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RECEPTORS AND SIGNAL TRANSDUCTION

Ca²⁺-sensing receptor induces Rho kinase-mediated actin stress fiber assembly and altered cell morphology, but not in response to aromatic amino acids

¹Faculty of Life Sciences, The University of Manchester, Manchester; and ²Cardiff School of Biosciences, University of Cardiff, Cardiff, United Kingdom

Submitted 27 September 2005 ; accepted in final form 6 January 2006

The Ca²⁺-sensing receptor (CaR) is a pleiotropic, type III G protein-coupled receptor (GPCR) that associates functionally with the cytoskeletal protein filamin. To investigate the effect of CaR signaling on the cytoskeleton, human embryonic kidney (HEK)-293 cells stably transfected with CaR (CaR-HEK) were incubated with CaR agonists in serum-free medium for up to 3 h. Addition of the calcimimetic NPS R-467 or exposure to high extracellular Ca²⁺ or Mg²⁺ levels elicited actin stress fiber assembly and process retraction in otherwise stellate cells. These responses were ablated by cotreatment with the calcilytic NPS 89636 and were absent in vector-transfected HEK-293 cells. Cotreatment with the Rho kinase inhibitors Y-27632 and H1152 attenuated the CaR-induced morphological change but not intracellular Ca²⁺ (Ca_i²⁺) mobilization or ERK activation, although transfection with a dominant-negative RhoA-binding protein also inhibited calcimimetic-induced actin stress fiber assembly. CaR effects on morphology were unaffected by inhibition of G_q/11 or G_i/o signaling, epidermal growth factor receptor, or the metalloproteinases. In contrast, CaR-induced cytoskeletal changes were not induced by the aromatic amino acids, treatments that also failed to potentiate CaR-induced ERK activation despite inducing Ca_i²⁺ mobilization. Together, these data establish that CaR can elicit Rho-mediated changes in stress fiber assembly and cell morphology, which could contribute to the receptor's physiological actions. In addition, this study provides further evidence that aromatic amino acids elicit differential signaling from other CaR agonists.

cytoskeleton; signaling

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