ABSTRACT
Calcium sensing receptor, a pleiotropic G protein coupled receptor, activates secretory pathways in cancer cells and putatively exacerbates their metastatic behavior. Here, we show that various CaSR mutants, identified in breast cancer patients, differ in their ability to stimulate Rac, a small Rho GTPase linked to cytoskeletal reorganization and cell protrusion, but are similarly active on the mitogenic ERK pathway. To investigate how CaSR activates Rac and drives cell migration, we used invasive MDA-MB-231 breast cancer cells. We revealed, by pharmacological and knockdown strategies, that CaSR activates Rac and cell migration via the Gßγ-PI3K-mTORC2 pathway. These findings further support current efforts to validate CaSR as a relevant therapeutic target in metastatic cancer.
ABSTRACT
The calcium-sensing receptor (CaR) helps to maintain the homeostasis of extracellular calcium by controlling the secretion of hormones associated with this process. The mechanism of agonist-induced endocytosis and down-regulation of CaR and the influence of this event on the secretion of CaR-regulated hormones is not fully understood. In this study, we show that CaR is constitutively endocytosed and recycled to the plasma membrane by a Rab11a-dependent mechanism; during this process, the level of total cellular CaR is maintained. This trafficking of CaR promotes the secretion of PTH-related peptide (PTHrP), as evidenced by a decrease on PTHrP secretion in the presence of a dominant-negative mutant of Rab11a. Interestingly, this Rab11a dominant-negative mutant does not interfere with CaR-dependent activation of ERK 1/2, suggesting that ERK signaling is not sufficient to promote PTHrP secretion downstream of CaR. In addition, AMSH (associated molecule with the SH3 domain of STAM), a CaR carboxyl-terminal binding protein, redirects CaR from slow recycling to down-regulation, reducing CaR expression and decreasing PTHrP secretion. Our results indicate that endocytosis and trafficking of CaR modulate PTHrP secretion.