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  • Title: The collecting duct, dopamine and vasopressin-dependent hypertension.
    Author: Schafer JA, Li L, Sun D.
    Journal: Acta Physiol Scand; 2000 Jan; 168(1):239-44. PubMed ID: 10691807.
    Abstract:
    AVP not only increases osmotic water permeability (Pf) in the rat cortical collecting duct (CCD), but also acts synergistically with aldosterone to augment sodium reabsorption (JNa). These effects are inhibited by catecholamines via alpha2 adrenergic receptors, and by dopamine. We review here studies designed to determine the mechanism and receptor involved in dopamine action. The inhibitory effect of dopamine on Na+ and water transport was found to be reversible, and was not produced by agonists specific to D1A and D1B receptors. D2-type (D2, D3 or D4) receptors and activation of the GTP-binding protein Gi were implicated by the observation that dopamine had no inhibitory effect when JNa and Pf were stimulated by a cyclic AMP analogue plus isobutylmethylxanthine. The only dopaminergic antagonist that reversed the inhibitory effect of dopamine was clozapine, which is relatively D4-specific. We also found that dopamine or D1-specific agonists by themselves had no effect on cAMP production. However, dopamine inhibited the high rate of AVP-dependent cAMP production, and this effect of dopamine was reversed by clozapine but not other antagonists or by inhibitors of protein kinase C. The D4 receptor was observed in western blots of renal cortical proteins, and it was localized to the collecting duct by RT-PCR and immuno-histochemistry using a D4-specific antibody. These results show that at least a portion of the natriuretic effect of dopamine can be attributed to inhibition of AVP-dependent Na+ reabsorption by the CCD, and they introduce another signalling system as a candidate in the aetiology of low-renin, salt-dependent hypertension.
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