16 research outputs found
Activation of an ATP-dependent K+ conductance in Xenopus oocytes by expression of adenylate kinase cloned from renal proximal tubules
AbstractIn rabbit proximal convoluted tubules, an ATP-sensitive K+ (KATP) channel has been shown to be involved in membrane cross-talk, i.e. the coupling (most likely mediated through intracellular ATP) between transepithelial Na+ transport and basolateral K+ conductance. This K+ conductance is inhibited by taurine. We sought to isolate this K+ channel by expression cloning in Xenopus oocytes. Injection of renal cortex mRNA into oocytes induced a K+ conductance, largely inhibited by extracellular Ba2+ and intracellular taurine. Using this functional test, we isolated from our proximal tubule cDNA library a unique clone, which induced a large K+ current which was Ba2+-, taurine- and glibenclamide-sensitive. Surprisingly, this clone is not a K+ channel but an adenylate kinase protein (AK3), known to convert NTP+AMP into NDP+ADP (N could be G, I or A). AK3 expression resulted in a large ATP decrease and activation of the whole-cell currents including a previously unknown, endogenous K+ current. To verify whether ATP decrease was responsible for the current activation, we demonstrated that inhibition of glycolysis greatly reduces oocyte ATP levels and increases an inwardly rectifying K+ current. The possible involvement of AK in the KATP channel’s regulation provides a means of explaining their observed activity in cytosolic environments characterized by high ATP concentrations
Heat flow variations in the Grenville Province, Canada
International audienc
Heat flow, gravity, and structure of the Abitibi belt, Superior Province, Canada: implications for mantle heat flow
International audienc