Introduction: The purpose was to study the pharmacokinetic properties of RU-1205 with the previously identified kappa-agonistic and analgesic effects after parenteral administration. Materials and methods: Pharmacokinetic parameters of RU-1205 after intravenous and subcutaneous administration at doses of 10 mg/kg and 50 mg/kg, respectively, were investigated, using the method of high-performance liquid chromatography with measurement of the compound according to a pre-established calibration curve. The indices of the area under the pharmacokinetic curve, clearance, half-life, residence time of the drug molecule in the body, total (apparent) volume of distribution, as well as the indicator of absolute bioavailability for subcutaneous administration were calculated. Tissue distribution and excretion of RU-1205 were also studied. Evaluation of metabolism of RU-1205 was conducted in silico, using the PALLAS 3.00 software, with the use of specific tests with CYP 450 substrates and by studying the ability of RU-1205 to form conjugates with endogenous acids. Results and discussion: It was found that after a single intravenous administration, the investigated substance was determined in the blood for 12 h; the half-life was 8.49 hours. The absolute bioavailability after subcutaneous administration is 57.35%. RU-1205 is eliminated within 3–4 days. The main route of excretion is extrarenal. The biotransformation of the substance probably proceeds mainly with the formation of oxidized forms of the initial molecule according to the reactions of the first phase of metabolic transformation, so the chance to observe phase 2 of the metabolism could be very low. Conclusion: The test substance undergoes a long process of elimination, has the highest tropism to the elimination organs and undergoes active biotransformation processes in the body of animals.
Introduction: The clinical use of kappa-opioid agonists, despite their lack of significant drug potential, is limited by the development of severe sedation, dysphoria, depression, and anhedonia. To this date, there are kappa-opioid receptor agonists lacking these side effects due to the selective activation of intracellular signal transmission pathways without p38-MAPK-kinase activation. Materials and methods: We analyzed assessment of the docking energy of compound RU-1205 to the p38-MAPK active center by the method of similarity to SB203580. The study of possible aversive properties of RU-1205 (0.01–1 mg/kg s.c.) conducted in the tests of the intravenous self-administration and drug differentiation with butorphanol (0.01–0.3 mg/kg). The study of p38 MAPK-inhibitory activity was studied by the ability of RU-1205 to change the aversive properties of U50488 (10 mg/kg i.p.) compared to MAPK-kinase inhibitor SB203580 in the conditioned place avoidance test. Results: The spatial similarity coefficient of the RU-1205 molecule with SB203580 by the molecular conformation method was 1.14 (high similarity), and the docking energy was -8.7 Kcal/mol. RU-1205 did not possess any properties similar to those of butorphanol and did not demonstrate any primary reinforcing aversive properties in the development of intravenous self-administration reaction. Compound RU-1205 did not demonstrate any aversive properties in the conditioned place avoidance test, and reduced the development of aversion caused by U-50488, when they were used together. Discussion: The in silico analysis suggested that, in addition to agonism towards the kappa-opioid receptor, RU-1205 compound exhibits the properties of a p38 MAPK kinase inhibitor, which means it may have a double pharmacological activity. Conclusion: Kappa agonist – compound RU-1205 – is not a trigger of the development of behavioral patterns in animals corresponding to the development of addiction/dysphoria. The mechanism of such an activity may be associated with an inhibitory effect of compound RU-1205 on neuronal p38-MAPK-kinase.
В тесте максимального электрошока на мышах через корнеальные электроды исследовали противосудорожную активность соединения РУ-1205 (дигидрохлорида 9-(2-морфолиноэтил)-2-(4-фторфенил)имидазо[1,2-a]бензимидазола) и препарата сравнения карбамазепина. ЭД50 соединения РУ-1205 и карбамазепина у мышей составили 11,4 и 14,1 мг/кг внутрибрюшинно соответственно. Антиэпилептиформную активность соединения РУ-1205 оценивали в условиях электрической стимуляции поверхности мозга крыс (с напряжением 120 В, частотой 10 Гц и длительностью 10 с). Вещество РУ-1205 в концентрации 23,7 мкМ эффективно предупреждало возникновение электроиндуцированной эпилептической активности и восстанавливало нормальный ритмогенез нейронных колонок соматосенсорной коры. На изолированных нейронах прудовика (Lymnaea stagnalis) с использованием метода внутриклеточного диализа и фиксации мембранного потенциала изучено влияние соединения РУ-1205 в концентрациях 1, 10, 100 и 1000 мкМ на натриевые (INa) и кальциевые (ICa) ионные токи. Исследуемое вещество обратимо подавляло натриевые (INa) и кальциевые (ICa) ионные токи максимально в концентрации 1000 мкМ на 77,0 и 58,7 % соответственно, p < 0,05.
Introduction: Adjuvant medications can be used to increase the analgesic effect of opioid analgesics, reduce the manifestation of side effects, and also for premedication. This paper provides information on the effect of clonidine, haloperidol, metocloparmide, diazepam, midazolam on opioid analgesics: - morphine and the selective kappa-opioid agonist compound RU-1205. Materials and methods: A probable interaction between RU-1205, morphine and adjuvant drugs in pain behaviors was carried out on the model of somatogenic pain. 95 male mice received either RU-1205 (5 mg/kg, i.p.) and morphine (1 mg/kg, i.p.) separately or in combination with haloperidol (0.45 mg/kg, i.p.); midazolam (0.3 mg/kg, i.p.); diazepam (1 mg/kg, i.p.); metoclopramide (5 mg/kg, i.p.), and clonidine (1 mg/kg, i.p.). The analgesic effect was assessed by tail flick test. Registration of the latent period of the reaction was carried out 30, 60 and 90 minutes after the adjuvant drug administration. Results: When studying the interaction with morphine, it was found that clonidine, haloperidol and metoclopramide enhanced the effects; diazepam offset them, and midazolam had no affect on the analgesic properties. In the course of the studies, RU-1205 showed an increase in analgesic activity when combined with clonidine, a slight increase with midazolam, and a decrease when co-administered with diazepam. Haloperidol had no influence on the effect of RU-1205, while metoclopramide both potentiated and reduced the analgesic effect. Discussion: Pharmacodynamic and pharmacokinetic interactions of RU-1205 with an α2AR agonist, benzodiazepine receptor agonists, D2P antagonist, and σ-receptor blocker were established. Conclusion: The presented data make it possible to more accurately formulate ideas about the localization and action mechanism of the kappa-agonist of opioid receptors, the compound RU-1205.
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