Discovery of novel multifunctional ligands targeting GABA transporters, butyrylcholinesterase, ß-secretase, and amyloid ß aggregation as potential treatment of Alzheimer's disease.

Alzheimer's disease (AD) is a global health problem in the medical sector that will increase over time. The limited treatment of AD leads to the search for a new clinical candidate. Considering the multifactorial nature of AD, a strategy targeting number of regulatory proteins involved in the development of the disease is an effective approach. Here, we present a discovery of new multi-target-directed ligands (MTDLs), purposely designed as GABA transporter (GAT) inhibitors, that successfully provide the inhibitory activity against butyrylcholinesterase (BuChE), ß-secretase (BACE1), amyloid ß aggregation and calcium channel blockade activity. The selected GAT inhibitors, 19c and 22a - N-benzylamide derivatives of 4-aminobutyric acid, displayed the most prominent multifunctional profile. Compound 19c (mGAT1 IC50 = 10 µM, mGAT4 IC50 = 12 µM and BuChE IC50 = 559 nM) possessed the highest hBACE1 and Aß40 aggregation inhibitory activity (IC50 = 1.57 µM and 99 % at 10 µM, respectively). Additionally, it showed a decrease in both the elongation and nucleation constants of the amyloid aggregation process. In contrast compound 22a represented the highest activity and a mixed-type of eqBuChE inhibition (IC50 = 173 nM) with hBACE1 (IC50 = 9.42 µM), Aß aggregation (79 % at 10 µM) and mGATs (mGAT1 IC50 = 30 µM, mGAT4 IC50 = 25 µM) inhibitory activity. Performed molecular docking studies described the mode of interactions with GATs and enzymatic targets. In ADMET in vitro studies both compounds showed acceptable metabolic stability and low neurotoxicity. Successfully, compounds 19c and 22a at the dose of 30 mg/kg possessed statistically significant antiamnesic properties in a mouse model of amnesia caused by scopolamine and assessed in the novel object recognition (NOR) task or the passive avoidance (PA) task.

Balloon aortic valvuloplasty in neonates: short- and long-term effects and predictors of successful outcome.

Introduction: Balloon aortic valvuloplasty (BAV) is a common treatment method of aortic valve (AV) stenosis in neonates. Long-term BAV effects are suboptimal, and their predictors are not well acknowledged. Aim: To identify predictors of suboptimal short- and long-term BAV results. Material and methods: The study group comprised forty-three neonates (8 females; weight 3.34 ±0.56 kg) who underwent BAV between 1998 and 2021. Seventeen patients (39.53%) had critical AV stenosis. AV was bicuspid in 22 patients, tricuspid in 12, unicuspid in 2, and undefined in 7 patients. The mean balloon/annulus ratio was 0.9 ±0.07. Catheterization, clinical, and follow-up data were analysed. Results: The peak-to-peak gradient decreased from 67.5 ±26.3 to 21.3 ±12.6 mm Hg. Twenty-eight patients (65.1%) had adequate early outcome. Aortic regurgitation (AR) occurred in 13 (30.2%) patients. No predictors of inadequate early outcome were found. Twenty-year survival was 90.7%. Eleven (35.5%) patients underwent reintervention at a median of 12 (1-215) months; BAV in 5 patients, surgical valvuloplasty in 2, Ross operation in 2, AV replacement in 1, and Norwood operation in 1 patient. Fifteen-year freedom from reintervention (FFR) was 48%. Adequate early outcome resulted in higher FFR (71% vs. 22%), and so did no significant AR (60% vs. 30%). Conclusions: BAV provides satisfying early results. AR remains a significant aftermath of BAV. Risk factors and procedural techniques improving the outcome of BAV are unclear. Further research is needed to improve FFR.

Novel Functionalized Amino Acids as Inhibitors of GABA Transporters with Analgesic Activity.

Neuropathic pain resistance to pharmacotherapy has encouraged researchers to develop effective therapies for its treatment. γ-Aminobutyric acid (GABA) transporters 1 and 4 (mGAT1 and mGAT4) have been increasingly recognized as promising drug targets for neuropathic pain (NP) associated with imbalances in inhibitory neurotransmission. In this context, we designed and synthesized new functionalized amino acids as inhibitors of GABA uptake and assessed their activities toward all four mouse GAT subtypes (mGAT1-4). According to the obtained results, compounds 2RS,4RS-39c (pIC50 (mGAT4) = 5.36), 50a (pIC50 (mGAT2) = 5.43), and 56a (with moderate subtype selectivity that favored mGAT4, pIC50 (mGAT4) = 5.04) were of particular interest and were therefore evaluated for their cytotoxic and hepatotoxic effects. In a set of in vivo experiments, both compounds 50a and 56a showed antinociceptive properties in three rodent models of NP, namely, chemotherapy-induced neuropathic pain models (the oxaliplatin model and the paclitaxel model) and the diabetic neuropathic pain model induced by streptozotocin; however compound 56a demonstrated predominant activity. Since impaired motor coordination is also observed in neuropathic pain conditions, we have pointed out that none of the test compounds induced motor deficits in the rotarod test.

Development of tricyclic N-benzyl-4-hydroxybutanamide derivatives as inhibitors of GABA transporters mGAT1-4 with anticonvulsant, antinociceptive, and antidepressant activity.

γ-Aminobutyric acid (GABA) neurotransmission has a significant impact on the proper functioning of the central nervous system. Numerous studies have indicated that inhibitors of the GABA transporters mGAT1-4 offer a promising strategy for the treatment of several neurological disorders, including epilepsy, neuropathic pain, and depression. Following our previous results, herein, we report the synthesis, biological evaluation, and structure-activity relationship studies supported by molecular docking and molecular dynamics of a new series of N-benzyl-4-hydroxybutanamide derivatives regarding their inhibitory potency toward mGAT1-4. This study allowed us to identify compound 23a (N-benzyl-4-hydroxybutanamide bearing a dibenzocycloheptatriene moiety), a nonselective GAT inhibitor with a slight preference toward mGAT4 (pIC50 = 5.02 ± 0.11), and compound 24e (4-hydroxy-N-[(4-methylphenyl)-methyl]butanamide bearing a dibenzocycloheptadiene moiety) with relatively high inhibitory activity toward mGAT2 (pIC50 = 5.34 ± 0.09). In a set of in vivo experiments, compound 24e successively showed predominant anticonvulsant activity and antinociception in the formalin model of tonic pain. In contrast, compound 23a showed significant antidepressant-like properties in mice. These results were consistent with the available literature data, which indicates that, apart from seizure control, GABAergic neurotransmission is also involved in the pathophysiology of several psychiatric diseases, however alternative mechanisms underlying this action cannot be excluded. Finally, it is worth noting that the selected compounds showed unimpaired locomotor skills that have been indicated to give reliable results in behavioral assays.

Novel mouse GABA uptake inhibitors with enhanced inhibitory activity toward mGAT3/4 and their effect on pain threshold in mice.

γ-Aminobutyric acid (GABA) uptake transporters are membrane transport proteins that are involved in the pathophysiology of a number of neurological disorders. Some types of chronic pain appear to result from the dysfunction of the GABAergic system. The deficiency of mouse GAT1 transporter (mGAT1) abolishes the nociceptive response, which means that mGAT1 inhibition is an appropriate medical approach to achieve analgesia. The mGAT4 transporter is the second most abundant GAT subtype in the brain; however, its physiological role has not yet been fully understood in the central nervous system. In this study, we examined whether the combination of mGAT1 and mGAT3/mGAT4 inhibition in a single molecule might lead to potentially synergistic effects improving analgesic activity to relieve neuropathic pain. To study this hypothesis, new GABA uptake inhibitors were designed, synthesized, and evaluated in terms of their activity and subtype selectivity for mGAT1-4. Among new functionalized amino acid derivatives of serine and GABA analogs, compounds with preferential mGAT3/4 inhibitory activity were discovered. Two selected hits (19b and 31c) were subjected to in vivo tests. We found a statistically significant antiallodynic activity in the von Frey test in diabetic and oxaliplatin-induced neuropathic pain model. The novel compounds (4-hydroxybutanoic, 4-hydroxypentanoic, and 4-aminobutanoic acid derivatives and serine analogs) provide new insights into the structure-activity relationship of mGAT3/mGAT4 inhibitors and indicate a new direction in the search for potential treatment of neuropathic pain of various origin.

Experimental Drugs for Neuropathic Pain.

BACKGROUND: Neuropathic pain (NP) is an important public health problem and despite recent progress in the understanding, diagnosis, pathophysiological mechanisms and the treatment of NP, many patients remain refractory to pharmacotherapy. OBJECTIVE: Currently used drugs have limited efficacy and dose-limiting adverse effects, and thus there is a substantial need for further development of novel medications for its treatment. Alternatively, drugs approved for use in diseases other than NP can be applied as experimental for NP conditions. This paper covers advances in the field of NP treatment. RESULTS: The prime focus of this paper is on drugs with well-established pharmacological activity whose current therapeutic applications are distinct from NP. These drugs could be a potential novel treatment of NP. Data from preclinical studies and clinical trials on these experimental drugs are presented. The development of advanced methods of genomics enabled to propose new targets for drugs which could be effective in the NP treatment. CONCLUSION: Experimental drugs for NP can be a treatment option which should be tailor-made for each individual on the basis of pain features, previous therapies, associated clinical conditions, recurrence of pain, adverse effects, contraindications and patients' preferences. At present, there are only some agents which may have potential as novel treatments. Increasing knowledge about mechanisms underlying NP, mechanisms of drug action, as well as available data from preclinical and clinical studies make botulinum toxin A, minocycline, ambroxol, statins and PPAR agonists (ATx086001) promising potential future treatment options.

Metabolic benefits of 1-(3-(4-(o-tolyl)piperazin-1-yl)propyl)pyrrolidin-2-one: a non-selective α-adrenoceptor antagonist.

PURPOSE: Previous studies have shown that several components of the metabolic syndrome, such as hypertension, obesity or imbalanced lipid and carbohydrate homeostasis, are associated with the sympathetic nervous system overactivity. Therefore, the inhibition of the adrenergic nervous system seems to be a reasonable and appropriate therapeutic approach for the treatment of metabolic disturbances. It has been suggested that non-selective adrenoceptor antagonists could be particularly beneficial, since α1-adrenoceptor antagonists can improve disrupted lipid and carbohydrate profiles, while the inhibition of the α2-adrenoceptor may contribute to body weight reduction. The aim of the present study was to investigate the metabolic benefits deriving from administration of a non-selective α-adrenoceptor antagonist from the group of pyrrolidin-2-one derivatives. The aim of the present study was to investigate the potential metabolic benefits deriving from chronic administration of a non-selective α-adrenoceptor antagonist, from the group of pyrrolidin-2-one derivatives. METHODS: The α1- and α2-adrenoreceptor affinities of the tested compound-1-(3-(4-(o-tolyl)piperazin-1-yl)propyl)pyrrolidin-2-one had been investigated previously by means of the radioligand binding assay. In the present study, we extended the pharmacological profile characteristics of the selected molecule by additional intrinistic activity assays. Next, we investigated the influence of the tested compound on body weight, hyperglycemia, hypertriglyceridemia, blood pressure in the animal model of obesity induced by a high-fat diet, and additionally we measured the spontaneous activity and body temperature. RESULTS: The intrinistic activity studies revealed that the tested compound is a potent, non-selective antagonist of α1B and α2A-adrenoceptors. After the chronic administration of the tested compound, we observed reduced level of triglycerides and glucose in the rat plasma. Interestingly, the tested did not reduce the body weight and did not influence the blood pressure in normotensive animals. Additionally, the administration of the tested compound did not change the animals' spontaneous activity and body temperature. CONCLUSION: Non-selective α-adrenoceptor antagonist seems to carry potential benefits in the improvement of the reduction of elevated glucose and triglyceride level. The lack of influence on blood pressure suggests that compounds with such a pharmacological profile may be particulary beneficial for the patients with disturbed lipid and carbohydrate profile, who do not suffer from hypertension. These results are particulary valuable, since currently there are no safe α2A-adrenoceptor antagonist drugs available in clinical use with the ability to modulate hyperglycemia that would not affect blood pressure.

Novel, highly potent and in vivo active inhibitor of GABA transporter subtype 1 with anticonvulsant, anxiolytic, antidepressant and antinociceptive properties.

BACKGROUND AND PURPOSE: Since GABAergic dysfunction underlies a variety of neurological and psychiatric disorders, numerous strategies leading to the augmentation of GABAergic neurotransmission have been introduced. One of them is the inhibition of GABA reuptake from the synaptic cleft mediated by four plasma membrane GABA transporters (GAT1-4). GAT1 which is exclusively expressed in the brain is an interesting target for centrally acting drugs. In this research, pharmacological properties of a novel, highly potent and selective inhibitor of GAT1, the guvacine derivative named DDPM-2571, were assessed in vivo. EXPERIMENTAL APPROACH: Pharmacological effects and pharmacokinetics of intraperitoneally administered DDPM-2571 were assessed in CD-1 mice. KEY RESULTS: DDPM-2571 was quickly distributed into the brain and was highly effective in the prevention of chemically-induced seizures (pentylenetetrazole and pilocarpine models) and 6-Hz convulsions. It demonstrated significant anxiolytic-like and antidepressant-like properties. DDPM-2571 had antinociceptive properties, both in the hot plate test and in the second phase of the formalin test. Within the dose range tested, it did not impair animals' motor skills, but it impaired cognition and potentiated scopolamine-induced cognitive deficits in the passive avoidance task. CONCLUSIONS AND IMPLICATIONS: Due to GAT1 inhibition, DDPM-2571 is effective in mouse models of chemically-induced seizures, anxiety, depression, acute and tonic pain. At biologically active doses, it does not impair animals' motor skills, but it might induce memory deficits. Taken together, DDPM-2571 can be regarded as a promising lead structure in the search for new centrally acting drugs and a potent pharmacological tool to study the biological role of GAT1.

Search for new potential anticonvulsants with anxiolytic and antidepressant properties among derivatives of 4,4-diphenylpyrrolidin-2-one.

BACKGROUND: The aim of this study was to synthesize a series of new N-Mannich bases derived from 4,4-diphenylpyrrolidin-2-one having differently substituted 4-phenylpiperazines as potential anticonvulsant agents with additional (beneficial) pharmacological properties. METHODS: The target compounds 8-12 were prepared in one step from the 4-substituted phenylpiperazines, paraformaldehyde, and synthesized 4,4-diphenylpyrrolodin-2-one (7) by a Mannich-type reaction. The obtained compounds were assessed and tested for their anticonvulsant activity in two screening mouse models of seizures, i.e., the maximal electroshock (MES) test and in the subcutaneous pentylenetetrazole (scPTZ) test. The effect of these compounds on animals' motor coordination was measured in the rotarod test. A selected 4,4-diphenyl-1-((4-phenylpiperazin-1-yl)methyl)pyrrolidin-2-one (8) was evaluated in vivo for its anxiolytic- and antidepressant-like properties. Its impact on animals' locomotor activity was also evaluated. RESULTS: Compound 8 showed protection (25%) in the MES and in the scPTZ tests at the dose of 100mg/kg and was not neurotoxic. In the four-plate test, compound 8 at the dose of 30mg/kg showed a statistically significant (p<0.05) anxiolytic-like activity. In the forced swim test, it reduced the immobility time by 24.3% (significant at p<0.05), which indicates its potential antidepressant-like properties. In the locomotor activity test, compound 8 significantly reduced animals' locomotor activity by 79.9%. CONCLUSION: The results obtained make a new derivative of 4,4-diphenyl-1-((4-phenylpiperazin-1-yl)methyl)pyrrolidin-2-one (8) a promising lead structure for further development.

Pyrrolidin-2-one derivatives may reduce body weight in rats with diet-induced obesity.

UNLABELLED: Obesity affects an increasing number of individuals in the human population and significant importance is attached to research leading to the discovery of drug which would effectively reduce weight. The search for new drugs with anorectic activity and acting within the adrenergic system has attracted the interest of researchers. This study concerns the experimental effects on body weight of α2-adrenoceptor antagonists from the group of pyrrolidin-2-one derivatives in rats with diet-induced obesity. METHODS: The intrinsic activity of the test compounds at the α-adrenoreceptors was tested. Obesity in rats was obtained by the use of fatty diet and then the influence of the test compounds on body weight, food and water intakes, lipid and glucose profiles and glycerol and cortisol levels were determinated. The effects of the compounds on locomotor activity, body temperature, blood pressure and heart rate were tested. RESULTS: One of the test compounds (1-(3-(4-phenylpiperazin-1-yl)propyl)pyrrolidin-2-one) reduces the animal's body weight and the amount of peritoneal adipose tissue during chronic administration, at the same time it does not cause significant adverse effects on the cardiovascular system. This compound decreases temperature and elevates glycerol levels and does not change the locomotor activity and cortisol level at anti-obese dose. CONCLUSIONS: Some derivatives of pyrrolidin-2-one that act as antagonists of the α2-adrenoreceptor may reduce body weight. Reducing body weight for 1-(3-(4-phenylpiperazin-1-yl)propyl)pyrrolidin-2-one can be associated with decrease in food intake, body fat reduction, reduction of blood glucose, and increased thermogenesis and lipolysis. This effect cannot be the result of changes in spontaneous activity or stress.

Antiarrhythmic and α-Adrenoceptor Antagonistic Properties of Novel Arylpiperazine Derivatives of Pyrrolidin-2-one.

In an effort to develop α-adrenoceptor antagonists with antiarrhythmic activity, we designed a series of pyrrolidin-2-one derivatives. The α1- and α2-adrenorecepor affinities of the new pyrrolidin-2-one derivatives were determined using a radioligand binding assay. The most active compound was then tested in vitro for intrinsic activity toward α(1A)- and α(1B)-adrenoceptors and in vitro for antiarrhythmic activity in epinephrine-induced arrhythmia in rats. The highest affinity for the α1-adrenoceptor (pK(i) = 7.01) was displayed by 1-{4-[4-(2-methoxy-5-chlorophenyl)-piperazin-1-yl]-methyl}-pyrrolidin-2-one (9). 1-[4-(2-Fluorophenyl)-piperazin-1-yl]-methyl-pyrrolidin-2-one (7) showed the highest affinity toward the α2-adrenoceptor (pK(i) = 6.52). Intrinsic activity studies of compound 9 showed that this compound is an antagonist of both α(1A)- (EC50 = 0.5 nM) and α(1B)- (EC50 = 51.0 nM) adrenoceptors. Compound 9 displayed antiarrhythmic activity in rats (ED50 = 5.0 mg/kg (3.13-7.99)). New derivatives of pyrrolidin-2-one with α1 -adrenoceptor affinity were identified. We propose that the antiarrhythmic activity of compound 9 is related to its antagonism of α(1A)- and α(1B)-adrenoceptors.

The effect of GABA transporter 1 (GAT1) inhibitor, tiagabine, on scopolamine-induced memory impairments in mice.

BACKGROUND: GABAergic neurotransmission is involved in long-term potentiation, a neurophysiological basis for learning and memory. On the other hand, GABA-enhancing drugs may impair memory and learning in humans and animals. The present study aims at investigating the effect of GAT1 inhibitor tiagabine on memory and learning. METHODS: Albino Swiss (CD-1) and C57BL/6J mice were used in the passive avoidance (PA), Morris water maze (MWM) and radial arm water maze (RAWM) tasks. Scopolamine (1mg/kg ip) was applied to induce cognitive deficits. RESULTS: In the retention trial of PA scopolamine reduced step-through latency as compared to vehicle-treated mice, and pretreatment with tiagabine did not have any influence on this effect. In MWM the results obtained for vehicle-treated mice, scopolamine-treated group and combined scopolamine+tiagabine-treated mice revealed variable learning abilities in these groups. Tiagabine did not impair learning in the acquisition trial. In RAWM on day 1 scopolamine-treated group made nearly two-fold more errors than vehicle-treated mice and mice that received combined scopolamine and tiagabine. Learning abilities in the latter group were similar to those of vehicle-treated mice in the corresponding trial block on day 1, except for the last trial block, during which tiagabine+scopolamine-injected mice made more errors than control mice and the scopolamine-treated group. In all groups a complete reversal of memory deficits was observed in the last trial block of day 2. CONCLUSIONS: The lack of negative influence of tiagabine on cognitive functions in animals with scopolamine-induced memory impairments may be relevant for patients treated with this drug.

Progress in the Search for New Dopamine Transporter Inhibitors.

In the present review, we provide a comprehensive summary of recent pharmacological studies on dopamine transporter (DAT) inhibitors, which are potential treatments for neurodegenerative and psychiatric disorders. Extensive structure-activity relationship studies have identified numerous tropane-based ligands with high affinity and selectivity for the DAT or with high affinity to the DAT and other monoamine transporters (dual and triple monoamine reuptake inhibitors). The review covers advances in the field in past fifteen years. Among the described compounds, many appear to be promising drug candidates, while other may serve as valuable tools for research or as prototypes for new classes of selective DAT inhibitors. Special attention is being paid to separation of the DAT inhibition from NET and SERT inhibition.

Anticonvulsant active inhibitor of GABA transporter subtype 1, tiagabine, with activity in mouse models of anxiety, pain and depression.

BACKGROUND: Tiagabine, a selective inhibitor of GABA transporter subtype 1 is used as an add-on therapy of partial seizures in humans but its mechanism of action suggests other potential medical indications for this drug. In this research we assess its pharmacological activity in several screening models of seizures, pain, anxiety and depression in mice. METHODS: For pharmacological tests tiagabine was administered intraperitoneally 60 min before the assay. Behavioral tests were performed using models of chemically and electrically induced seizures, thermal acute pain and formalin-induced tonic pain. Anxiolytic-like properties were evaluated using the four plate test and the elevated plus maze test. Antidepressant-like activity was assessed in the forced swim test. In addition, to exclude false positive results in these assays, the influence of tiagabine on animals' locomotor activity and motor coordination was investigated, too. RESULTS: Tiagabine demonstrated anticonvulsant properties in chemically induced seizures (pentylenetetrazole and pilocarpine seizures). At the dose of 100mg/kg it also elevated the seizure threshold for electrically induced seizures by 31.6% (p<0.01), but it had no activity in the maximal electroshock seizure test. Tiagabine showed anxiolytic-like and antidepressant-like effects. Although it apparently reduced animals' nociceptive responses in pain tests, these activities rather resulted from its sedative and motor-impairing properties demonstrated in the locomotor activity and the rotarod tests, respectively. CONCLUSIONS: The results obtained in the present study suggest that tiagabine, apart its anticonvulsant effect, has anxiolytic-like, sedative and antidepressant-like properties. In view of this, it can be potentially used in the treatment of anxiety and mood disorders.

Cebranopadol : a first-in-class potent analgesic agent with agonistic activity at nociceptin/orphanin FQ and opioid receptors.

INTRODUCTION: Pain is a syndrome of various clinical disorders, which arises from various pathological conditions and which presents significant challenges in both its diagnosis and treatment. There is currently a strong medical demand to develop new therapies with a higher efficacy and a better tolerability profile. AREAS COVERED: In this review, the authors report on the available data for the pharmacological properties of cebranopadol (GRT6005), a first in-class, potent analgesic compound which acts as an agonist of nociceptin/orphanin FQ peptide (NOP) and opioid receptors. They highlight the in vitro receptor binding studies, as well as the in vivo preclinical results on the analgesic efficacy of cebranopadol obtained in several rodent pain models. The authors also briefly summarize the available data from clinical trials with cebranopadol. EXPERT OPINION: Cebranopadol displays analgesic, antiallodynic and antihyperalgesic properties in several rat models of acute nociceptive, inflammatory, cancer and neuropathic pain. In contrast to classical opioids, it has a higher analgesic potency in models of neuropathic pain than in acute nociceptive pain. Even at higher analgesic doses, cebranopadol does not induce motor coordination deficits or respiratory depression in rats. Hence, it seems to possess a broader therapeutic window than classical opioids. While it is particularly interesting as a novel, potent bifunctional agonist of NOP/opioid receptors, the outcome of its ongoing and planned clinical trials will be crucial for its future development and potential application in humans.

α-Adrenoceptor antagonistic and hypotensive properties of novel arylpiperazine derivatives of pyrrolidin-2-one.

This study focused on a series of pyrrolidin-2-one derivatives connected via two or four methylene units to arylpiperazine fragment. The compounds obtained for α1- and α2-adrenoceptors were assessed. The compound with highest affinity for the α1-adrenoceptors was 1-{4-[4-(2-chloro-phenyl)-piperazin-1-yl]-butyl}-pyrrolidin-2-one (10 h) with pKi=7.30. Compound with pKi (α1) ⩾6.44 were evaluated in functional bioassays for intrinsic activity at α1A- and α1B-adrenoceptors. All compounds tested were antagonists of the α1B-adrenoceptors. Additionally, compounds 10e and 10h were α1A-adrenoceptors antagonist. The dual α1A-/α1B-adrenoceptors antagonists, compounds 10e and 10h were also tested in vivo for their hypotensive activity in rats. These compounds, when dosed of 1.0 mg/kg iv in normotensive, anesthetized rats, significantly decreased systolic and diastolic pressure and their hypotensive effects lasted for longer than one hour.

Zucapsaicin for the treatment of neuropathic pain.

INTRODUCTION: Neuropathic pain (NP) is a chronic disease that stems from a primary lesion or dysfunction of the central or peripheral nervous system. Zucapsaicin is a synthetic cis isomer of natural capsaicin that has shown therapeutic efficacy in pain accompanying osteoarthritis of the knee. It is also currently under investigation for the relief of severe pain in adults suffering from NP. AREAS COVERED: The authors provide an overview of the pharmacological properties of zucapsaicin based on available data from both preclinical and clinical trials. They also discuss its mechanism of action. EXPERT OPINION: The mechanism of action and clinical indications of zucapsaicin are similar to that of its naturally occurring isomer, capsaicin. However, in contrast to capsaicin, zucapsaicin is better tolerated. In the future, zucapsaicin could become a valuable drug for treating pain relief. Indeed, it is possible, in addition to providing NP relief, that it may have a use in treating osteoarthritic pain, headaches and pain that accompany intestinal diseases.

Synthesis, biological evaluation and structure-activity relationship of new GABA uptake inhibitors, derivatives of 4-aminobutanamides.

Six series of 2-substituted 4-aminobutanamide derivatives were synthesized and evaluated for their ability to inhibit GABA transport proteins mGAT1-4 stably expressed in HEK-293 cell lines. The pIC50 values determined were in the range 4.23-5.23. Two compounds (15b and 15c) were selected for further in vitro studies. These compounds were also subjected to preliminary behavioral studies to evaluate their anticonvulsant, antidepressant-like, and antinociceptive activities in mice. Their influence on motor coordination was also assessed. We report that, among a spectrum of in vivo activities, both 15b and 15c displayed significant activity against pentylenetetrazole (PTZ)-induced seizures.

Evaluation of anticonvulsant activity of novel pyrrolidin-2-one derivatives.

BACKGROUND: The aim of this study was to examine the anticonvulsant activity of some novel pyrrolidin-2-one derivatives with considerable affinity to serotonin 5-HT1A and α1-adrenergic receptors. METHODS: The maximal electroshock-induced seizure (MES) and pentetrazole (PTZ)-induced seizure models in mice were performed. RESULTS: As a results of the conducted studies, three compounds showing anticonvulsant activity were selected. The EP-40 molecule significantly reduced incidence of seizures in the maximal electroshock test. The EP-42 and EP-46 compounds demonstrated activity in the pentetrazole-induced seizures. CONCLUSION: The results may indicate that the decrease in the susceptibility to seizures induced by the new pyrrolidin-2-one derivatives is related to the significant affinity to serotonergic or α1-adrenergic receptors. Also putative mechanism of action of the test compounds can be linked with their GABA-ergic activity, because these novel derivatives are GABA analogs.