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Neurohypophysial hormone receptors were studied in primary cultures of sea bass (Dicentrarchus labrax) gill respiratory-like cells grown on permeable supports. This preparation was previously shown to provide a functional model for investigating the hormonal regulation of Cl- secretion. Under control conditions, the cultured monolayered epithelium had a short-circuit current (ISC) of 3.5+/-1.1 micro A x cm(-2). This current had previously been identified as an active Cl- secretion. The addition of increasing concentrations of the fish neurohypophysial hormones, arginine vasotocin (AVT) or isotocin (IT), elicited a concentration-dependent stimulation of the ISC. Maximal increases of 60.9+/-12.1% and 117.7+/-28.0% above the basal ISC value were obtained for 10(-7) M AVT and IT respectively. Half-maximal effects were obtained for 3.1 x 10(-9) M AVT and for 1.4 x 10(-9) M IT. Mucosal application of 1.0 mM diphenylalamine-2-carboxylic acid (a specific blocker of Cl- channels) after serosal addition of 5 x 10(-8) M AVT or IT inhibited not only the basal but also the stimulated current, revealing a correlation with a hormone-dependent Cl- transport. Specific V1 or V2 receptor analogues of vasopressin (mammalian hormone) were used to characterize the type of neurohypophysial hormone receptors pharmacologically. While the V1 agonist [Phe2,Orn8]-oxytocin stimulated the basal Cl- secretion with a similar profile to that of AVT or IT, the V2 agonist [Deamino1,Val4,d -Arg8]-vasopressin had no effect. The V1 antagonist [d(CH2)5 1,O-Me-Tyr2,Arg8]-vasopressin used at a concentration of 5 x 10(-7) M totally reversed the 10-8 M AVT-stimulated Cl- secretion, whereas the V2 antagonist [d(CH2)5 1,d -Ile2,Ile4,Arg8,Ala9]-vasopressin used at the same concentration had no significant effect. In contrast, similar experiments carried out in the presence of 10(-8) M IT showed that both antagonists significantly reduced the IT-stimulated Cl- secretion, with the efficiency of the V1 receptor antagonist being significantly greater than that of the V2. This study provides evidence for neurohypophysial hormone control of Cl- secretion in fish cultured gill respiratory cells. It suggests that on a physiological basis the hormonal effect is shared by the two peptides present in fish neurohypophysis (AVT and IT), acting by means of two distinct, although pharmacologically similar, V1-type receptors (according to the mammalian classification). These specific receptors are expected to play an important role in controlling ion homeostasis in seawater fish.

Neurohypophysial hormone receptors and second messengers were studied in trout (Oncorhynchus mykiss) hepatocytes. Arginine vasotocin (AVT) and isotocin (IT) elicited a concentration-dependent inhibition of cAMP accumulation in the presence of 5x10(-8) M glucagon (maximal effect for 4.5x10(-7) M and 1.4x10(-7) M, half-maximal effect for 2.1x10(-8) M and 0.7x10(-8) M, AVT and IT respectively). The effect of glucagon was inhibited up to 90% by AVT and 80% by IT. While AVT inhibited (up to 50%) the basal cAMP production, IT had no such action. Specific V(1) or V(2) analogues (with reference to vasopressin in mammals) were used for pharmacological characterization of the type of neurohypophysial hormone receptor involved in this inhibition. The V(1) agonist [Phe(2), Orn(8)]-oxytocin inhibited the glucagon-stimulated cAMP production with a maximal effect for 6x10(-7) M and a half-maximal effect for 0.9x10(-8) M concentrations of the analogue. While the V(1) agonist reduced the glucagon-stimulated cAMP level by 70%, it showed only a tendency to reduce the basal level. The V(2) agonist [deamino(1), Val(4),d -Arg(8)]-vasopressin had no effect either on basal or on glucagon-stimulated cAMP production. The V(1) antagonist [d(CH(2))(5)(1), O-Me-Tyr(2), Arg(8)]-vasopressin totally reversed the 10(-8) M AVT-induced inhibition of 5x10(-8) M glucagon-stimulated cAMP production, whereas the V(2) antagonist [d(CH(2))(5)(1),d -Ile(2), Ile(4), Arg(8), Ala(9)]-vasopressin had no such effect. In this particular case, maximal and half-maximal effects of the V(1) antagonist were obtained for 2.3x10(-6) M and 1. 2x10(-6 )M respectively. Changes in intracellular calcium content were measured using the fluorescent probe FURA-2/AM. AVT and IT elicited a concentration-dependent increase in Ca(2+) accumulation. The comparison of the effect of 10(-8) M agonists versus AVT showed the following order of potency: AVT=IT>V(1) agonist>V(2) agonist. The V(1) antagonist reversed the AVT-induced Ca(2+) accumulation whereas the V(2) antagonist had no such effect. These results are taken as evidence for the presence in trout hepatocytes of neurohypophysial hormone receptors functionally close to the V(1a)-type linked to cAMP production and Ca(2+) mobilization.