Effect of psychotomimetics and some putative anxiolytics on stress-induced hyperthermia

Summary Stress-induced hyperthermia (SIH), which is seen in the last mice removed from the cage, is a novel animal model sensitive to anxiolytic drugs. SIH is antagonized by CL 218872 (25 and 50 mg/kg, os), by tracazolate (5 and 7.5 mg/kg, ip) and by 2-AP-5 (50 and 100 mg/kg, ip). At higher dose, CL 218872 (100 mg/kg, os) and tracazolate (12.5 mg/kg, ip) lose their activity.PK 9084 (5–40 mg/kg, ip) and CGS 9896 (2–20 mg/kg, both ip and os) were also ineffective in preventing SIH. The anti-hyperthermic effect of CL 218872 (25 mg/kg) and tracazolate (7.5 mg/kg) was blocked by the benzodiazepine antagonist Ro 15–1788 (15 mg/kg). CGS 9896 (10 mg/kg, os) also reversed the effect of CL 218872 (25 mg/kg) on SIH.Differently from anxiolytics, MK-801 (0.5–1 mg/kg, os), PCP (2.5 mg/kg, ip) and d-amphetamine (10 mg/kg, ip) evoked hyperthermia in the first set of mice and prevented a further stress-induced rise of body temperature in the last set of mice.     

Benzodiazepine ligands,nociception and ‘defeat’ analgesia in male mice

Recent studies have indicated that defeat experience induces acute non-opioid analgesia in intruder mice. To investigate the potential involvement of benzodiazepine receptors in this biologically-relevant form of environmentally-induced antinociception, we initially assessed the effects of some benzodiazepine ligands on basal nociception (tail-flick assay). Chlordiazepoxide (5–30 mg/kg), midazolam (0.625–5 mg/kg), diazepam (0.5–4 mg/kg), Ro15-1788 (5–80 mg/kg) and CGS8216 (5 mg/kg) were found to be ineffective in altering basal nociception. However, higher doses of CGS8216 (10–20 mg/kg) induced significant analgesia, an effect also observed with the -carboline derivatives FG7142 (5–20 mg/kg) and DMCM (1–2 mg/kg). Time-course analyses revealed that the onset of CGS8216 analgesia was slower than for FG7142 and DMCM, but that all three drugs produced long-lasting elevations in tailflick latencies. The analgesic effects of FG7142 and DMCM were completely reversed by Ro15-1788 (20 mg/kg) and by chlordiazepoxide (20 mg/kg), suggesting mediation by benzodiazepine receptor mechanisms. Although CGS8216 analgesia was also reversed by Ro15-1788, it was unaffected by chlordiazepoxide; however, diazepam (5 mg/kg) did significantly attenuate the reaction. Further studies indicated that the antinociceptive consequences of defeat experience were dose-dependently blocked by Ro15-1788 (10–40 mg/kg) and by diazepam (0.5–2 mg/kg). Surprisingly, however, neither chlordiazepoxide (5–20 mg/kg) nor midazolam (1.25–2.5 mg/kg) blocked defeat analgesia under present test conditions. Although several issues remain unresolved, present findings would not be inconsistent with the proposal that stimuli associated with the acute stress of defeat experience release an endogenous ligand which acts in an inverse agonist-like manner at benzodiazepine sites.     

Aromatase inhibitor development for treatment of breast cancer

Summary Inhibition of estrogen production provides effective therapy for patients with hormone-dependent breast cancer. The source of estrogens in premenopausal women is predominantly the ovary, but after the menopause, estradiol is synthesized in peripheral tissues through the aromatization of androgens to estrogens. Uptake from plasma is the primary mechanism for maintenance of estradiol concentrations in breast cancer tissue in premenopausal women, whereas several steps may be operant in postmenopausal women. These include enzymatic synthesis of estradiol via sulfatase, aromatase, and 17-hydroxysteroid dehydrogenase in the tumor itself. Aromatization of androgens secreted by the adrenal to estrogens in peripheral tissues and transport to the tumor via circulation in the plasma provides another means of maintaining breast tumor estradiol levels in postmenopausal women. These various sources contribute to the high tissue estrogen levels measured in breast tumor tissue.To effectively suppress tissue concentrations of estrogens and circulating estradiol in postmenopausal patients, various aromatase inhibitors have been developed recently. These include steroidal inhibitors such as 4-hydroxy-androstenedione as well as non-steroidal compounds with imidazole and triazole structures. The most potent of these, CGS 20267, is reported to suppress levels of active estrogens (i.e., estrone, estrone sulfatase, and estradiol) by more than 95%. This compound can suppress both serum and 24-hrurine estrogens to a greater extent than produced by the second generation inhibitor, CGS 16949A. CGS 20267 is highly specific since it does not affect cortisol and aldosterone serum levels during ACTH stimulation tests nor sodium and potassium balance in 24-hr urine samples. These data suggest that CGS 20267 can be expected to bring improved response rates in the treatment of metastatic hormone-dependent breast cancer without substantial side effects.Presented by R.J. Santen at the 16th Annual San Antonio Breast Cancer Symposium, San Antonio TX, November 4, 1993; Mini-symposium on New Agents in Breast Cancer (supported by an educational grant from Rhône-Poulenc Rorer).     

羧乙基锗倍半氧化物对大鼠心肌缺血再灌注损伤的保护作用

目的：观察羧乙基锗倍半氧化物（ＣＧＳ）对大鼠实验性心肌缺血再灌注损伤的影响。方法：采用结扎大鼠冠状动脉３０ｍｉｎ后再通６０ｍｉｎ造成心肌缺血再灌注损伤模型,测定动脉血压,心律失常发生率,心律失常严重指数（ＡＳＩ）,心肌组织中丙二醛（ＭＤＡ）含量,超氧化物歧化酶（ＳＯＤ）及ＡＴＰａｓｅ活性,血清中乳酸脱氢酶（ＬＤＨ）的水平等指标。结果：预防性静注ＣＧＳ（５０ｍｇ／ｋｇ）可显著降低再灌注心律失常发生率,心肌组织中ＭＤＡ和血清中ＬＤＨ的水平;明显改善再灌注后动脉血压的下降,心肌组织中ＳＯＤ及ＡＴＰａｓｅ活性的降低。结论：ＣＧＳ对大鼠实验性心肌缺血再灌注损伤具有保护作用     

Identification of an amino acid residue important for binding of methiothepin and sumatriptan to the human 5-HT(1B) receptor.

Site-directed mutagenesis of the human 5-HT_1B receptor was performed to investigate the role of the amino acid residues cysteine 326 and tryptophan 327 in transmembrane region VI and aspartic acid 352 in transmembrane region VII in ligand binding. Binding studies were performed with the antagonist radioligand [³H]GR125743 on mutant and wild-type receptors stably expressed in Chinese hamster ovary cells (CHO)-K1 cells. Substitution of tryptophan 327 by alanine resulted in decreased affinities of all ligands tested. The most prominent changes in affinity were observed for the antagonist methiothepin and the antimigraine drug sumatriptan, which were reduced approximately 300- and 60-fold, respectively. Nevertheless, the affinity of 5-HT remained the same. Replacement of the aspartic acid 352 by alanine reduced high-affinity binding of 5-HT. Substitution of cysteine 326 by alanine had minor effects on ligand binding. Some of these results agree with the results from mutagenesis studies of the corresponding amino acids in other receptors. However, some notable differences also emerge showing that functional roles of individual amino acid residues must be tested experimentally in each receptor subtype.     

Comparison of CGS 15943, ZM 241385 and SCH 58261 as antagonists at human adenosine receptors

Three structurally related non-xanthine compounds, CGS 15943, ZM 241385 and SCH 58261, are potent A_2A adenosine receptor antagonists and have been used as tools in many pharmacological studies. We have now characterized their affinity and selectivity profile on human adenosine receptors stably transfected into either CHO cells (A₁ and A_2B receptors) or HEK-293 cells (A_2A and A₃ receptors). In binding studies using [³H]SCH 58261 as a radioligand, the three compounds were equally potent at A_2A receptors, their K _i value being less than 1 nM. Affinity for A₁ and A₃ receptors was measured using [³H]DPCPX and [¹²⁵I]AB-MECA as radioligands. Given the lack of selective ligands, interaction with A_2B receptors was assessed using the cAMP accumulation assay following stimulation by the adenosine receptor agonist N-ethylcarboxamidoadenosine (NECA). CGS 15943 was almost as potent at A₁ receptors (K _i 3.5 nM) as at A_2A receptors, showed moderate affinity for A₃ receptors (K _i 95 nM) and also interacted with A_2B receptors (K _i 44 nM; pA₂ 7.5). ZM 241385 showed little affinity for A₁ receptors (K _i 255 nM), and did not interact with A₃ receptors (K _i>10 μM); however, it displayed moderate affinity for A_2B receptors (K _i 50 nM; pA₂ 7.3). SCH 58261 had weak affinity for A₁ receptors (K _i 287 nM), no interaction with A₃ receptors (K _i>10 μM), and showed negligible interaction with A_2B receptors (K _i 5 μM; pA₂ 6.0). These data indicate that SCH 58261 is the most selective A_2A antagonist currently available. Moreover, the different receptor selectivity of these three chemically related compounds provides useful information to progress with structure-activity relationship studies. Received: 2 July 1998 / Accepted: 6 October 1998     

Evidence for high-affinity binding sites for the adenosine A2A receptor agonist [3H] CGS 21680 in the rat hippocampus and cerebral cortex that are different from striatal A2A receptors

The binding of the adenosine A_2A receptor selective agonist 2-[4-(2-p-carboxyethyl) phenylamino]-5-N-ethylcarboxamidoadenosine (CGS 21680) to the rat hippocampal and cerebral cortical membranes was studied and compared with that to striatal membranes. [³H] CGS 21680, in the concentration range tested (0.2–200 nM), bound to a single site with a K _d of 58 nM and a B _max of 353 fmol/mg protein in the hippocampus, and with a K _d of 58 nM and a B _max of 264 fmol/mg protein in the cortex; in the striatum, the single high-affinity [³H] CGS 21680 binding site had a K _d of 17 nM and a B _max of 419 fmol/mg protein. Both guanylylimidodiphosphate (100 M) and Na⁺ (100 mM) reduced the affinity of [³H] CGS 21680 binding in the striatum by half and virtually abolished [³H] CGS 21680 binding in the hippocampus and cortex. The displacement curves of [³H] CGS 21680 binding with 1,3-dipropyl-8-cyclopentylxanthine (DPCPX), N ⁶-cyclohexyladenosine (CHA), 5-N-ethyl-carboxamidoadenosine (NECA) and 2-chloroadenosine (CADO) were biphasic in the hippocampus and cortex as well as in the striatum. The predominant [³H]CGS 21680 binding site in the striatum (80%) had a pharmacological profile compatible with A_2A receptors and was also present in the hippocampus and cortex, representing 10–25% of [³H]CGS 21680 binding. The predominant [³H]CGS 21680 binding site in the hippocampus and cortex had a pharmacological profile distinct from A_2A receptors: the relative potency order of adenosine antagonists DPCPX, 1,3-dipropyl8-{4-[(2-aminoethyl)amino]carbonylmethyloxyphenyl} xanthine (XAC), 8-(3-chlorostyryl) caffeine (CSC), and (E)-1,3-dipropyl-8-(3,4-dimethoxystyryl)-methylxanthine (KF 17,837) as displacers of [³H] CGS 21680 (5 nM) binding in the hippocampus and cerebral cortex was DPCPX > XAC CSC KF 17,837, and the relative potency order of adenosine agonists CHA, NECA, CADO, 2-[(2-aminoethylamino)carbonylethylphenylethylamino]-5-N-ethylcar-boxamidoadenosine (APEC), and 2-phenylaminoadenosine (CV 1808) was CHA NECA CADO > APEC CV1808 > CGS 21680. In the presence of DPCPX (20 nM), [³H] CGS 21680 (0.2-200 nM) bound to a site (A_2A-like) with a K _d of 20 nM and a B _max of 56 fmol/mg protein in the hippocampus and with a K _d of 22 nM and a B _max of 63 fmol/mg protein in the cortex. In the presence of CSC (200 nM), [³H]CGS 21680 (0.2–200 nM) bound to a second high-affinity site with a K _d of 97 nM and a B _max of 255 fmol/mg protein in the hippocampus and with a K _d of 112 nM and a B _max of 221 fmol/mg protein in the cortex. Two pharmacologically distinct [³H]CGS 21680 binding sites were found in synaptosomal membranes of the hippocampus and cortex and in the striatum, one corresponding to A_2A receptors and the other to the second high-affinity [³H]CGS 21680 binding site. In contrast, the pharmacology of [³H]CHA binding was similar in synaptosomal membranes of the three brain areas. The present results establish the existence of at least two high-affinity [³H]CGS 21680 binding sites in the CNS and demonstrate that the [³H]CGS 21680 binding site predominant in the hippocampus and cerebral cortex has different binding characteristics from the classic A_2A adenosine receptor, which predominates in the striatum.     

Antitumor effects of a nonsteroidal aromatase inhibitor (CGS 16949A) on 7, 12-dimethylbenz[alpha]anthracene-induced mammary tumors in rats.

The effects of a nonsteroidal aromatase inhibitor, CGS 16949A, on female Sprague-Dawley (SD) rats with 7, 12-dimethylbenz[alpha]anthracene (DMBA)-induced mammary cancers were examined in relation to estrogen receptors (ER). Rat tumor sizes in each treated group were significantly smaller (P less than 0.05) and rat body weights in most treated groups were significantly increased (P less than 0.05) compared to those in the control group (no treatment) at all measurement points during treatment. Rat uterine weights in each treated group decreased significantly compared with those in the control group (P less than 0.05). There was no significant difference between ER-positive and ER-negative groups in tumor size, body weight or uterine weight. At increased doses of CGS 16949A in the experiment, further increases in testosterone levels and further decreases in estradiol levels were shown to occur. The results suggest the mechanisms of CGS 16949A action not to be influenced by the presence or absence of ER, but to be due to its potent aromatase inhibition of the conversion of androgens to estrogens.