Synthesis, structure-activity relationships, and pharmacological profile of 9-amino-4-oxo-1-phenyl-3,4,6,7-tetrahydro[1,4]diazepino[6, 7,1-hi]indoles: discovery of potent, selective phosphodiesterase type 4 inhibitors.

The synthesis, structure-activity relationships, and biological properties of a novel series of potent and selective phosphodiesterase type 4 (PDE4) inhibitors are described. These new aminodiazepinoindoles displayed in vitro PDE4 activity with submicromolar IC(50) values and PDE4 selectivity vs PDE1, -3, and -5. Specifically, one compound (CI-1044, 10e) provided efficient in vitro inhibition of TNFalpha release from hPBMC and hWB with IC(50) values of 0.34 and 0.84 microM, respectively. This compound was found to exhibit potent in vivo activity in antigen-induced eosinophil recruitment in Brown-Norway rats (ED(50) = 3.2 mg/kg po) and in production of TNFalpha in Wistar rats (ED(50) = 2.8 mg/kg po). No emetic side effects at therapeutic doses were observed in ferrets.

The discriminative stimulus properties of U50,488 and morphine are not shared by fedotozine.

Fedotozine is a kappa opioid receptor agonist having antinociceptive properties but devoid of diuretic effects. The aim of the study was to evaluate the discriminative stimulus effects of fedotozine at doses previously reported to produce maximal effects in in vivo assays measuring kappa-mediated analgesia. By using a two-lever drug discrimination task, two groups of rats were trained to discriminate either a 3 mg/kg i.p. dose of the kappa opioid agonist, U50,488, or a 5 mg/kg i.p. dose of the mu opioid agonist, morphine, from saline. Once trained, rats were used to conduct tests of stimulus generalization with morphine, U50,488 and fedotozine along with another kappa agonist, CI-977, and another mu agonist, fentanyl. The stimulus effect of U50,488 was shared by CI-977 but not by morphine. Conversely, the stimulus effect of morphine was shared by fentanyl but not by U50,488. Fedotozine (1-10 mg/kg) failed to substitute to either U50,488 or morphine. These results indicate that, when administered at doses fully effective in producing antinociception, the interoceptive stimulus effects of fedotozine, if any, can be distinguished from those produced by U50,488 and morphine.

Antinociceptive effects of neuropeptide Y and related peptides in mice.

This study compares the antinociceptive and orexigenic activities of NPY and analogs after intracerebroventricular administration in mice. NPY had an antinociceptive action in the mouse writhing test which was not affected by prior treatment with naltrexone, yohimbine, idazoxan or reserpine. A detailed examination revealed that NPY (0.023-0.7 nmol), PYY (0.007-0.07 nmol), NPY2-36 (0.023-0.23 nmol) and the Y1 agonist [Leu31, Pro34]-NPY (0.07-0.7 nmol) all produced a dose-dependent and complete suppression of acetic acid-induced writhing. In contrast, the Y2 agonist, NPY13-36, had little or no antinociceptive effect. As shown by their ED50 values, the relative potency of the peptides was PYY > NPY2-36 > or = NPY > [Leu31, Pro34]-NPY > > NPY13-36, suggesting that a Y1 rather than a Y2 or Y3 receptor subtype was implicated in the antinociceptive action. Thereafter, all peptides were assessed for their effects on food intake. With respect to dose and peptide specificity, the hyperphagic effects of NPY and related peptides paralleled those on nociception, suggesting a common receptor mechanism. However, a purported NPY antagonist, [D-Trp32]-NPY, attenuated NPY's effect on feeding yet this same peptide elicited a dose-dependent inhibition of acetic acid-induced writhing, suggesting some molecular distinction between antinociception and stimulation of food intake.

Behavioral effects of neuropeptide Y receptor agonists in the elevated plus-maze and fear-potentiated startle procedures.

Evidence from animal studies has led to the proposal that neuropeptide Y (NPY) has anxiolytic-like effects in rats after intracerebroventricular (i.c.v.) administration. The purpose of the present study was to extend these observations by examining the behavioral effects of a series of NPY receptor agonists including NPY, peptide YY (PYY), the NPY fragment 2-36 (NPY(2-36)), the Y(1) agonist [Leu(31), Pro(34)]-NPY and the Y(2) agonist NPY fragment 13-36 (NPY(13-36)), in two established anxiety models in rats: the elevated plus-maze and the fear-potentiated startle procedures. In the elevated plus-maze procedure, i.c.v. PYY (0.07-2.3nmol), NPY (0.07-2.3nmol), NPY(2-36) (0.07-2.3nmol). [Leu(31), Pro(34)]-NPY (0.7-7nmol), but not NPY(13-36) (0.7-7nmol), increased preference for the open arms of the plus-maze in a dose-dependent manner. In an acoustic startle paradigm, NPY, PYY and NPY(2-36) inhibited fear-potentiated startle over the dose-range of 0.23-2.3nmol. [Leu(31), Pro(34)]-NPY (2.3-13.2nmol) also attenuated fear-potentiated startle, whereas NPY(13-36) (up to 13.2nmol) had no effect. Taken together, these findings demonstrate that NPY, PYY and NPY(2-36) have anxiolytic-like effects that are likely mediated by Y(1) receptors.

Effects of sigma receptor ligands on schedule-controlled behavior of rats: relation to sigma and PCP receptor binding affinity.

Eleven drugs were examined for their ability to inhibit sigma and phencyclidine (PCP) receptor binding, as labelled by (+)[3H]-R-3-(3-hydroxyphenyl)-N-(1-propyl)piperidine ((+)-3-PPP), [3H]ditolylguanidine (DTG), (+)[3H]N-allylnormetazocine (NANM) and [3H]1-(1-(2-thienyl)cyclohexyl)piperidine (TCP), in membrane preparations from whole rat brain. The same drugs were studied for their effects under a fixed-ratio (FR) schedule of food reinforcement in rats. The relative potency order of the drugs for decreasing FR responding was: haloperidol greater than (+)-3-PPP greater than (-)NANM greater than BMY 14802 greater than PCP greater than (+)NANM greater than DTG greater than rimcazole greater than JO 1783 greater than JO1784 greater than (-)butaclamol. The binding affinities of all 11 drugs for either the [3H]DTG, (+)[3H]-3-PPP, (+)[3H]NANM or [3H]TCP site did not correlate significantly with the potencies of the same drugs for decreasing FR behavior. Rimcazole, (+)-3-PPP and haloperidol, at behaviorally inactive doses, were studied for their effects as antagonists of the rate-decreasing effects of JO 1784, DTG and (+)NANM: rimcazole attenuated the effects of DTG and (+)NANM but not JO 1784; (+)-3-PPP attenuated the effects of (+)NANM but not JO 1784 and DTG; and haloperidol was devoid of antagonistic actions. Moreover, BMY 14802 did not attenuate the rate-decreasing effects of (+)-3-PPP. These results further indicate that it is difficult to distinguish between purported sigma agonist and antagonist drugs.