Regulation of cell volume and intracellular pH in hyposmotically swollen rat osteosarcoma cells

Abstract

The maintenance of cell volume involves transduction of a volume-sensing signal into effectors of volume-regulatory transporters. After exposure to anisotonic conditions, cells undergo compensatory volume changes that are mediated by active transport and passive movement of ions and solutes. Intracellular pH (pH_i) homeostasis may be compromised during these processes. We have studied pH_iand some of the signal transduction mechanisms involved in the regulatory volume decrease (RVD) that occurs after exposure to hypoosmolar conditions in rat osteosarcoma cells, ROS 17/2.8. Cells were loaded with BCECF; pH_iand cell volume were estimated by dual excitation ratio fluorimetry. Swelling of cells in 4-(2-hydroxyethyl)-l-piperazineethanesulfonic acid (HEPES) buffered hypotonic medium induced a rapid cell swelling followed by an incomplete RVD of ~30% in suspended (i.e., round) cells and ~60% in attached (i.e., spread) cells that was independent of subpassage number. RVD was inhibited by ouabain, valinomycin, and high external [K⁺], all of which should reduce the cell membrane electrochemical gradient for K⁺. Inhibition of RVD was induced also by decreasing intracellular [Ca²⁺] with B APTA–AM and by depletion of Cl⁻, indicating the role of calcium-regulated K⁺and Cl⁻efflux during RVD. Depolymerization of actin filaments by cytochalasin D prolonged the RVD three-fold and nonspecific activation of GTP-binding proteins up-regulated RVD. In attached cells the hypoosmolar-induced swelling caused a large reduction in pH_i(~0.7 units), which was sustained as long as cells were in hypoosmotic medium. The reduction of pH_iinduced by cell swelling was inhibited by Na⁺-free extracellular medium, ouabain, the tyrosine kinase inhibitor genistein, and to a lesser extent by Cl⁻-free medium. However, amiloride failed to inhibit the hypoosmolar-induced reduction of pH_i. Collectively these data indicate that RVD of ROS 17/2.8 cells in HEPES-buffered medium is dependent on conductive efflux of K⁺and Cl⁻that is regulated by cell shape, actin, and GTP-binding proteins. The sustained inhibition of pH_ihomeostasis induced by cell swelling may reflect the existence of cell volume sensing mechanisms that operate through tyrosine kinases to regulate pH_i.Key words: cell volume, pH, osteoblast, G proteins, actin.