Renal action of progesterone and 18-substituted derivatives

International audienceThe recently synthesized progesterone (P) derivatives, 18-vinylprogesterone (18VP) and 18-ethynylprogesterone (18EP), are potent inhibitors of aldosterone synthesis by adrenal glands. To evaluate the potential interest of these compounds as antihypertensive drugs, we determined whether they also interact with renal mineralocorticosteroid receptors (MR) in kidney and, if so, whether they mimic or antagonize aldosterone action. For this purpose, we evaluated the potency of 18VP and 18EP 1) to displace [3H]aldosterone binding in cytosolic fractions of kidney from adrenalectomized rats and 2) to interfere with aldosterone-induced stimulation of Na(+)-K(+)-ATPase in the collecting tubule of adrenalectomized rats. The properties of 18VP and 18EP were compared with those of their precursor progesterone and of the antimineralocorticosteroid spironolactone. The binding of [3H]aldosterone was restricted to cytosolic MR by presaturating glucocorticosteroid receptor with RU 38486. All compounds tested displaced [3H]aldosterone binding with the following efficiency: spironolactone greater than aldosterone greater than P greater than 18VP greater than 18EP; apparent Kd varied between 0.66 and 16.4 nM. Spironolactone, P, and 18VP antagonized aldosterone-induced stimulation of Na(+)-K(+)-ATPase in the collecting tubule, whereas 18EP mimicked the mineralocorticosteroid action. The different steroids tested altered Na(+)-K(+)-ATPase stimulation and aldosterone binding with the same order of potency

Molecular characterization of cortisol receptors in fish

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Affinity of corticosteroids for mineralocorticoid and glucocorticoid receptors of the rabbit kidney: effect of steroid substitution.

Corticosteroid derivatives coupled in the C3, C7 or C17 position with a long aliphatic chain were synthesized in order to select a suitable ligand for the preparation of a biospecific affinity adsorbent for mineralocorticoid receptor purification. The affinity of these derivatives for mineralocorticoid receptors (MR) and glucocorticoid receptors (GR) was explored in rabbit kidney cytosol. In this model, aldosterone bound to a single class of receptors with high affinity (Kd 1 nM) and mineralocorticoid specificity. RU26988, a highly specific ligand for GR, did not compete for these sites. The C7 and C17 positions were found to be of crucial importance in the steroid's interaction with the mineralocorticoid receptors, since the linkage of a long side chain in these positions induced complete loss of affinity. Hence, deoxycorticosterone no longer bound to MR after 17 beta substitution with a 9-carbon aliphatic chain. This loss of affinity was not observed for glucocorticoids. The 17 beta nonylamide derivative of dexamethasone still competed for GR. Increasing the length of the C7 side of the spirolactone SC26304 suppressed its affinity for MR. Finally, C3 was an appropriate position for steroid substitution. The 3-nonylamide of carboxymethyloxime deoxycorticosterone bound to MR but not to GR, and therefore constitutes a suitable ligand for the preparation of a mineralocorticoid adsorbent

Corticosteroid-dependent sodium transport in a novel immortalized mouse collecting duct principal cell line

The final control of sodium balance takes place in the cortical collecting duct (CCD) of the nephron, where corticosteroid hormones regulate sodium reabsorption by acting through mineralocorticoid (MR) and/or glucocorticoid (GR) receptors. A clone of principal CCD cells (mpkCCDc14) has been established that is derived from a transgenic mouse (SV40 large T antigen under the control of the SV40 enhancer/L-type pyruvate kinase promoter). Cells grown on filters form polarized monolayers with high electrical transepithelial resistance (R(T) approximately 4700 ohm x cm2) and potential difference (P(D) approximately -50 mV) and have an amiloride-sensitive electrogenic sodium transport, as assessed by the short-circuit current method (Isc approximately 11 microA/cm2). Reverse transcription-PCR experiments using rat MR primers, [3H]aldosterone, and [3H]dexamethasone binding and competition studies indicated that the mpkCCDc14 cells exhibit specific MR and GR. Aldosterone increased Isc in a dose- (10(-10) to 10(-6) M) and time-dependent (2 to 72 h) manner, whereas corticosterone only transiently increased Isc (2 to 6 h). Consistent with the expression of 11beta-hydroxysteroid dehydrogenase type 2, which metabolizes glucocorticoids to inactive 11-dehydroderivates, carbenoxolone potentiated the corticosterone-stimulated Isc. Aldosterone (5x10(-7) M)-induced Isc (fourfold) was associated with a three- to fivefold increase in alpha-ENaC mRNA (but not in those for beta- or gamma-ENaC) and three- to 10-fold increases in alpha-ENaC protein synthesis. In conclusion, this new immortalized mammalian CCD clonal cell line has retained a high level of epithelial differentiation and sodium transport stimulated by aldosterone and therefore represents a useful mammalian cell system for identifying the genes controlled by aldosterone