2 mitogenicity because of the poorly sulfated domains in its heparin sulfate chains. Degradation of these regions by platelet heparanase produces heparin-like heparin sulfate fragments that markedly activate FGF-2 mitogenicity and are found in wound fluids. These results establish a novel physiological control for FGF-2 and suggest new ways to modulate FGF activity.
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