Mariia Mishchenko scite author profile

Here, we describe the synthesis and anticonvulsant activity of thiazole-bearing hybrids based on 2-imino-4-thiazolidinone and 2,4-dioxothiazolidine-5-carboxylic acid cores. The structure of target compounds was based on the following: (i) A combination of two thiazole cores; (ii) similarity to ralitolin’s structure; (iii) the compliance with structural requirements for the new anticonvulsants. Target compounds were synthesized via known approaches based on Knoenavegel reaction, alkylation reaction, and one-pot three-component reaction. Anticonvulsant properties of compounds were evaluated in two different models—pentylenetetrazole-induced seizures and maximal electroshock seizure tests. Among the tested compounds 5Z-(3-nitrobenzylidene)-2-(thiazol-2-ylimino)-thiazolidin-4-one Ib, 2-[2,4-dioxo-5-(thiazol-2- ylcarbamoylmethyl)-thiazolidin-3-yl]-N-(2-trifluoromethylphenyl)acetamide IId and (2,4-dioxo-5- (thiazol-2-ylcarbamoylmethylene)-thiazolidin-3-yl)acetic acid ethyl ester IIj showed excellent anticonvulsant activity in both models. The directions of compounds modification based on SAR aspects were discussed. The results of the study provide a basis for further study of the anticonvulsant properties of selected thiazole-thiazolidinones.

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Evaluation of Anticonvulsant Activity of Dual COX-2/5-LOX Inhibitor Darbufelon and Its Novel Analogues

Mishchenko

Shtrygol

Lozynskyi

et al. 2021

Sci. Pharm.

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Neuroinflammation is an integral part of epilepsy pathogenesis and other convulsive conditions, and non-steroidal anti-inflammatory drugs (NSAIDs) present a potent tool for the contemporary search and design of novel anticonvulsants. In the present paper, evaluation of the anticonvulsant activity of the potential NSAID dual COX-2/5-LOX inhibitor darbufelone methanesulfonate using an scPTZ model in mice in dose 100 mg/kg is reported. Darbufelone possesses anticonvulsant properties in the scPTZ model and presents interest for in-depth studies as a possible anticonvulsant multi-target agent with anti-inflammatory activity. The series of 4-thiazolidinone derivatives have been synthesized following the analogue-based drug design and hybrid-pharmacophore approach using a darbufelone matrix. The synthesized derivatives showed a significant protection level for animals in the scPTZ model and are promising compounds for the design of potential anticonvulsants with satisfactory drug-like parameters.

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Digoxin at sub-cardiotonic dose modulates the anticonvulsive potential of valproate, levetiracetam and topiramate in experimental primary generalized seizures

Tsyvunin¹,

Shtrygol²,

Mishchenko³

et al. 2022

CSF

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The prevalence of epilepsy in the world population together with a high percentage of patients resistant to existing antiepileptic drugs (AEDs) stimulates the constant search for new approaches to the treatment of the disease. Previously a significant anticonvulsant potential of cardiac glycoside digoxin has been verified by enhancing a weak activity of AEDs in low doses under screening models of seizures induced by pentylenetetrazole and maximal electroshock. The aim of the present study is to investigate the influence of digoxin at a sub-cardiotonic dose on the anticonvulsant activity of valproate, levetiracetam, and topiramate in models of primary generalized seizures with different neurochemical mechanisms. A total of 264 random-bred male albino mice have been used. AEDs were administered 30 min before seizure induction once intragastrically at conditionally effective (ED50) and sub-effective (½ ED50) doses: sodium valproate and topiramate – at doses of 300 and 150 mg/kg; levetiracetam – at doses of 100 and 50 mg/kg. Digoxin was administered once subcutaneously at a dose of 0.8 mg/kg body weight (1/10 LD50) 10–15 min before seizure induction. Picrotoxin (aqueous solution 2.5 mg/kg, subcutaneously), thiosemicarbazide (aqueous solution 25 mg/kg, intraperitoneally), strychnine (aqueous solution 1.2 mg/kg, subcutaneously), camphor (oil solution 1000 mg/kg, intraperitoneally) have been used as convulsive agents for seizure induction. It was found that under the conditions of primary generalized seizures induced by picrotoxin, thiosemicarbazide, strychnine, and camphor, digoxin not only shows its own strong anticonvulsant activity but also significantly enhances the anticonvulsant potential of classical AEDs sodium valproate, levetiracetam, and topiramate. The obtained results substantiate the expediency of further in-depth study of digoxin as an anticonvulsant drug, in particular, the in-depth study of neurochemical mechanisms of its action.

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Evaluation of 5-[(Z)-(4-nitrobenzylidene)]-2-(thiazol-2-ylimino)-4-thiazolidinone (Les-6222) as Potential Anticonvulsant Agent

et al. 2022

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It was determined that the studied 5-[(Z)-(4-nitrobenzylidene)]-2-(thiazol-2-ylimino)-4-thiazolidinone (Les-6222) affects the cyclooxygenase pathway of the arachidonic acid cascade, the markers of damage to neurons on models of PTZ kindling. In the model of chronic epileptogenesis in mice (pentylenetetrazole kindling), a 4-thiazolidinone derivative showed high anticonvulsant activity, which is weaker than the effect of sodium valproate and higher than Celecoxib. The mentioned compound has a pronounced anti-inflammatory effect in the brain on the background of the PTZ kindling, reliably inhibiting COX-1 and COX-2. The predominant inhibition of COX-2 by 44.5% indicates this enzyme’s high selectivity of Les-6222. According to the molecular docking study results, the studied compound revealed the properties of COX-1/COX-2 inhibitor and especially 5-LOX/FLAP. The decreasing content of 8-isoprostane in the brain of mice of the Les-6222 group indicates a beneficial effect on cell membranes in the background of oxidative stress during the long-term administration of PTZ. In addition, Les-6222 significantly decreased the content of neuron-specific enolase, indicating neuroprotective properties in the background of chronic epileptogenesis. The obtained results experimentally substantiate the feasibility of further developing Les-6222 as a promising anticonvulsant agent.

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The anticonvulsant effect of digoxin on basic models of primary generalized seizures does not depend on the route of administration

Tsyvunin¹,

Shtrygol²,

Mishchenko³

et al. 2022

News of pharm.

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Improving the prevention and treatment of epilepsy is one of the urgent tasks. Based on the available data on the anticonvulsant activity of the cardiac glycoside digoxin, it is advisable to compare the anticonvulsant effect of the drug by different routes of administration in the experiment. Aim. To determine the impact of the route of administration on the anticonvulsant effect of the cardiac glycoside digoxin on basic models of primary generalized seizures induced by pentylenetetrazol and maximal electric shock. Materials and methods. Two basic models were used: the model of primary generalized convulsions induced in mice by pentylenetetrazol (80 mg/kg subcutaneously) and maximal electric shock (current strength – 50 mA, frequency – 50 Hz, 0.2 sec corneally). Digoxin was administered in the dose of 0.8 mg/kg (about 1/10 LD50) 30 min before modeling seizures in the stomach and subcutaneously. Standard parameters of convulsive syndrome severity and mortality were recorded. Results and discussion. In both seizure models, the anticonvulsant effect of digoxin was little dependent on the route of administration. In the pentylenetetrazole-induced model, with both routes of administration, lethality tended to decrease; when administered intragastrically, digoxin statistically significantly reduced the number of clonic-tonic seizures per 1 mouse, the number of animals with the most severe tonic seizures, and the duration of the convulsive period; when administered subcutaneously, it significantly increased the latent period of seizures and reduced the number of animals with tonic seizures. In the model of maximal electric shock, digoxin reduced seizure severity andlethality almost equally by both routes of administration (by 55 % with the intragastric administration and by 67.5 % with the subcutaneous administration). In both models, there were no statistically significant differences in the course of seizures in both routes of the digoxin administration. With subcutaneous administration, the anticonvulsant effect was somewhat more pronounced at the level of a weak tendency. Conclusions. The anticonvulsant effect of digoxin when administered intragastrically and subcutaneously in mice with models of pentylenetetrazole-induced seizures and maximal electric shock is practically independent of the routeof administration. Digoxin has a pronounced anticonvulsant effect on the model of electrically induced seizures, and a moderate effect on the model of pentylenetetrazole seizures.

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