Regulation of Intracellular Ca2+ by CFTR in Chinese Hamster Ovary Cells

In cystic fibrosis, the mutation of the CFTR protein causes reduced transepithelial Cl⁻ secretion. As recently proposed, beside its role of Cl⁻ channel, CFTR may regulate the activity of other channels such as a Ca²⁺-activated Cl⁻ channel. Using a calcium imaging system, we show, in adenovirus-CFTR infected Chinese Hamster Ovary (CHO) cell monolayers, that CFTR can act as a regulator of intracellular [Ca²⁺] _i ([Ca²⁺] _i ), involving purino-receptors. Apical exposure to ATP or UTP produced an increase in ([Ca²⁺] _i in noninfected CHO cell monolayers (CHO-WT), in CHO monolayers infected with an adenovirus-CFTR (CHO-CFTR) or infected with an adenovirus-LacZ (CHO-LacZ). The transient [Ca²⁺] _i increase produced by ATP or UTP could be mimicked by activation of CFTR with forskolin (20 μm) in CHO-CFTR confluent monolayers. However, forskolin had no significant effect on [Ca²⁺] _i in noninfected CHO-WT or in CHO-LacZ cells. Pretreatment with purino-receptor antagonists such as suramin (100 μm) or reactive blue-2. (100 μm), and with hexokinase (0.28 U/mg) inhibited the [Ca²⁺] _i response to forskolin in CHO-CFTR infected cells. Taken together, our experiments provide evidence for purino-receptor activation by ATP released from the cell and regulation of [Ca²⁺] _i by CFTR in CHO epithelial cell membranes. Received: 5 April 1999/Revised: 28 June 1999