Imidazoline Receptors Research Articles

Indirect involvement of α2-adrenoceptors in the mechanical antihypersensitivity effect induced by the spinally administered imidazoline I1 receptor ligand LNP599 in a rat model of experimental neuropathy

Here we assess whether neuropathic pain hypersensitivity is attenuated by spinal administration of the imidazoline I1-receptor agonist LNP599 and whether the attenuation involves co-activation of α2-adrenoceptors. Spared nerve injury (SNI) model of neuropathy was used to induce mechanical hypersensitivity in male and female rats with a chronic catheter for intrathecal drug administrations. Mechanical sensitivity and heat nociception were assessed behaviorally in the injured limb. Additionally, GTPγS radioligand binding assay, β-arrestin recruitment and intracellular cAMP levels were used for receptor profiling in vitro. LNP599 (imidazoline I1 receptor agonist) and clonidine (α2-adrenoceptor agonist) produced equal dose-related mechanical antihypersensitivity effects in both sexes. LNP599 attenuated heat nociception preferentially in males, while clonidine reduced heat nociception equally in males and females. Carbophenyline (another imidazoline I1 receptor agonist) had no significant effect on mechanical hypersensitivity or heat nociception in males or females. Mechanical antihypersensitivity and heat antinociception induced by LNP599 in SNI males was prevented by pretreatments with yohimbine or atipamezole (two α2-adrenoceptor antagonists) but not by efaroxan (a mixed imidazoline I1 receptor/α2-adrenoceptor antagonist). In vitro assays indicated that LNP599 does not activate α2A- or other subtypes of α2-adrenoceptors. However, LNP599 was a weak partial agonist for 5-HT2B receptors and bound to sigma-1 and sigma-2 receptors that all are involved in modulation of spinal nociception. The results indicate that the suppression of neuropathic pain hypersensitivity by LNP599 is not due to action on spinal imidazoline I1 receptors, but rather due to indirect activation of spinal α2-adrenoceptors.

Theory and practice of selective imidazoline receptor agonist use in Russia

Theory and practice of selective imidazoline receptor agonist use in Russia

Not first-line antihypertensive agents, but still effective-The efficacy and safety of imidazoline receptor agonists: A network meta-analysis.

Cardiovascular disorders are the leading cause of death in the world. Many organ diseases (kidney, heart, and brain) are substantially more prone to develop in people with hypertension. In the treatment of hypertension, first-line medications are recommended, while imidazoline receptor agonists are not first-line antihypertensives. Our goal was to conduct a network meta-analysis to assess the efficacy and safety of imidazoline receptor agonists. The meta-analysis was performed following the PRISMA guidelines using the PICOS format, considering the CONSORT recommendations. Studies were collected from four databases: PubMed, Cochrane Library, Web of Science, and Embase. A total of 5960 articles were found. After filtering, 27 studies remained eligible for network meta-analysis. Moxonidine reduced blood pressure in sitting position statistically significantly after 8 weeks of treatment (SBP MD: 23.80; 95% CI: 17.45-30.15; DBP MD: 10.90; 95% CI: 8.45-13.35) compared to placebo. Moreover, moxonidine reduced blood pressure more effectively than enalapril; however, this difference was not significant (SBP MD: 3.10; 95% CI: -2.60-8.80; DBP MD: 1.30; 95% CI: -1.25-3.85). Dry mouth was experienced as a side effect in the case of all imidazoline receptor agonists. After 8 weeks of treatment, the appearance of dry mouth was highest with clonidine (OR: 9.27 95% CI: 4.70-18.29) and lowest with rilmenidine (OR: 6.46 95% CI: 0.85-49.13) compared to placebo. Somnolence was less frequent with moxonidine compared to rilmenidine (OR: 0.63 95% CI: 0.17-2.31). Imidazoline receptor agonists were nearly as effective as the first-line drugs in the examined studies. However, their utility as antihypertensives is limited due to their side effects. As a result, they are not first-line antihypertensives and should not be used in monotherapy. However, in the case of resistant hypertension, they are a viable option. According to our findings, from the point of view of safety and efficacy, moxonidine appears to be the best choice among imidazoline receptor agonists.

Targeting the sympathetic nervous system with the selective imidazoline receptor agonist moxonidine for the management of hypertension: an international position statement.

Hypertension is often linked with metabolic risk factors that share common pathophysiological pathways. Despite wide-spread availability of multiple drug classes, optimal blood pressure (BP) control remains challenging. Increased central sympathetic outflow is frequently neglected as a critical regulator of both circulatory and metabolic pathways and often remains unopposed therapeutically. Selective imidazoline receptor agonists (SIRAs) effectively reduce BP with a favorable side effect profile compared with older centrally acting antihypertensive drugs. Hard outcome data in hypertension, such as prevention of stroke, heart and kidney diseases, are not available with SIRAs. However, in direct comparisons, SIRAs were as effective as angiotensin-converting enzyme inhibitors, β-blockers, calcium channel blockers, and diuretics in lowering BP. Other beneficial effects on metabolic parameters in hypertensive patients with concomitant overweight and obesity have been documented with SIRAs. Here we review the existing evidence on the safety and efficacy of moxonidine, a widely available SIRA, compared with common antihypertensive agents and provide a consensus position statement based on inputs from 12 experts from Europe and Australia on SIRAs in hypertension management.

Modelling of chromatographic and electrophoretic behaviour of imidazoline and alpha adrenergic receptors ligands under different acid-base conditions

Background and Purpose: The ligands of the imidazoline and α-adrenergic receptors are mainly imidazoline and guanidine derivatives, known as centrally-acting antihypertensives and compounds with potential use in various neurological disorders. The extent of their ionisation has a major influence on their behaviour in the different analytical systems. The main objective of this work was to compare the mechanism of chromatographic retention and electrophoretic mobility under acidic, neutral and basic conditions. Experimental Approach: Multiple Linear Regression and Partial Least Squares Regression were applied for the QSRR (quantitative structure-retention relationship) and QSMR (quantitative structure-mobility relationship) modelling and to select the most important molecular parameters describing the chromatographic and electrophoretic behaviour of the investigated compounds. Key Results: The most important molecular descriptors, such as the chemical composition of the compounds, lipophilicity, polarizability and molecular branching, in the selected QSRR models showed that an important insight into the retention behaviour can be derived from the 0D-, 1D- and 2D-descriptors. The electrophoretic mobility could be explained by 2D- and 3D-descriptors, which provide information on the molecular mass, size and complexity, as well as on the influence of charge transfer and electronic properties on the migration behaviour. Conclusion: All created QSRR/QSMR models met the stringent validation criteria and showed high potential in describing the chromatographic and electrophoretic behaviour of investigated compounds.

Agmatine alleviates ethanol withdrawal-associated cognitive impairment and neurochemical imbalance in rats

The present study aimed to investigate the role of agmatine in the neurobiology underlying memory impairment during ethanol withdrawal in rats. Sprague-Dawley rats were subjected to a 21-day chronic ethanol exposure regimen (2.4 % w/v ethanol for 3 days, 4.8 % w/v for the next 4 days, and 7.2 % w/v for the following 14 days), followed by a withdrawal period. Memory impairment was assessed using the passive avoidance test (PAT) at 24, 48, and 72 h post-withdrawal. The ethanol-withdrawn rats displayed a significant decrease in step-through latency in the PAT, indicative of memory impairment at 72 h post-withdrawal. However, administration of agmatine (40 µg/rat) and its modulators (L-arginine, arcaine, and amino-guanidine) significantly increases the latency time in the ethanol-withdrawn rats, demonstrating the attenuation of memory impairment. Further, pretreatment with imidazoline receptor agonists enhances agmatine's effects, while antagonists block them, implicating imidazoline receptors in agmatine's actions. Neurochemical analysis in ethanol-withdrawn rats reveals dysregulated glutamate and GABA levels, which was attenuated by agmatine and its modulators. By examining the effects of agmatine administration and modulators of endogenous agmatine, the study aimed to shed light on the potential therapeutic implications of agmatinergic signaling in alcohol addiction and related cognitive deficits. Thus, the present findings suggest that agmatine administration and modulation of endogenous agmatine levels hold potential as therapeutic strategies for managing alcohol addiction and associated cognitive deficits. Understanding the neurobiology underlying these effects paves the way for the development of novel interventions targeting agmatinergic signaling in addiction treatment.

Molecular Modeling, Synthesis, and Antihyperglycemic Activity of the New Benzimidazole Derivatives - Imidazoline Receptor Agonists.

The paper presents the results of a study on the first synthesized benzimidazole derivatives obtained from labile nature carboxylic acids. The synthesis conditions of these substances were studied, their structure was proved, and some components were found to have sugar-reducing activity on the model of alloxan diabetes in rats. The study used molecular modeling methods such as docking based on the evolutionary model (igemdock), RP_HPLC method to monitor the synthesis reaction, and 1H NMR and 13C NMR, and other methods of organic chemistry to confirm the structures of synthesized substances. The docking showed that the ursodeoxycholic acid benzimidazole derivatives have high tropics to all imidazoline receptor carriers (PDB ID: 2XCG, 2bk3, 3p0c, 1QH4). The ursodeoxycholic acid benzimidazole derivative and arginine and histidine benzimidazole derivatives showed the highest sugar-lowering activity in the experiment on alloxan-diabetic rats. For these derivatives, the difference in glucose levels of treated rats was significant against untreated control. Therefore, the new derivatives of benzimidazole and labile natural organic acids can be used to create new classes of imidazoline receptor inhibitors for the treatment of diabetes mellitus and hypertension.

Novel Scaffold Agonists of the α2A Adrenergic Receptor Identified via Ensemble-Based Strategy.

The α2A adrenergic receptor (α2A-AR) serves as a critical molecular target for sedatives and analgesics. However, α2A-AR ligands with an imidazole ring also interact with an imidazoline receptor as well as other proteins and lead to undesirable effects, motivating us to develop more novel scaffold α2A-AR ligands. For this purpose, we employed an ensemble-based ligand discovery strategy, integrating long-term molecular dynamics (MD) simulations and virtual screening, to identify new potential α2A-AR agonists with novel scaffold. Our results showed that compounds SY-15 and SY-17 exhibited significant biological effects in the preliminary evaluation of protein kinase A (PKA) redistribution assays. They also reduced levels of intracellular cyclic adenosine monophosphate (cAMP) in a dose-dependent manner. Upon treatment of the cells with 100 μM concentrations of SY-15 and SY-17, there was a respective decrease in the intracellular cAMP levels by 63.43% and 53.83%. Subsequent computational analysis was conducted to elucidate the binding interactions of SY-15 and SY-17 with the α2A-AR. The binding free energies of SY-15 and SY-17 calculated by MD simulations were -45.93 and -71.97 kcal/mol. MD simulations also revealed that both compounds act as bitopic agonists, occupying the orthosteric site and a novel exosite of the receptor simultaneously. Our findings of integrative computational and experimental approaches could offer the potential to enhance ligand affinity and selectivity through dual-site occupancy and provide a novel direction for the rational design of sedatives and analgesics.

Regulation of I1-imidazoline receptors on the sedation effect of dexmedetomidine in mice.

Dexmedetomidine has been used as a sedative drug in the clinic for a long time. Many studies demonstrated that the sedative mechanism of dexmedetomidine might be related to the activation of α2-adrenoceptor (α2AR). In addition, it was reported that dexmedetomidine had some affinity for the I1-imidazoline receptor (I1R); however, the role of I1R in dexmedetomidine-induced sedative effects and its possible mechanism are poorly studied. In the present study, we found that agmatine, an I1R agonist, was able to enhance the sedative effect of dexmedetomidine in mice. Efaroxan, an α2AR and I1R antagonist, could prevent and rescue the sedative action of dexmedetomidine in mice, and its preventive effect was better than atipamezole, the specific α2AR antagonist. Knockout of imidazoline receptor antisera-selected (IRAS), the functional I1R candidate protein, suppressed the dexmedetomidine-induced sedation. Moreover, IRAS knockout led to the inhibition of agmatine and efaroxan in regulating dexmedetomidine-induced sedative effects in mice, but not of atipamezole. We then used CHO cell lines that stably expressed α2AR and IRAS to investigate the possible molecular mechanism of IRAS in regulating the dexmedetomidine-induced sedative effect. The results showed that IRAS expression significantly up-regulated dexmedetomidine-induced ERK phosphorylation, which was enhanced by agmatine and inhibited by efaroxan at low concentrations. Therefore, by taking advantage of pharmacological and genetic approaches, our finding revealed the evidence that IRAS plays an important role in the sedative effects of dexmedetomidine, and the ERK signal pathway may be involved in the mechanism of IRAS in regulating dexmedetomidine-induced sedation. This study may offer valuable insights for the advancement of novel anesthetic adjuvants.

MARRIAGE: A Randomized Trial of Moxonidine Versus Ramipril or in Combination With Ramipril in Overweight Patients With Hypertension and Impaired Fasting Glucose or Diabetes Mellitus. Impact on Blood Pressure, Heart Rate and Metabolic Parameters.

Moxonidine, an imidazoline I1 receptor agonist, is an effective antihypertensive drug that was shown to improve insulin sensitivity. RAAS-blockers are recommended as first-line therapy in patients with diabetes, alone or in combination with a calcium-channel antagonist or a diuretic. This study compared the effects of moxonidine and ramipril on blood pressure (BP) and glucose metabolism in overweight patients with mild-to-moderate hypertension and impaired fasting glucose or type 2 diabetes. Treatment-naïve patients for hypertension and dysglycemia were randomized to 12 weeks of double-blind moxonidine 0.4 mg or ramipril 5 mg once-daily treatment. At 12 weeks, for a further 12 weeks non-responders received combination of mox/ram, while responders continued blinded treatment. Moxonidine and ramipril were equivalent in lowering SiDBP and SiSBP at the end of the first 12 weeks. The responder rate was approximately 50% in both groups, with a mean SiDBP and SiSBP decrease of 10 and 15 mm Hg in the responders, respectively. The normalization rate (SiDBP < 85 mm Hg) was non significantly different between treatments groups. Moxonidine reduced heart rate (HR) (average -3.5 bpm, p = 0.017) during monotherapy, and when added to ramipril. HbA1c decreased significantly at Week 12 in both groups. Neither drug affected glucose or insulin response to the oral glucose tolerance test. In non-responders, moxonidine/ramipril combination further reduced BP without compromising metabolic parameters. Moxonidine 0.4 mg and ramipril 5 mg were equally effective on BP lowering and were well tolerated and mostly metabolically neutral either as monotherapies or in combination. HR was lowered on moxonidine treatment.

Place of imidazoline receptor agonists in the treatment of arterial hypertension

The review is devoted to one of the most controversial issues of modern antihypertensive therapy — the role of new generation sympatholytics — selective I1-imidazoline receptor agonists (AIRs). In modern European recommendations, AIR (moxonidine rilmenidine), along with other centrally acting drugs (reserpine, alpha-methyldopa, clonidine), are mainly intended for additional therapy in rare cases of resistant hypertension, when other treatment options have been ineffective. Nevertheless, AIR invariably finds its place in Russian recommendations for the treatment of arterial hypertension (AH). This class of drugs is recommended for patients with AH in combination with metabolic syndrome and obesity. It is noted that an important property of AIR is its positive effect on carbohydrate and lipid metabolism. This information is based on an analysis of Russian and foreign studies, which convincingly indicate that this class of drugs not only provides adequate and long-term blood pressure control, but also has the above-mentioned positive metabolic effects. At the same time, AIRs are much less likely to cause side effects characteristic of older generation centrally acting drugs. Thus, AIRs have become firmly established in clinical practice in Russia for the treatment of patients with AH in certain clinical situations.

Modern ideas about the consequences of sympathoadrenal hyperactivation in hypertensive patients with metabolic disorders: modulation possibilities

The prevalence of hypertension (HTN) in the Russian Federation and the world continues to grow. This is largely due to the epidemic of obesity and related conditions — metabolic syndrome and type 2 diabetes. The most common and proven hypothesis of the relationship between hypertension and obesity is the activation of the sympathetic nervous system. However, modern research shows that the consequences of sympathetic hyperactivation are not limited only to hemodynamic effects, but extend to many organs and systems. Long-term sympathetic hyperactivation can lead to insulin resistance and type 2 diabetes. Neurotransmitters affect fat cells by increasing lipolysis and leading to increased fatty acid release, the liver by increasing gluconeogenesis, and pancreatic β-cells by decreasing insulin secretion. The sympathetic nervous system plays an important role in energy management by regulating metabolic rate. Obese individuals have significantly less pronounced postprandial thermogenesis, despite a higher insulin response, while the hemodynamic response to isometric or heterometric exercise is reduced. Chronic stress serves not only as a trigger for behavioral disorders, but also directly leads to various physiological disorders, including through sympathetic activation. However, the choice of antihypertensive agents affecting the sympathetic activity in patients with obesity and metabolic disorders is very limited. According to current guidelines, β-blockers are not the drugs of choice in patients with uncomplicated HTN, since it has a weaker evidence base compared to other classes of drugs and have metabolic and other side effects. Therefore, selective I1-imidazoline receptor agonists, and in particular, moxonidine may be the drugs of choice in this category of patients. Moxonidine in combination therapy of patients with HTN and metabolic disorders, including metabolic disorders in menopause, as well as with a physiological estrogen decrease, significantly improves the effectiveness of antihypertensive therapy and increases the achievement of target blood pressure. In addition, its metabolic effects improve prognosis of such patients.

Hypertension in periand postmenopausal women: mechanisms, management, observation

An important role in the development and evolution of hypertension in females is applied to sex hormones. Estrogen deficiency and hyperandrogenism, characteristic of periand postmenopause, are links in the pathogenesis of hypertension in this period of a woman's life and are accompanied by an increase in sympathetic nervous system activity, renin-angiotensin-aldosterone system activation, salt sensitivity, abdominal obesity and metabolic syndrome, left ventricle hypertrophy, left atrial dilatation with a high risk of atrial fibrillation, stroke and heart failure development. The paper discusses antihypertensive therapy during periand postmenopause, effectiveness and tolerability of different drug classes. Special attention is paid to the mechanism of action of selective I1-imidazoline receptor agonist moxonidine, which in women during this period both effectively reduces high blood pressure and has a beneficial metabolic effect, what is documents in studies of monotherapy, combined antihypertensive therapy with major classes and in combination with menopausal hormone therapy. The paper presents the joint expert opinion concerning above mentioned issues.

Novel synthesis of 11C-labeled imidazolines via Pd(0)-mediated 11C-carbomethoxylation using [11C]CO and arylborons.

A labeling technique was developed for the imidazoline I2 receptor ligand 2-(3-fluoro-tolyl)-4, 5-dihydro-1H-imidazole (FTIMD) using Pd(0)-mediated 11C-carbomethoxylation with [11C]CO, followed by imidazoline ring formation with ethylenediamine-trimethylaluminium (EDA-AlMe3). To achieve this, [11C]CO was passed through a methanol (MeOH) solution containing 3-fluoro-4-methylphenylboronic acid (1), palladium (II) acetate (Pd [OAc]2), triphenylphosphine (PPh3), and p-benzoquinone (PBQ). The mixture was then heated at 65°C for 5min. EDA was introduced into the reaction mixture, and MeOH was completely evaporated at temperatures exceeding 100°C. The dried reaction mixture was combined with an EDA-AlMe (1:1) toluene solution and heated at 145°C for 10min. Portions of the reaction mixture were analyzed through high-performance liquid chromatography, resulting in [11C]FTIMD with 26% (n= 2) decay-corrected radiochemical yield (RCY). This method could be utilized for various arylborons to produce [2-11C]imidazolines 4a-h with RCYs ranging from low to moderate. Notably, [2-11C]benazoline was obtained with a moderate RCY of 65%. The proposed technique serves as an alternative to the Grignard method, which uses [11C]CO to generate a [2-11C]-labeled imidazoline ring.

Characteristics of patients with non-specific aortoarteritis and arterial hypertension based on retrospective analysis

The aim was to study the medical history, laboratory and instrumental data, the trends of arterial hypertension (AH), risk factors for cardiovascular events, target organ damage (TOD), and the development of cardiovascular complications in patients with NSAA (Non-Specific Aortoarteritis).Materials and Methods. The study included 33 women with confirmed NSAA who had been treated at the 5th Cardiology Department of the E.I. Chazov National Medical Research Center of Cardiology since 2005. Complete blood count, biochemical blood analysis, urine analysis, the following instrumental examinations, such as, ECG, echocardiography, ultrasound of the brachial, femoral, aortic, and renal arteries, MRA or CT angiography with contrast, blood pressure measurement in the arms and legs were performed for all patients. Telephone interviews were conducted to assess some patient's condition over time.Results. The most common symptom (84% of patients) was AH, the average age of AH onset was 30 [19; 40] years and the AH average duration is 7,5 [2; 13] years. Nearly half of the patients (45%) had AH as the leading symptom that led them to perform the examination that helped to the diagnosis of NSAA. The average systolic and diastolic blood pressure values were 123±35 mmHg and 66±17 mmHg in the upper extremities, and 166±31 mmHg and 78±18 mmHg in the lower extremities, respectively. About half of patients (51%) had stage 3 AH, and almost all of them had type 3 according to E. Lupi-Herrera classification. The most common risk factors for cardiovascular events were dyslipidemia (82%), a family history of early cardiovascular events (51%), resting heart rate above 80 bpm (25%), and carbohydrate metabolism disorders (21%). When assessing cardiovascular risk, moderate risk of developing cardiovascular events was observed in 3 patients (10,7%), high risk in 16 patients (57,1%), and very high risk in 9 patients (32,1%). The most common TODs were nervous system damage (53%), including cerebrovascular ischemic events (14%) and left ventricular hypertrophy (42%). This group of patients was characterized by resistant hypertension, and combination with other risk factors for cardiovascular events, it leds to severe TOD and influenced survival rate. In terms of antihypertensive therapy, 61% of patients received combination therapy, with CCB, beta-blockers, and imidazoline receptor agonist being the most prescribed. Two fatal cases were identified in the long-term follow-up, and cardiovascular events, most frequently stroke, were the main complications observed. Additionally, AH progression and its uncontrolled course despite going through multiple drug therapy were characteristic.Conclusion: AH is often difficult to diagnostic in patients with NSAA, and it significantly contributes to the structure of complications and mortality in this patient cohort, progressively worsening over time. It is important to measure blood pressure in both arms and legs to detect elevated values early. The main goals of treatment are achieving NSAA remission and blood pressure control and preventing cardiovascular events.

Exploring the reactivity of bicyclic α-iminophosphonates to access new imidazoline I2 receptor ligands

Recent studies pointed out the modulation of imidazoline I2 receptors (I2-IR) by selective ligands as a putative strategy to face neurodegenerative diseases. Foregoing the classical 2-imidazoline/imidazole-containing I2-IR ligands, we report a family of bicyclic α-iminophosphonates endowed with high affinity and selectivity upon I2-IR and we advanced a representative compound B06 in preclinical phases. In this paper, we describe the synthetic possibilities of bicyclic α-iminophosphonates by exploring its ambivalent reactivity, leading to unprecedented molecules that showed promising activities as I2-IR ligands in human brain tissues and good BBB permeation capabilities. After in silico ADME prediction studies, we assessed the neuroprotective properties of selected compounds and beneficial effect in an in vitro model of Alzheimeŕs and Parkinson’s disease. Along with their neuroprotective effect, compounds showed a potent anti-inflammatory response when evaluated in a neuroinflammation cellular model. Moreover, this is the first time that the neuroprotective effects of imidazoline I2-IR ligands in a transgenic Alzheimer’s disease Caenorhabditis elegans strain are investigated. Using a thrashing assay, we found a significant cognition improvement in this in vivo model after treatment with the new bicyclic α-phosphoprolines. Therefore, our results confirmed the need of exploring structurally new I2-IR ligands and their potential for therapeutic strategies in neurodegeneration.

Preclinical Evaluation of an Imidazole-Linked Heterocycle for Alzheimer's Disease.

Humanity is facing a vast prevalence of neurodegenerative diseases, with Alzheimer's disease (AD) being the most dominant, without efficacious drugs, and with only a few therapeutic targets identified. In this scenario, we aim to find molecular entities that modulate imidazoline I2 receptors (I2-IRs) that have been pointed out as relevant targets in AD. In this work, we explored structural modifications of well-established I2-IR ligands, giving access to derivatives with an imidazole-linked heterocycle as a common key feature. We report the synthesis, the affinity in human I2-IRs, the brain penetration capabilities, the in silico ADMET studies, and the three-dimensional quantitative structure-activity relationship (3D-QSAR) studies of this new bunch of I2-IR ligands. Selected compounds showed neuroprotective properties and beneficial effects in an in vitro model of Parkinson's disease, rescued the human dopaminergic cell line SH-SY5Y from death after treatment with 6-hydroxydopamine, and showed crucial anti-inflammatory effects in a cellular model of neuroinflammation. After a preliminary pharmacokinetic study, we explored the action of our representative 2-(benzo[b]thiophen-2-yl)-1H-imidazole LSL33 in a mouse model of AD (5xFAD). Oral administration of LSL33 at 2 mg/Kg for 4 weeks ameliorated 5XFAD cognitive impairment and synaptic plasticity, as well as reduced neuroinflammation markers. In summary, this new I2-IR ligand that promoted beneficial effects in a well-established AD mouse model should be considered a promising therapeutic strategy for neurodegeneration.

The effect of the imidazoline receptor agonist rilmenidine on visceral and thermal nociceptive pain in mice

The effect of the imidazoline receptor agonist rilmenidine on visceral and thermal nociceptive pain in mice

Drug-Facilitated Sexual Assault With Tetrahydrozoline (Visine): A Case Report.

This is a case presentation of an 18-year-old male victim who experienced a drug-facilitated sexual assault (DFSA). The drug used to incapacitate him was tetrahydrozoline (Visine) given rectally. Tetrahydrozoline, intended for ophthalmic administration, is in the class of drugs known as imidazoline receptor agonists and has been used as an agent for DFSA since the 1940s. DFSA is increasing, particularly among young men. Care of victims of DFSA is discussed with particular attention to mental health sequelae in this patient population.

Hypertension in peri- and postmenopausal women — pathophysiological mechanisms and approaches to treatment

This review presents epidemiological data on the effect of sex hormones and reproductive status on the level of blood pressure (BP) and the incidence of es­sential hypertension (EHT) in women. The role of estrogen deprivation and hyper­androgenism in the development of EHT in peri- and postmenopause is discussed. The main mechanisms of EHT in periand postmenopausal women: sympathetic and renin-angiotensin-aldosterone system hyperactivity, salt-sensitivity, high prevalence of abdominal obesity, metabolic syndrome, left ventricular hypertrophy, left atrial dilatation and high risk of atrial fibrillation, stroke and heart failure with preserved left ventricle ejection fraction. Data on the efficacy and tolerability of the main classes of antihypertensive drugs in women is presented. We discussed the mechanisms of selective I1-imidazoline receptor agonists and the results of cohort studies of moxonidine monotherapy and its combination with other antihypertensive drugs and hormonal menopausal therapy in peri- and post­menopausal women. Moxonidine reduces high blood pressure in peri- and postmenopausal women and has a beneficial effect on metabolic syndrome components, but is also effective in patients with hypertensive crises, especially with sympathetic hyperactivity.