A survival pathway forCaenorhabditis eleganswith a blocked unfolded protein response

Abstract

Endostatin (ES) is a fragment of collagen XVIII that possesses antiangiogenic activity. To gain insight into ES-mediated signaling, we studied the effects of ES RNA on Xenopus embryogenesis and observed developmental abnormalities consistent with impaired Wnt signaling. ES RNA blocked the axis duplication induced by β-catenin, partially suppressed Wnt-dependent transcription, and stimulated degradation of both wild-type and “stabilized” forms of β-catenin, the latter suggesting that ES signaling does not involve glycogen synthase kinase 3. Moreover, ES uses a pathway independent of the Siah1 protein in targeting β-catenin for proteasome-mediated degradation. ES failed to suppress the effects of T cell–specific factor (TCF)-VP16 (TVP), a constitutive downstream transcriptional activator that acts independently of β-catenin. Importantly, these data were replicated in endothelial cells and also in the DLD-1 colon carcinoma cells with the mutated adenomatous polyposis coli protein. Finally, suppression of endothelial cell migration and inhibition of cell cycle by ES were reversed by TVP. Though high levels of ES were used in both the Xenopus and endothelial cell studies and the effects on β-catenin signaling were modest, these data argue that at pharmacological concentrations ES may impinge on Wnt signaling and promote β-catenin degradation.