Differences in the efficiency of their interaction with membrane receptors of the dialkylaminoalkyl and dialkylaminoacyl derivatives of phenothiazine

New dialkylaminoacyl phenothiazine derivatives (DAC) were compared with their dialkylaminoalkyl analogues (neuroleptics chlorpromazine, trifluoperazine and fluphenazine) as well as with anti-arrhythmia drugs ethmozine and ethacizine for their receptor-blocking potencies. It was established that DAC are significantly less potent with dopamine alpha 1-adrenergic and H1-histamine receptors of calf and rabbit brain, which can explain the absence of neuroleptic effect of DAC drugs. DAC affinities to muscarinic and alpha-adrenergic receptors of both types are very similar to those of ethmozine and ethacizine. New DAC substance G-512 (chlorpromazine analogue) demonstrated high affinity to M1-muscarinic receptors of rabbit brain cortex (Ki = 4.2 nM) and to M2-muscarinic receptors of the rabbit heart (Ki = 48 nM).     

Comparative study of the relative hydrophobicity and interaction with striatal dopamine receptors in the bull of representative dialkylaminoalkyl and dialkylaminoacyl phenothiazine derivatives

Physicochemical properties and ability of some dialkylaminoalkyl (DAL) and dialkylaminoacyl (DAC) phenothiazine derivatives to interact with bovine striatal dopamine receptors have been investigated. DAC analogs were significantly less effective for the inhibition of [3H]-spiperone-specific binding to D2-receptors. The decrease in lipophilicity observed in DAC agents, as compared to DAL, may be one of the causes for the loss of affinity to these receptors.     

Antiparkinsonian activity and dopamine receptor binding studies of imidazolone derivatives

Mannich bases and styryl derivatives of imidazolones were evaluated for their antiparkinsonian activity. Two compounds showed potent antiparkinsonian activity. These active compounds also showed binding with dopamine receptors in striatal membrane preparation of rat brain.     

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.     

Activation of brain renin-angiotensin-aldosterone system by central sodium in Wistar rats

Functional studies indicate that the sympathoexcitatory and pressor responses to an increase in cerebrospinal fluid (CSF) [Na+] by central infusion of Na+-rich artificial cerebrospinal fluid (aCSF) in Wistar rats are mediated in the brain by mineralocorticoid receptor (MR) activation, ouabain-like compounds (OLC), and AT1-receptor stimulation. In the present study, we examined whether increasing CSF [Na+] by intracerebroventricular infusion of Na+-rich aCSF activates MR and thereby increases OLC and components of the renin-angiotensin system in the brain. Male Wistar rats received via osmotic minipump an intracerebroventricular infusion of aCSF or Na+-rich aCSF, in some groups combined with intracerebroventricular infusion of spironolactone (100 ng/h), antibody Fab fragments (to bind OLC), or as control gamma-globulins. After 2 wk of infusion, resting blood pressure and heart rate were recorded, OLC and aldosterone content in the hypothalamus were assessed by a specific ELISA or radioimmunoassay, and angiotensin-converting enzyme (ACE) and AT1-receptor binding densities in various brain nuclei were measured by autoradiography using 125I-labeled 351 A and 125I-labeled ANG II. When compared with intracerebroventricular aCSF, intracerebroventricular Na+-rich aCSF increased CSF [Na+] by approximately 5 mmol/l, mean arterial pressure by approximately 20 mmHg, heart rate by approximately 65 beats/min, and hypothalamic content of OLC by 50% and of aldosterone by 33%. Intracerebroventricular spironolactone did not affect CSF [Na+] but blocked the Na+-rich aCSF-induced increases in blood pressure and heart rate and OLC content. Intracerebroventricular Na+-rich aCSF increased ACE and AT1-receptor-binding densities in several brain nuclei, and Fab fragments blocked these increases. These data indicate that in Wistar rats, a chronic increase in CSF [Na+] may increase hypothalamic aldosterone and activate CNS pathways involving MR, and OLC, leading to increases in AT1-receptor and ACE densities in brain areas involved in cardiovascular regulation and hypertension.     

Tissue localization of 11 beta-hydroxysteroid dehydrogenase and its relationship to the glucocorticoid receptor.

11 beta-Hydroxysteroid dehydrogenase (11 beta-HSD) dictates specificity for the mineralocorticoid receptor (MR) by converting the active steroid cortisol to cortisone in man (corticosterone to 11-dehydrocorticosterone in rodents), leaving aldosterone to occupy the MR. However cortisol is the principal circulating glucocorticoid in man and 11 beta-HSD, distributed in a tissue specific fashion, may represent a powerful mechanism in regulating exposure of active steroid to the glucocorticoid receptor (GR). A detailed localization study of 11 beta-HSD gene expression and activity in numerous rat tissues has been performed and compared with the presence of GR mRNA. 11 beta-HSD mRNA (1.4 kB) measured by hybridization to a cDNA derived from hepatic 11 beta-HSD, and enzyme activity, measured by percentage conversion of [3H]corticosterone to [3H]11-dehydrocorticosterone by tissue homogenate, was widespread, present in all tissues studied except spleen, brain cortex and heart. There was a close correlation between tissue 11 beta-HSD mRNA levels and activity (r = 0.91, P less than 0.001) suggesting pretranslational regulation of the enzyme at a tissue level. There was also close co-localization of GR mRNA (7 kB), measured by hybridization to a rat GR cRNA probe, and enzyme mRNA/activity in every tissue studied except heart and brain cortex in which GR mRNA was found. In the mineralocorticoid target tissues kidney and colon, additional 11 beta-HSD mRNA bands were seen (kidney 1.8 kB, colon 3.4 kB), suggesting the presence of multiple dehydrogenase species. 11 beta-HSD is widely distributed and suitably placed to modulate ligand occupancy of the GR. The possibility of multiple dehydrogenase species in mineralocorticoid target tissues is consistent with the hypothesis that the ubiquitous 'native' 1.4 kB hepatic enzyme regulates the GR, and these separate dehydrogenases regulate the MR.     

Effect of benzamide derivatives on convulsions induced by the toxic action of oxygen in rats

The reversible MAO-A inhibitor moclobemide (5 mg/kg) was shown to prevent seizures in rats during exposure to toxic oxygen (6 ata). Benzamide derivatives increased the latent period of oxygen seizures and decreased the lethality following hyperbaric oxygenation. The range of anti-MAO activity of moclobemide and clorgyline in the rat brain and heart after toxic oxygenation was studied. It was distinct from those in control animals. Clorgyline was found to be more active in inhibiting MAO during toxic oxygenation in the heart and moclobemide-in the brain. The possibility is shown to prevent oxygen seizures not only with irreversible MAO-A inhibitors (clorgyline), but also with reversible ones (moclobemide).     

Synthesis and enzymic activity of 8-acyl and 8-alkyl derivatives of guanosine 3, 5-cyclic phosphate.

Several new 8-alkyl and 8-acyl derivatives of quanosie 3',5'-cyclic phosphate (cGMP) and inosine 3',5'-cyclic phosphate (cGMP) were prepared by direct alkylation or acylation of the parent cyclic nucleotide via free radicals generated in situ. These compounds have been examined for their ability to stimulate a cGMP-dependent protein kinase, and several of the cGMP derivatives were as active in this regard as cGMP. These compounds proved to be quite ineffective when tested for their ability to activate an adenosine 3',5'-cyclic phosphate (cAMP) dependent protein kinase. In addition, these 8-substituted cGMP derivatives are not substrates for a phosphodiesterase preparation from rabbit kidney, but do show inhibition of the hydrolysis of cAMP by crude phosphodiesterase preparations from rabbit lung and beef heart.     

Effect of insulin on brain pyruvate dehydrogenase in the rat. (Preliminary note)

The activity of both active and total pyruvate dehydrogenase (E.C.1.2.4.1) is substantially reduced in the rat brain 24h after alloxan administration. Effects are partially removed by insulin administration. Ca++ and Mg++ produce: a) a considerable conversion of the inactive form of pyruvate dehydrogenase into its active form in a preparation from the brain of normal rats and of rats treated with insulin; b) no conversion in a preparation from the brain of rats treated with alloxan; c) some conversion in a preparation from the brain of rats treated with both alloxan and insulin. Active and total pyruvate dehydrogenase from the brain of rats treated with alloxan are activated by a preparation obtained from a mixture of entire plasma membranes-mitochondria from normal and from alloxan-treated rats, or from insulin-treated and alloxan treated rats. The oxygen uptake, the respiratory control index and the ADP/O ratio in mitochondrial preparations obtained from the brain of rats treated with alloxan show no modification at all.     

Mineralocorticoids act centrally to regulate blood-borne tumor necrosis factor-alpha in normal rats

Excessive mineralocorticoid receptor (MR) stimulation induces neurohumoral excitation and cardiac and vascular fibrosis. In heart failure (HF) rats, with excessive neurohumoral drive, central infusion of the MR antagonist spironolactone (SL) decreases blood-borne TNF-alpha. This study aimed to determine whether DOCA, a precursor of aldosterone, acts centrally to stimulate TNF-alpha production in normal rats. DOCA (5 mg sc daily for 8 days) induced a progressive increase in TNF-alpha beginning on day 3 and increased tissue TNF-alpha in hypothalamus, pituitary, and heart but not in other brain and peripheral tissues harvested on day 9. A continuous intracerebroventricular infusion of SL (100 ng/h) blocked the plasma TNF-alpha response. Oral SL (1 mg/kg) blocked the plasma and tissue TNF-alpha responses. Thus DOCA increases TNF-alpha in brain, heart, and blood in normal rats. Activation of brain MR appears to account for the increase in plasma TNF-alpha. These findings have important implications for the understanding of pathophysiological states (e.g., HF, hypertension) characterized by high circulating levels of aldosterone.     

Magnetic resonance image and blood manganese concentration as indices for manganese content in the brain of rats

Neurological disorders similar to parkinsonian syndrome and signal hyperintensity in brain on T₁-weighted magnetic resonance (MR) images have been reported in patients receiving long-term total parenteral nutrition (TPN). These symptoms have been associated with manganese (Mn) depositions in brain. Although alterations of signal intensity on T₁-weighted MR images in brain and of Mn concentration in blood are theoretically considered good indices for estimating Mn deposition in brain, precise correlations between these parameters have not been demonstrated as yet. Male Sprague-Dawley rats received TPN with 10-fold the clinical dose of the trace element preparation (TE-5) for 7 d. At 0, 2, 4, 6, and 8 wk post-TPN, the cortex, striatum, midbrain, and cerebellum were evaluated by MR images, and Mn concentration in blood and Mn content in these brain sites were measured by atomic absorption spectrometry. Immediately after TPN termination, signal hyperintensity in brain sites and elevated Mn content in blood and brain sites were observed. These values recovered at 4 wk post-TPN. A positive correlation was observed between either the signal intensity in certain brain sites or Mn content in blood and the relevant brain sites. Our observations suggest that the Mn concentration in blood and signal intensity in the brain sites on T₁-weighted MR images are reliable indices for monitoring Mn contents in brain.     

Synthesis of novel lactam derivatives and their evaluation as ligands for the dopamine receptors, leading to a D(4)-selective ligand

The preparation of some lactam (cyclic amide) derivatives bearing various phenylpiperazinylbutyl side chains attached to the amide nitrogen together with their dopamine receptor affinity study is described. The synthesis of the target compounds involved the preparation of the intermediate bromobutyl derivatives of the appropriate lactam followed by N-alkylation of the appropriate phenylpiperazines with these intermediates. Radioligand binding studies at D(2)-D(5) receptor subtypes and a functional calcium assay of the target compounds at D(2) and D(5) receptor subtypes were performed. All compounds, except 12a and 12b, showed selectivity towards the D(2)-like receptor subtypes. Selectivity of the indolinone derivatives 11a-d at the D(4) receptors was observed. Compound 11b exhibited a remarkable affinity to hD(4) receptors with K(i) value of 0.04+/-0.02 nm and was >43,000-fold selective over the hD(2) receptor. In the functional assay, all the active compounds were of antagonistic activity.     

MR 20492 and MR 20494: two indolizinone derivatives that strongly inhibit human aromatase.

In this study, we describe the synthesis of a new family of indolizinone derivatives designed to fit an extrahydrophobic pocket within the active site of aromatase and to strongly inhibit human aromatase. This could help improve the specificity of the inhibitors. Equine aromatase, very well characterized biochemically, is used as a comparative model. Indeed, in a previous comparison between both human and equine aromatases, we described the importance of the interaction between the inhibitor and this pocket for the indane derivative MR 20814. MR 20492 and MR 20494 are more potent inhibitors of human aromatase (Ki/Km: 1.0+/-0.3 and 0.5+/-0.3, respectively). The Ki/Km for MR 20494 is slightly higher than that obtained for fadrozole (0.1+/-0.0) and Ki/Km for both indolizinone derivatives are lower than those obtained for 4-hydroxyandrostenedione (1.9+/-0.8) and MR 20814 (8.1+/-.7). These new compounds are not enzyme inactivators. Moreover, as indicated by the higher Ki/Km values obtained with equine enzyme (9.0+/-0.6 and 6.1+/-1.6 for MR 20492 and MR 20494, respectively), both human and equine aromatase active sites appear to be structurally different. Difference absorption spectra study (350-500 nm) revealed that MR20492 and MR20494 were characterized by a combination of type-I and -II spectra with both enzymes. This result could be due to the isomerization of the molecule in polar solvent (Z and E forms). The evaluation of these new molecules, as well as 4-hydroxyandrostenedione and fadrozole, on aromatase activity in transfected 293 cell cultures evidenced a strong inhibition (IC50: 0.20+/-0.03 microM, 0.20+/-0.02 microM and 0.50+/-0.40 microM for MR 20494, fadrozole and 4-OHA, respectively) except for MR 20492 (3.9+/-0.9 microM) and MR 20814 (10.5+/-0.6 microM). These results proved that these molecules formed part of a promising family of potent inhibitors and that they penetrate 293 cells, without evidencing any cytotoxicity in Hela cells with MTT assay. This is thus encouraging for the development of new drugs for the treatment of estrogen-dependent cancers, these molecules also constitute new tools for understanding the aromatase active site.     

Influence of esterification and modification of A-ring in a group of lupane acids on their cytotoxicity

The aim of this work was to find an optimal ester group for preparation of lupane derivatives connecting high cytotoxicity with good chemical and pharmacological properties. Activities of methyl-, pivaloyloxymethyl- (Pom-), and acetoxymethyl- (Acm-) esters were compared with the activity of free acids. Although the methyl- and Pom-esters were generally less active than free acids, some Acm-esters had cytotoxicity similar to or even better than the starting compounds. Cytotoxic activity was measured in five cancer cell lines.     

2-substituted derivatives of adenosine and inosine cyclic 3',5'-phosphate. Synthesis, enzymic activity, and analysis of the structural requirements of the binding locale of the 2-substituent on bovine brain protein kinase.

A number of 2-substituted cyclic nucleotide derivatives were synthesized and investigated as activators of cAMP-dependent protein kinase and as substrates for and inhibitors of cAMP phosphodiesterase. Ring closure of 5-amino-1-beta-D-ribofuranosylimidazol-4-carboxamide cyclic 3',5'-phosphate (1) with various aldehydes according to a new procedure (Meyer, R. B., Jr., Shuman, D.A., and Robins, R. K. (1974), J. Am. Chem. Soc. 96, 4962) gave new derivatives of adenosine cyclic 3',5'-phosphate with the following 2-substituents: n-propyl, n-hexl, n-octyl, n-decyl, styryl, o-methoxyphenyl, and 2-thienyl. Alkylation of 2-mercaptoadenosine cyclic 3',5'-phosphate (20, Meyer et al., 1974) gave new cAMP derivatives with the following 2-substituent: ethylthio, n-propylthio, isopropylthio, allylthio, n-decylthio, and benzylthio. Deamination of 2-methyl-,2-n-butyl-, and 2-ethylthioadenosine cyclic 3',5'-phosphate. Using multiple regression analysis, a striking relationship was found between the relative potency of the compounds as activators of bovine brain cAMP-dependent protein kinase and parameters describing the hydrophobic, steric, and electronic character of the substituents on these compounds. All compounds were substrates for a cyclic nucleotide phosphodiesterase preparation from rabbit kidney. Additionally, the compounds were as a group, good inhibitors of the hydrolysis of cAMP by phosphodiesterase preparations from rabbit lung, beef heart, and dog heart.     

Hydrophobic derivatives of 2-amino-2-deoxy-D-glucitol-6-phosphate: a new type of D-glucosamine-6-phosphate synthase inhibitors with antifungal action

Several N-acyl and ester derivatives of 2-amino-2-deoxy-D-glucitol-6-phosphate (ADGP) have been synthesised and tested as inhibitors of fungal enzymes involved in early steps of chitin biosynthesis and for antifungal activity. All the tested derivatives were found to be much poorer inhibitors of the enzyme, D-glucosamine-6-phosphate (GlcN-6-P) synthase, than the parent compound but some of them exhibited much better antifungal activity. MIC values for the investigated compounds ranged between 10 mg mL(-1), found for ADGP and 0.3 mg mL(-1) for the most active derivative, namely ADGP dimethyl ester. Increased affinity of ADGP derivatives to the artificial immobilised cell membrane was correlated with their enhanced ability to be taken up by fungal cells by free diffusion. It was found that some of the examined derivatives behaved as 'pro-drugs' and after internalisation were converted into ADGP in the cell-free extract. This conversion was relatively rapid for ADGP esters but very slow for N-acyl derivatives. Results of our studies demonstrate a possibility of design and preparation of GlcN-6-P synthase inhibitors exhibiting antifungal activity.     

Taurine as a green bio-organic catalyst for the preparation of bio-active barbituric and thiobarbituric acid derivatives in water media

Taurine, a β-amino acid that is abundantly available in the tissues of human and animals, is efficiently used as a green bio-organic catalyst in the preparation of some of the biologically active barbituric and thiobarbituric acid derivatives. In the presence of taurine, 5-Arylidene (thio) barbituric acid derivatives were prepared via Knovenagel reaction between aldehydes and (thio)barbituric acid. Using this reagent also pyrano[2,3-d]pyrimidinone(thione) derivatives were synthesized through a three-component reaction between aldehydes, (thio)barbituric and malononitrile. Both reactions are performed in water with good to excellent yields during acceptable reaction times. No organic solvent was used during reaction or separation steps and no extra-purification was exerted. Meanwhile, reusability of taurine was easy and noticeably high.     

Analysis of the mineralocorticoid receptor in rat heart with the aid of two new spirolactone derivatives

Two derivatives of spirolactone, synthesized in an effort to eliminate the obnoxious side effects of the native molecule, were employed to dissect various aspects of the MR structure and function in rat heart. The introduction of a propyl residue in position 7 of spirolactone produced a molecule (RU 26752) that exhibited an increased affinity for the agonist specific MR, and furthermore revealed an antagonist-specific MR population in the target organ heart but absent from nontarget lung and liver. The specificity for both sites increased when a methoxycarbonyl group was introduced in the 7 position (ZK 91587). RU 26752 labilized the MR at 35 degrees C but did not interfere with thermal activation assessed on DNA-cellulose and sucrose density gradients. ZK 91587 was even more effective in labilizing the MR and did not permit thermal activation at all. Whereas only one ionic species was observed with RU 26752 on DE-52 columns, two were evident with ZK 91587. Both antimineralocorticoids were bound to populations of two molecular sizes on Ultrogel columns. Thus, the nature of chemical substitution in the 7 position of spirolactone dramatically alters the receptor-mediated antisteroid action of the resulting molecule. Such differences may permit distinction between agonist versus the antagonist-specific receptor conformations, and could possibly be exploited for the eventual purification of the mineralocorticoid receptor from various organs.