A series of [(3-aryl-1,2-benzisoxazol-6-yl)oxy]acetic acids was synthesized and tested for diuretic activity in saline-loaded mice and in conscious, water-loaded dogs. The structural requirements for good diuretic activity in both mice and dogs were found to be very specific. In summary, the compounds with the best diuretic activity (13i, 13q, and 13ff) were substituted with a 2-fluorophenyl group at the 3 position and chlorine or bromine at the 7 position. Compound 13ff, [(7-bromo-3-(2-fluorophenyl)-1,2-benzisoxazol-6-yl]oxy]acetic acid (HP 522), was found to be moderately uricosuric in chimpanzees and was selected for further development.
4,10-Dihydro-10-oxothieno[3,2-c][1]benzoxepin-8-acetic acid (6) was previously reported as a potent antiinflammatory-analgesic agent characterized by an impressive therapeutic ratio in comparison with indomethacin. With the goal of finding compounds that might display even more favorable therapeutic ratios and/or enhanced antiinflammatory/analgesic properties in comparison to 6, we synthesized 4-(4,10-dihydro-10-oxothieno [3,2-c][1]-benzoxepin-8-yl) butanol (4b) and -butyric acid (5a) and a series of related derivatives. All compounds were evaluated for potential analgesic activity in the phenylquinone-induced writhing (PQW) assay, for antiinflammatory activity in the carrageenan-induced paw edema (CPE) model and, where warranted, for gastric irritation (GI) liability. Of the compounds investigated, 4b (HP 573) displays moderate analgesic-like activity in PQW, is approximately half as potent as indomethacin or 6 as an antiinflammatory agent in the CPE, and is characterized by an extremely low propensity to induce GI as reflected by comparison of the therapeutic ratios (GI ED50/CPE ED50: 4b greater than 46, 6 = 9.9, indomethacin = 0.4). Compound 4b was selected for clinical evaluation.
A series of (+/-)-4,5-dihydro-4-phenyl-3H-1,3-benzodiazepines and (+/-)-4,5-dihydro-4-phenyl-1H-1,3-benzodiazepines was synthesized as part of a program to develop novel psychotropics. Of these compounds, (+/-)-4,5-dihydro-2,3-dimethyl-4-phenyl-3H-1,3-benzodiazepine (10a, HRP 543) emerged as a potential antidepressant. In in vivo mouse tests (inhibition of tetrabenazine-induced ptosis and potentiation of yohimbine toxicity) which are predictive of antidepressant-like activity, 10a is comparable to amitriptyline. The similarity is also maintained in vitro, as both 10a and amitriptyline inhibit norepinephrine and serotonin uptake into rat brain synaptosomes. No significant inhibition of rat brain monoamine oxidase A or B was found with 10a, nor did the compound potentiate tryptamine-induced seizures. On chronic administration, the number of cortical beta-adrenergic receptor sites was similarly reduced by 10a and desipramine. The anticholinergic activity of clinically useful antidepressants, such as amitriptyline, is a proposed cause of side effects which reduce patient compliance. In contrast to the tricyclics, 10a apparently lacks anticholinergic activity, as evidenced in vitro by negligible displacement of [3H]quinuclidinyl benzylate from rat brain muscarinic receptors and in vivo by insignificant antagonism of the cholinergic stimulation produced by physostigmine or oxotremorine. These data suggest that 10a may be clinically useful as a novel nontricyclic antidepressant which is devoid of anticholinergic side-effect liability. Further evaluation of 10a in nonrodent species is in progress.
Abstract1,2,3,4‐Tetrahydrobenzo[c]‐1,5‐naphthyridine (5a) was prepared by a novel synthetic route involving the rearrangement of (±)‐(Z)‐1,10a‐dihydropyrrolo[1,2‐b]isoquinoline‐3,10(2H,5H)‐dione oxime to afford 1,4‐dihydrobenzo[c]‐1,5‐naphthyridin‐2(3H)‐one, which was reduced to 5a. The cholinomimetic activity observed with 5a prompted the synthesis and biological evaluation of additional analogues.
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