A STUDY OF α1‐ADRENOCEPTORS IN RAT RENAL CORTEX: COMPARISON OF [3H]‐PRAZOSIN BINDING WITH THE α1‐ADRENOCEPTOR MODULATING GLUCONEOGENESIS UNDER PHYSIOLOGICAL CONDITIONS

Abstract

1 A comparison has been made of the α₁‐adrenoceptor controlling gluconeogenesis in tubules from rat renal cortex and [³H]‐prazosin binding in membranes prepared from the same tissue under physiological conditions. 2 In renal tubules the α‐adrenoceptor agonists, oxymetazoline, (−)‐noradrenaline, (−)‐α‐methylnoradrenaline and (−)‐phenylephrine, stimulated gluconeogenesis from pyruvate. Oxymetazoline was the most potent agonist (EC₅₀ 15.7 nm) but produced only 61% of the maximum response elicited by (−)‐noradrenaline. 3 The α‐adrenoceptor antagonists, BE2254, prazosin, indoramin and phentolamine inhibited (−)‐noradrenaline‐mediated increases in gluconeogenesis. The α₁‐adrenoceptor selective compounds, BE2254 and prazosin, were the most effective antagonists with K_B values of 0.74 and 1.47 nm respectively. 4 [³H]‐prazosin binding to membranes prepared from rat renal cortex in physiological saline at 37°C was best described by a two site model. High affinity, but not low affinity sites had characteristics consistent with α‐adrenoceptors. 5 High affinity [³H]‐prazosin binding could be completely displaced by the α‐adrenoceptor agonists, oxymetazoline, (−)‐noradrenaline, (−)‐phenylephrine, and (−)‐α‐methylnoradrenaline. Slope factors for the displacement curves were all significantly less than unity. The concentrations of agonists required to displace [³H]‐prazosin binding were markedly higher than those required to stimulate gluconeogenesis. 6 High‐affinity [³H]‐prazosin binding was also displaced by the α‐adrenoceptor antagonists, prazosin, BE2254, phentolamine and indoramin. Slope factors for the displacement curves were close to unity. K_i values calculated from the binding experiments were very similar to K_B values obtained in the gluconeogenesis studies. These results suggest that in rat renal cortex the α₁‐adrenoceptor labelled by [³H]‐prazosin is probably that which stimulates gluconeogenesis.