Identification of an IP3 receptor in endothelial cells

Abstract

In this study we have used saponin to permeabilize bovine endothelial cell membranes in order to directly test the involvement of IP₃ in regulating internal Ca²⁺ release. Our results indicate that the release of internal Ca²⁺ occurs as early as 1–3 seconds after IP₃ addition. This IP₃-induced internal Ca²⁺ release can be inhibited by heparin (an IP₃ receptor antagonist). Further binding of [³H]IP₃ to saponin-permeabilized bovine endothelial cells reveals the presence of a single, high affinity class of IP₃ receptor with a dissociation constant (K_d) of ≈0.50 (±0.03) nM. Using a panel of monoclonal and polyclonal antibodies against IP₃ receptor, we have established that the bovine endothelial cell IP₃ receptor (≈260 kDa) displays immunological cross-reactivity with the rat brain IP₃ receptor. Immunofluorescence data indicates that the IP₃ receptor is preferentially located at the perinuclear region of the cells. In addition, PCR analysis of first-strand cDNAs from both bovine endothelial cells and rat brain tissues reveals that the IP₃ receptor transcript in bovine endothelial cells belongs to the short non-neuronal form and not the long neuronal form detected in rat brain tissue. These findings suggest that the IP₃ receptor in endothelial cells is both structurally and functionally analogous to that reported in non-neuronal cell systems and probably plays an important role in agonist-induced endothelial cell activation.