Design, synthesis and biological evaluation of piperazino-enaminones as novel suppressants of pro-Inflammatory cytokines.

Infection triggers the release of pro-inflammatory cytokines (TNF-alpha and IL-6). Over-production, however, cause tissue injury seen in severe asthma. The ability of enaminone E121 to reduce pro-inflammatory cytokines in our laboratory encouraged further examination of its structural scaffold. Piperazino-enaminones were designed by incorporating n-arylpiperazine motif into the aromatic enaminone. Four possible modifications were explored systematically. Synthesis was accomplished by amination of the corresponding methyl/ethyl 2,4-dioxo-6-(substituted)cyclohexane-carboxylate.. Sixteen novel compounds were synthesized. Biological activity was tested in J774 macrophages stimulated with lipopolysaccharides. The release of cytokines was measured via ELISA. Four compounds significantly suppressed TNF-alpha and IL-6 release in dose-dependent manner.

Paclitaxel Causes Electrophysiological Changes in the Anterior Cingulate Cortex via Modulation of the γ-Aminobutyric Acid-ergic System.

OBJECTIVE: The aim of this study was to elucidate any electrophysiological changes that may contribute to the development of neuropathic pain during treatment with the anticancer drug paclitaxel, particularly in the γ-aminobutyric acid (GABA) system. MATERIALS AND METHODS: One hundred and eight Sprague-Dawley rats were used (untreated control: 43; vehicle-treated: 21, and paclitaxel-treated: 44). Paclitaxel (8 mg/kg) was administered intraperitoneally on 2 alternate days to induce mechanical allodynia. The rats were sacrificed 7 days after treatment to obtain slices of the anterior cingulate cortex (ACC), a brain region involved in the central processing of pain. Field excitatory postsynaptic potentials (fEPSPs) were recorded in layer II/III of ACC slices, and stimulus-response curves were constructed. The observed effects were pharmacologically characterized by bath application of GABA and appropriate drugs to the slices. RESULTS: The paclitaxel-treated rats developed mechanical allodynia (i.e. reduced withdrawal threshold to mechanical stimuli). Slices from paclitaxel-treated rats produced a significantly higher maximal response (Emax) than those from untreated rats (p < 0.001). Bath application of GABA (0.4 µM) reversed this effect and returned the excitability to a level similar to control. Pretreatment of the slices with the GABAB receptor blocker CGP 55845 (50 µM) increased Emax in slices from untreated rats (p < 0.01) but not from paclitaxel-treated rats. CONCLUSION: In this study, there was a GABA deficit in paclitaxel-treated rats compared to untreated ones. Such a deficit could contribute to the pathophysiology of paclitaxel-induced neuropathic pain (PINP). Thus, the GABAergic system might be a potential therapeutic target for managing PINP.

Antiallergic and antiasthmatic effects of a novel enhydrazinone ester (CEE-1): inhibition of activation of both mast cells and eosinophils.

Activation of mast cells and eosinophils is a fundamental process in the pathophysiology of allergic diseases. We have previously reported that the novel enhydrazinone ester CEE-1 (ethyl 4-phenylhydrazinocyclohex-3-en-2-oxo-6-phenyl-1-oate) possesses potent anti-inflammatory activity. We have now tested whether the compound also possesses antiallergic and antiasthmatic effects in vitro and in vivo. The compound significantly inhibited degranulation and leukotriene C4 (LTC4) release from activated human eosinophils, as well as IgE-dependent degranulation and LTC4 release from passively sensitized rat basophilic leukemia cells and bone marrow-derived mouse mast cells. In human eosinophils, the drug was more potent in inhibiting degranulation than LTC4 release {IC50 = 0.4 µM [confidence interval (CI): 0.1-0.9] versus 3.8 µM (CI: 0.9-8.3)}, whereas in mast cells the reverse was essentially the case. The drug did not affect stimulus-induced calcium transients in eosinophils but significantly inhibited early phosphorylation of extracellular signal-regulated kinases 1/2 and p38-mitogen-activated protein kinases (MAPK). In vivo, topical application of 4.5-15 mg/kg of the compound significantly inhibited allergen-induced passive cutaneous anaphylaxis in mice. Similarly, in the mouse asthma model, the intranasal administration of 6.5-12.5 mg/kg of the compound significantly inhibited bronchial inflammation and eosinophil accumulation in bronchial lavage fluid, as well as abolishing airway hyper-responsiveness to methacholine. These results show that CEE-1 inhibits the activation of both mast cells and eosinophils in vitro, probably by blocking MAPK-activation pathways, and that these effects are translated into antiallergic and antiasthmatic effects in vivo. The compound, therefore, has potential application in the treatment of asthma and other allergic diseases.

The anticonvulsant enaminone E139 attenuates paclitaxel-induced neuropathic pain in rodents.

The enaminone methyl 4-(4'-bromophenyl)aminocyclohex-3-en-6-methyl-2-oxo-1-oate (E139) has anticonvulsant activities. It has been reported to have a better safety profile than some anticonvulsant drugs. Since some anticonvulsant drugs are used in the management of neuropathic pain, we evaluated the effects of E139 in rodent models of acute pain and paclitaxel-induced neuropathic pain. The reaction latency to thermal stimuli (hot-plate test) of BALB/c mice was recorded before and after intraperitoneal treatment with paclitaxel (2 mg/kg, i.p. for 5 consecutive days), and after treatment with E139 (0.1-40 mg/kg), amitriptyline (10 mg/kg), and gabapentin (10 and 30 mg/kg). Mechanical allodynia in paclitaxel-treated Sprague Dawley (SD) rats was measured using a dynamic plantar aesthesiometer before and after treatment with E139 (10 and 20 mg/kg) or its vehicle for four consecutive days from day 7 after first administration of paclitaxel (16 mg/kg on two alternate days). Administration of E139 (10-40 mg/kg) produced antinociceptive activity against thermal nociception in naïve mice. Treatment with E139, amitriptyline, or gabapentin reduced paclitaxel-induced thermal hyperalgesia. E139 reduced paclitaxel-induced mechanical allodynia, with the effects lasting longer (24 h) after repetitive dosing. Our results indicate that E139 has antinociceptive activity and attenuates paclitaxel-induced neuropathic pain in rodents.

Mobile-Based Augmented Reality Application in Pharmacy Schools Implemented in Pharmaceutical Compounding Laboratories: Students' Benefits and Reception.

BACKGROUND: Augmented reality (AR) is a technological approach which combines virtual objects such as text, pictures or videos with physical objects (real-world). The study aimed to design, implement and validate a mobile-based AR application, as a self-paced, interactive, student-centered learning tool be used in the pharmaceutical compounding laboratory course for first year pharmacy students. METHOD: A mobile-based AR application (Amplified Rx app; HeyPayLess Inc) compatible with iOS and android operating system was developed. A cross-over study design was conducted where alternatively, one group was subjected to ARx app implementation in 8 formulations and the other group served as control. The reception and benefits to students were assessed via a 10 questions survey. In this case, 69 (2019) and 55 (2020) students participated in the study. RESULT: Students' use of ARx app was increased in 2020 which indicates its usefulness. For acceptability, leaners enjoyed interactive materials and tutorial videos were the most used and appealing item. Learners described the installation, scanning and operation to be very easy in both years. 86.95% of learners were confident conducting the experiments with the assistance of ARx app in 2019 and increased to 92.73% in 2020. 33.33% considered ARx app to be the most helpful resource in 2019, and the percent was significantly increased to 76.36% in 2020. CONCLUSION: AR technology implementation in pharmaceutical education could create student-centered engaging and interactive learning experience in fundamental areas such as pharmaceutical compounding laboratories.

The novel piperazino-enaminone JOAB-40 reduced colitis severity in mice via inhibition tumor necrosis factor-α and interleukin-1ß.

BRIEF INTRODUCTION: The synthetic compound enaminone E121 has an established role as a potent anti-tussive, bronchodilator and anti-inflammatory agent in asthma, cough, and colitis induced animal models. The addition of an N-alkylated piperazine motif to the terminal end of E121 lead to the generation of various analogues such as JOAB-40. JOAB-40 was shown to be more potent than the lead compound E121 in inhibiting the expression of the chemokine receptor CCR2, ERK1/2 phosphorylation, and the release of pro-inflammatory cytokines in vitro. MAIN OBJECTIVE OF THE STUDY: We hypothesize that JOAB-40 is more potent than the lead compound E121 in reducing colitis severity in mice in part through inhibiting the release of TNFα and IL-1ß. METHODS: Colitis was induced by dextran sulfate sodium (DSS) administration using prophylactic and treatment approaches. The severity of the inflammation was determined by the gross (macroscopic) and histological (microscopic) assessments. The levels of TNFα, IL-1ß, and IL-10 release in response to lipopolysaccharide (LPS) stimulation from the adherent murine macrophage cell line J774.2 in vitro, and the circulating levels of TNFα in vivo was measured by ELISA-based technique. SIGNIFICANT FINDINGS FROM THE STUDY: E121 administration (1-60 mg/kg) in mice with established colitis (treatment approach) did not reduce colitis severity. On the other hand, JOAB-40 administration significantly reduced colitis severity in mice when administered using two approaches; a) prophylactic (given along colitis induction), and b) treatment (given after colitis was established) with doses as low as 10 mg/kg. The degree of inhibition of TNFα and IL-1ß (but not IL-10) release from J774.2 cell line in response to LPS stimulation was more potent with JOAB-40 than E121. This was also observed in vivo in regards to the circulating levels of TNFα. RELEVANT CONTRIBUTION TO KNOWLEDGE: Our results indicate that JOAB-40 is more potent than E121 in reducing colitis severity in mice and may be a promising future therapeutic target for the management of inflammatory bowel disease (IBD).

Liquid chromatography-tandem mass spectrometric method for determination of E121 in mouse plasma and its application to pharmacokinetics.

A rapid LC-MS/MS method for quantification of an enaminone analog, E121 in mouse plasma using E118 as an internal standard (IS) has been developed and validated. The analyte was analyzed on C(18) column using a mobile phase of acetonitrile/methanol/ammonium acetate/formic acid (60:20:20:0.025, v/v/v/v) at a flow rate of 0.25 mL/min. Quantitation was achieved using ESI+ interface, employing MRM mode at m/z 308>262 and 222>194 for E121 and IS, respectively. The calibration standards were linear over a range of 0.10-20 microg/mL (r(2)>0.99) with an LLOQ of 0.1 microg/mL (RSD%; 11.4% and bias%; 9.5%). Intra- and inter-run precision of E121 assay ranged from 3.7 to 10.9% with accuracy (bias) that varied between -10.0 and 12.0%, demonstrating good precision and accuracy. Recoveries of E121 and the IS from plasma were above 80%. Stability of E121 in plasma showed that the analyte was stable under various conditions. The matrix effect study showed a lack of effect. The applicability of the developed method was demonstrated by measuring E121 in mouse plasma samples following intraperitoneal administration of various doses ranging from 10 to 100 mg/kg and this study demonstrates that E121 exhibits linear kinetics in the dose range studied.

Nutraceuticals' Novel Formulations: The Good, the Bad, the Unknown and Patents Involved.

Traditional nutraceuticals and cosmeceuticals hold pragmatic nature with respect to their definitions, claims, purposes and marketing strategies. Their definitions are not well established worldwide. They also have different regulatory definitions and registration regulatory processes in different parts of the world. Global prevalence of nutraceuticals and cosmeceuticals is noticeably high with large market share with minimal regulation compared to traditional drugs. The global market is flooded with nutraceuticals and cosmeceuticals claiming to be of natural origin and sold with a therapeutic claim by major online retail stores such as Amazon and eBay. Apart from the traditional formulations, many manufacturers and researchers use novel formulation technologies in nutraceutical and cosmeceutical formulations for different reasons and objectives. Manufacturers tend to differentiate their products with novel formulations to increase market appeal and sales. On the other hand, researchers use novel strategies to enhance nutraceuticals and cosmeceuticals activity and safety. The objective of this review is to assess the current patents and research adopting novel formulation strategies in nutraceuticals and cosmeceuticals. Patents and research papers investigating nutraceutical and cosmeceutical novel formulations were surveyed for the past 15 years. Various nanosystems and advanced biotechnology systems have been introduced to improve the therapeutic efficacy, safety and market appeal of nutraceuticals and cosmeceuticals, including liposomes, polymeric micelles, quantum dots, nanoparticles, and dendrimers. This review provides an overview of nutraceuticals and cosmeceuticals current technologies, highlighting their pros, cons, misconceptions, regulatory definitions and market. This review also aims in separating the science from fiction in the nutraceuticals and cosmeceuticals development, research and marketing.

Novel Piperazino-Enaminones Decrease Pro-inflammatory Cytokines Following Hemarthrosis in a Hemophilia Mouse Model.

Hemarthrosis is the primary cause of hemophiliac arthropathy (HA). Pro-inflammatory cytokines are thought to play an important role in the pathogenesis of HA, and thus, anti-cytokine approaches may be used as an adjuvant therapy. A novel series of enaminone compounds (JODI), that contain the N-aryl piperazino motif, have been shown in vitro to reduce pro-inflammatory cytokines and thus may be efficacious in vivo. In this report, we will assess whether JODI can suppress multiple cytokines which might be potentially responsible for joint inflammation in a mouse model of hemarthrosis. The results showed that JODI significantly improved the survival after LPS treatment, and most pro-inflammatory cytokines/chemokines were decreased significantly after JODI administration. In the hemophilia mouse model, hemarthrosis resulted in local cytokine/chemokine changes, represented by elevated pro-inflammatory (IL-6, MCP-1, MIP-1α, MIP-1ß) and pro-angiogenic (VEGF and IL-33) cytokines, and decreased anti-pro-inflammatory cytokines IL-4 and IL-10. The changes were reversed by administration of JODI, which can be used as a novel approach to manage hemophilia arthropathy.

Norepinephrine and E139 interactions on epileptiform activity in the rat hippocampus in vitro.

OBJECTIVES: We tested if E139, an anticonvulsant enaminone, interacts with norepinephrine (NE) to suppress population responses and chemically induced in vitro seizures in the rat hippocampus. MATERIALS AND METHODS: Evoked field population spikes (PS) were recorded in the hippocampal CA1 area, and in vitro seizures were generated chemically using the zero Mg(2+) model. RESULTS: Low concentrations of E139 (or=100 microM) enhanced them. For example, E139 (10 microM) depressed the PS amplitude by -23.9 +/- 2.3%, while 1 mM caused an enhancement. NE also depressed the PS by -34.5 +/- 6.0% and prevented E139 from subsequently depressing the PS amplitude. UK 14304, a selective alpha(2)-adrenoceptor agonist, also depressed the PS amplitude by -32.6 +/- 9.4% and occluded E139 suppression. NE suppression of PS was blocked by phentolamine and yohimbine which also blocked the effect of E139. Prazosin, a selective alpha(1)-adrenoceptor antagonist, did not block NE (-24.8 +/- 6.9%) or E139 (-29.7 +/- 6.1%) effects. Zero Mg(2+) buffer transformed a single PS to multiple spikes (MS; 3-8 spikes) and also induced spontaneous bursts (SB; 5-20/min). NE suppressed the number of MS from 5.6 +/- 0.3 to 3.8 +/- 0.2. At its peak effect, E139 was able to further suppress the number of MS to 3.0 +/- 0.3. Yohimbine did not change the number of MS but blocked the NE- and E139-induced suppression of MS. SB frequency was suppressed by NE (-60.8 +/- 11.7%) which occluded E139 effects. Finally, SB were reversibly abolished by yohimbine (-94.5 +/- 11.7%). CONCLUSION: E139 suppressed population responses and in vitro epileptiform activity by both adrenergic and non-adrenergic mechanisms.

Current and novel anti-inflammatory drug targets for inhibition of cytokines and leucocyte recruitment in rheumatic diseases.

OBJECTIVES: Many studies of disease state mechanisms reveal that unbridled inflammation is to blame for many of the symptoms associated with autoimmune diseases such as Crohn's and Rheumatoid Arthritis (RA). While therapies aimed at decreasing levels of pro-inflammatory cytokines exist, some have failed clinically or have extensive adverse effects. The aim of this review is to discuss common drug targets for anti-inflammatory therapies as well as explore potential mechanisms of action for new therapies. Various studies done on novel mechanisms targeting pro-inflammatory cytokine release as well as leukocyte chemotaxis have been researched for discussion here. Both of these contribute to tissue injury and patient symptoms in inflammatory and autoimmune disease states. KEY FINDINGS: While many current drug targets suppress inflammation via the receptor, research aimed at identifying new compounds and signaling mechanisms is ongoing to identify new targets within pro-inflammatory signaling pathways, or specific immune cell types. CONCLUSIONS: While glucocorticoids and monoclonal antibodies have shown to be efficacious, some patients have encountered mixed results. Biologic therapies also come with a high price tag Thus, novel compounds with new immune drug targets are ideal for patients whose therapies have not been successful.

Anticonvulsant enaminone E139 suppresses epileptiform activity in rat hippocampal slices.

Some enaminones are reported to have in vivo anticonvulsant activity. We asked if methyl 4-(4'-bromophenyl)aminocyclohex-3-en-6-methyl-2-oxo-1-oate (E139), one of such enaminones produced in vitro effects that may underlie or explain these in vivo anticonvulsant actions by testing if E139 suppressed in vitro seizures. In vitro seizures were generated chemically in hippocampal slices using picrotoxin and zero Mg(2+) buffer and electrically by high frequency stimulation (HFS). E139 (10 microM) depressed evoked field population spike (PS) amplitude by -28.6+/-4.5% (n=5), an effect that was blocked by 1 microM CGP55845 (2.7+/-5.5%, n=6). Picrotoxin (100 microM) transformed single PS into multiple PS (4.5+/-0.2, n=5) and E139 reversibly reduced the number of these multiple PS by -23.4+/-1.8% (n=5). Similarly, zero Mg(2+) buffer produced multiple spikes (3.6+/-0.6, n=5) that were suppressed by E139 (-54.8+/-9.7%, n=5). This effect was also blocked by CGP55845 (2.3+/-5.7%, n=6). Furthermore, E139 suppressed the frequency of spontaneous bursts (SB) that were recorded in zero Mg(2+) by -65.8+/-10.5% (n=12). CGP55845 significantly reduced this E139-induced SB suppression (-21.7+/-9.6%, n=6). In the electrical model, afterdischarges (AD) and SB recorded in area CA3 after a pattern of HFS (100Hz) were suppressed by E139 (-48.6+/-14.3% and -66.7+/-6.7%, respectively, n=6). These E139 effects on AD and SB were reduced, but not completely blocked, by CGP55845 (-32.1+/-5.3% and -44.4+/-9.7%, respectively, n=7). Finally, pretreatment of slices with E139 did not prevent zero Mg(2+)-induced multiple spikes and SB. We conclude that E139 suppresses in vitro seizures in the hippocampus by synaptic and non-synaptic mechanisms. These actions on network activity may underlie their reported in vivo anticonvulsant effects.

Enaminones: Exploring additional therapeutic activities.

Enaminones, enamines of beta-dicarbonyl compounds, have been known for many years. Their early use has been relegated to serving as synthetic intermediates in organic synthesis and of late, in pharmaceutical development. Recently, the therapeutic potential of these entities has been realized. This review provides the background and current research in this area with emphasis of these agents as potential anticonvulsants, their proposed mechanisms of action, and as potential modulators of multidrug resistance (MDR).

Anti-Inflammatory Properties of the Enaminone E121 in the Dextran Sulfate Sodium (DSS) Colitis Model.

BACKGROUND: Enaminones are synthetic compounds with an established role in the prevention of various forms of seizures. Recent evidence suggests potent anti-tussive, bronchodilation and anti-inflammatory properties. Pre-treatment with particularly E121 compound resulted in a decrease in leukocyte recruitment in the ovalbumin induced-model of asthma, immune cell proliferation and cytokine release in vitro. We hypothesize that E121 might serve as a therapeutic potential in intestinal inflammation through modulating immune cell functions. METHODS: Colitis was induced by daily dextran sulfate sodium (DSS) administration for 5 days, and its severity was determined by gross and histological assessments. The plasma level of various cytokines was measured using flow cytometry-based assay. The colonic expression/ phosphorylation level of various molecules was determined by immunofluorescence and western blotting. The effects of E121 treatment on in vitro neutrophil chemotaxis (under-agarose assay), superoxide release (luminol oxidation assay) and apoptosis (annexin V/7AAD) were also determined. RESULTS: DSS-induced colitis in mice was significantly reduced by daily E121 treatment (30-100 mg/kg) at gross and histological levels. This effect was due to modulated plasma levels of interleukin (IL-2) and colonic expression levels of various signaling molecules and proteins involved in apoptosis. In vitro neutrophil survival, chemotaxis, and superoxide release were also reduced by E121 treatment. CONCLUSION: Our results indicate important anti-inflammatory actions of E121 in the pathogenesis of IBD.

Evaluation of the antinociceptive activities of enaminone compounds on the formalin and hot plate tests in mice.

Recently, we found that methyl 4-(4'-bromophenyl)aminocyclohex-3-en-6-methyl-2-oxo-1-oate (E139), an anticonvulsant enaminone, has antinociceptive activity in the hot plate test. In this study we evaluated the antinociceptive activity of five anilino enaminones E139, ethyl 4-(4'-chlorophenyl)amino-6-methyl-2-oxocyclohex-3-en-1-oate (E121), ethyl 4-(4'-bromophenyl)amino-6-methyl-2-oxocyclohex-3-en-1-oate (E122), methyl 4-(4'-chlorophenyl)amino-6-methyl-2-oxocyclohex-3-en-1-oate (E138) and ethyl 4-(4'-fluorophenyl)amino-6-methyl-2-oxocyclohex-3-en-1-oate (BRG 19) using the formalin and hot plate tests. E139 has been reported to exert its effects via enhancement of extracellular GABA levels, thus tiagabine, a GABA transporter inhibitor, was evaluated as a control together with indomethacin. Tiagabine had antinociceptive activity in both phase 1 (neurogenic pain) and phase 2 (inflammatory pain) of the formalin test, whereas indomethacin had activity only in phase 2. E139 and E138 had antinociceptive activity in both phases of the formalin test, whereas E121 had activity only in phase 1 and BRG 19 had activity only in phase 2. E122 had no significant activity in either phase. In the hot plate test only E139 had antinociceptive activity. Administration of either bicuculline, a GABAA receptor antagonist, or CGP 35348, a GABAB receptor antagonist, blocked the antinociceptive activity of E139. In conclusion our results indicate that E139 has antinociceptive activity in the formalin and hot plate tests that are dependent on GABA receptors.

Novel Piperazino-Enaminones Suppress Pro-Inflammatory Cytokines and Inhibit Chemokine Receptor CCR2.

Pro-inflammatory mediators including TNF-alpha, IL-6, and nitric oxide are important for the regulation of the immune response when an infection is present, but when overproduced, it can be responsible for the development of tissue and organ injury seen in sepsis, as well as severe asthma, and autoimmune diseases such as Crohn's disease and rheumatoid arthritis. Data from our lab to characterize the novel compound enaminone E121 have suggested that macrophages stimulated with lipopolysaccharide (LPS) release significantly decreased levels of TNF-alpha and IL-6 as measured by enzyme-linked immunosorbent assay as compared to the DMSO control group. Additionally, functional experiments in a mouse model of asthma have shown that E121 is efficacious in decreasing airway hyperresponsiveness. A new set of compounds synthesized in our lab (JODI) have an N-aryl piperazino motif incorporated on the aromatic side of the enaminone pharmacophore. It was hypothesized that this would enhance their immunosuppressive activity as anti-inflammatory agents by also acting as a chemokine receptor antagonist. Our studies suggest that JODI appears to suppress TNF-alpha and IL-6 in a dose-dependent manner. The JODI compounds were also more effective in reducing TNF-alpha after LPS stimulation when compared to dexamethasone. Lastly, studies using MCP-1 suggest that the JODI compounds, and not E121, are able to block CCR2 signaling as evidenced by decreased total ERK1/2. These studies indicate that E121 and its corresponding piperazino analogs could act as strong anti-inflammatory agents in asthma or other autoimmunities where efficacious therapeutic options are needed.

Anticonvulsant enaminones depress excitatory synaptic transmission in the rat brain by enhancing extracellular GABA levels.

Enaminones are a novel group of compounds that have been shown to possess anticonvulsant activity in in vivo animal models of seizures. The cellular mechanism by which these compounds produce their anticonvulsant effects is not yet known. This study examined the effects of enaminones on excitatory synaptic transmission. We studied the effects of 3-(4'-chlorophenyl)aminocyclohex-2-enone (E118), methyl 4-(4'-bromophenyl)aminocyclohex-3-en-6-methyl-2-oxo-1-oate (E139) and ethyl 4-(4'-hydroxyphenyl)aminocyclohex-3-en-6-methyl-2-oxo-1-oate (E169) on isolated evoked, glutamate-mediated excitatory synaptic responses by recording whole-cell currents and potentials in cells of the nucleus accumbens (NAc) contained in forebrain slices. The anticonvulsant enaminones (E118 and E139), but not E169, depressed NMDA and non-NMDA receptor-mediated synaptic responses. The inhibition of the non-NMDA response was concentration-dependent (1.0-100 microM) with a maximal depression of approximately -30%. E118 and E139 had similar potencies (EC(50)=3.0 and 3.5 microM, respectively) in depressing this response but E139 was more efficacious (E(max)=-31.3+/-3.8%) than E118 (E(max)=-22.6+/-1.6%). The excitatory postsynaptic current (EPSC) depression caused by 10 microM E139 (-27.7+/-3.8%) was blocked by 1 microM CGP55845 (6.3+/-8.1%), a potent GABA(B) receptor antagonist. Pretreatment of slices with gamma-vinylGABA and 1-(2-(((diphenylmethylene)imino)oxy)ethyl)-1,2,5,6-tetrahydro-3-pyridine-carboxylic acid (NO-711), an irreversible GABA transaminase (GABA-T) inhibitor and a GABA reuptake blocker, respectively, like the anticonvulsant enaminones, also caused a depression of the evoked EPSC (-38.1+/-14.1 and -24.1+/-8.9%, respectively). In the presence of these compounds, E139 did not cause a further depression of the EPSC. Our data suggest that anticonvulsant enaminones cause EPSC depression by enhancing extracellular GABA levels possibly through the inhibition of either GABA reuptake or GABA-T enzyme, or both.

Synthesis and anticonvulsant activity of enaminones. 4. Investigations on isoxazole derivatives.

Due to the exceptional anticonvulsant activity displayed by substituted aniline enaminones, related pyridine derivatives and phenothiazines synthesised in our laboratories, the further investigation of various aromatic heterocycles was undertaken. Condensation of cyclic 1,3-diketo esters with 3-, and 5-aminoisoxazole derivatives led to a series of potent anti-maximal electroshock (MES) analogues, three of which occurred in the 3-amino series: ethyl ester (10), orally (po) active in rats [ED(50) 68.9 mg kg(-1), TD(50) > 500 mg kg(-1), protective index (PI = TD(50)/ED(50)) > 49.6]; methyl ester (9), ED(50) 68.9 mg kg(-1) intraperitoneally (ip) in mice, TD(50) > 500 mg kg(-1), PI > 7.3, and tert-butyl ester (8), ED(50) 28.1 mg kg(-1) po in rats, TD(50) > 500 mg kg(-1), PI > 17.8. Sodium channel binding studies, as well as evaluations against pentylenetetrazol, bicuculline, and picrotoxin on isoxazole 10 were all negative, leading to an unknown mechanism of action. X-ray diffraction patterns of a representative of the 3-amino series (isoxazoles 6-11) unequivocally display the existence of intramolecular hydrogen bonding of the nitrogen to the vinylic proton in the cyclohexene ring, providing a pseudo three ring structure which was also shown previously with the vinylic benzamides. Physicochemical-permeability across the BBB suggested an efflux mechanism for the previously synthesised aniline enaminones, but not with isoxazole 10.

LC/MS determination of the enaminones E139, DM5 and DM27 in rat serum.

Enaminones, E139, DM5 and DM27, have been recently recognized as potential anticonvulsant compounds. The molecular masses of these enarminones were proven using ion trap Finnigan mass spectrometer. For conduction of biological studies in animals, a sensitive and selective high-performance liquid chromatography-mass spectrometry (LC/MS) was developed for the determination of the selected enaminones in rat serum. A simple protein precipitation procedure was followed for cleaning up the serum samples before analysis. LC/MS determinations were performed using an APCI probe at 430 degrees C. Positive ions (M+1)(+) were acquired in MS/MS-SRM mode at m/z 308.1 (parent m/z 340.2) for E139 and m/z 262.1 (parent m/z 294.1) for DM5. On the other hand, DM27 and E118 (internal standard) were measured in SIM mode at m/z 236.5 and 222.5, respectively. Quantitation was based on measurement of the peak area ratio of enaminones (E139, DM5, DM27) and E118 as an internal standard. Calibration curves were linear (r>0.9989) over the concentration range 100-1000 ngml(-1) and were free from serum interference. Precision and accuracy studies of control samples showed intra-day and inter-day %RSD <10.1 and % deviation from nominal concentrations (%DEV) from -4.3 to +10.1. Recoveries of E139, DM5 and DM27 from quality control rat serum samples using protein precipitation method were 92.3, 89.4 and 89.6%, respectively. The reported data suggest the utility of this developed method for structural elucidation and for performing pharmacokinetics studies on the selected enaminones in rats.

Stability study of the anticonvulsant enaminone (E118) using HPLC and LC-MS.

The stability of the new chemical synthetic enaminone derivative (E118) was investigated using a stability-indicating high-performance liquid chromatography (HPLC) procedure. The examined samples were analyzed using a chiral HSA column and a mobile phase (pH 7.5) containing n-octanoic acid (5 mM), isopropyl alcohol and 100 mM disodium hydrogen phosphate solution (1:9 v/v) at a flow rate of 1 ml min(-1). The developed method was specific, accurate and reproducible. The HPLC chromatograms exhibited well-resolved peaks of E118 and the degradation products at retention times <5 min. The stability of E118 was performed in 0.1 M hydrochloric acid, 0.1 M sodium hydroxide, water/ethanol (1:1) and phosphate buffer (pH approximately 7.5) solutions. E118 was found to undergo fast hydrolysis in 0.1 M hydrochloric acid solution. The decomposition of E118 followed first order kinetics under the experimental conditions. The results confirmed that protonation of the enaminone system in the molecule enhanced the hydrolysis of E118 at degradation rate constant of 0.049 min(-1) and degradation half-life of 14.1 min at 25 degrees C. However, E118 was significantly stable in 0.1 M sodium hydroxide, physiological phosphate buffer (pH 7.5) and ethanol/water (1:1) solutions. The degradation rate constants and degradation half-lives were in the ranges 0.0023-0.0086 h(-1) and 80.6-150.6 h, respectively. Analysis of the acid-induced degraded solution of E118 by liquid chromatography-mass spectrometry (LC-MS) revealed at least two degradation products of E118 at m/z 213.1 and 113.1, respectively.