Inhibition of forebrain μ-opioid receptor signaling by low concentrations of rimonabant does not require cannabinoid receptors and directly involves μ-opioid receptors

Increasing number of publications shows that cannabinoid receptor 1 (CB(1)) specific compounds might act in a CB(1) independent manner, including rimonabant, a potent CB(1) receptor antagonist. Opioids, cannabinoids and their receptors are well known for their overlapping pharmacological properties. We have previously reported a prominent decrease in μ-opioid receptor (MOR) activity when animals were acutely treated with the putative endocannabinoid noladin ether (NE). In this study, we clarified whether the decreased MOR activation caused by NE could be reversed by rimonabant in CB(1) receptor deficient mice. In functional [(35)S]GTPγS binding assays, we have elucidated that 0.1mg/kg of intraperitoneal (i.p.) rimonabant treatment prior to that of NE treatment caused further attenuation on the maximal stimulation of Tyr-d-Ala-Gly-(NMe)Phe-Gly-ol (DAMGO), which is a highly specific MOR agonist. Similar inhibitory effects were observed when rimonabant was injected i.p. alone and when it was directly applied to forebrain membranes. These findings are cannabinoid receptor independent as rimonabant caused inhibition in both CB(1) single knockout and CB(1)/CB(2) double knockout mice. In radioligand competition binding assays we highlighted that rimonabant fails to displace effectively [(3)H]DAMGO from MOR in low concentrations and is highly unspecific on the receptor at high concentrations in CB(1) knockout forebrain and in their wild-type controls. Surprisingly, docking computational studies showed a favorable binding position of rimonabant to the inactive conformational state of MOR, indicating that rimonabant might behave as an antagonist at MOR. These findings were confirmed by radioligand competition binding assays in Chinese hamster ovary cells stably transfected with MOR, where a higher affinity binding site was measured in the displacement of the tritiated opioid receptor antagonist naloxone. However, based on our in vivo data we suggest that other, yet unidentified mechanisms are additionally involved in the observed effects.     

Food Intake‐independent Effects of CB1 Antagonism on Glucose and Lipid Metabolism

Overactivity of the endocannabinoid system (ECS) has been linked to abdominal obesity and other risk factors for cardiovascular disease and type 2 diabetes. Conversely, administration of cannabinoid receptor type 1 (CB1) antagonists reduces adiposity in obese animals and humans. This effect is only in part secondary to the anorectic action of CB1 agonists. In order to assess the actions of CB1 antagonism on glucose homeostasis, diet‐induced obese (DIO) rats received the CB1 antagonist rimonabant (10 mg/kg, intraperitoneally (IP)) or its vehicle for 4 weeks, or were pair‐fed to the rimonabant‐treated group for the same length of time. Rimonabant treatment transiently reduced food intake, while inducing body weight loss throughout the study. Rats receiving rimonabant had significantly less body fat and circulating leptin compared to both vehicle and pair‐fed groups. Rimonabant, but not pair‐feeding, also significantly decreased circulating nonesterified fatty acid (NEFA) and triacylglycerol (TG) levels, and reduced TG content in oxidative skeletal muscle. Although no effects were observed during a glucose tolerance test (GTT), rimonabant restored insulin sensitivity to that of chow‐fed, lean controls during an insulin tolerance test (ITT). Conversely, a single dose of rimonabant to DIO rats had no acute effect on insulin sensitivity. These findings suggest that in diet‐induced obesity, chronic CB1 antagonism causes weight loss and improves insulin sensitivity by diverting lipids from storage toward utilization. These effects are independent of the anorectic action of the drug.     

The Effects of Rimonabant on Brown Adipose Tissue in Rat: Implications for Energy Expenditure

The cannabinoid CB1 receptor antagonist rimonabant (SR 141716) produces a sustained decrease in body weight on a background of a transient reduction in food intake. An increase in energy expenditure has been implicated, possibly mediated via peripheral endocannabinoid system; however, the role of the central endocannabinoid system is unclear. The present study investigates this role. Rimonabant (10 mg/kg IP) was administered for 21 days to rats surgically implanted with biotelemetry devices to measure temperature in the interscapular brown adipose tissue (BAT). BAT temperature as a putative measure of thermogenesis in the BAT, physical activity, body weight, food intake, as well as changes in UCP1 messenger RNA (mRNA) and protein were measured. In addition, role of the CNS in mediating these actions of rimonabant was determined in rats where the BAT was sympathetically denervated. As expected, chronic administration of rimonabant significantly reduced body weight for the entire treatment period despite only a transient decrease in food intake. There was a profound increase in BAT temperature, particularly during the dark phase of each circadian cycle throughout the treatment period. A corresponding increase in uncoupling protein (UCP1) was also observed following chronic rimonabant treatment. The rimonabant‐induced elevation in BAT temperature and decrease in body weight were significantly attenuated following denervation, indicating an involvement of the CNS. These findings suggest that the long‐term weight loss associated with rimonabant treatment is due at least in part to an elevation in energy expenditure, represented here by elevated temperature recorded in the BAT, which is mediated primarily by the central endocannabinoid system.     

From liquid crystals to DNA nanoconstructions

This paper reviews the data obtained in our laboratory on the physicochemical properties of liquid-crystalline dispersions formed by double-stranded nucleic acids (DNA and RNA) and the specific features of their behavior in quasinematic layers. The basic data obtained in this field have been used as the background for elaboration of the DNA nanoconstructions carrying various guest molecules (chemical substances or biologically active compounds). Two theoretically feasible approaches to designing DNA nanoconstructions are compared. The unique properties of these nanoconstructions determining the area of their application are described.     

Determination of rimonabant in human plasma and hair by liquid chromatography-mass spectrometry

Rimonabant is the first therapeutically relevant cannabinoid antagonist, licensed in Europe for treatment of obesity when a risk factor is associated. The objective of this study was to develop and validate a method for measurement of rimonabant in human plasma and hair using liquid chromatography coupled to mass spectrometry (LC-MS/MS). Rimonabant and AM-251 (internal standard) were extracted from 50muL of plasma or 10mg of hair using diethylether. Chromatography was performed on a 150mmx2.1mm C18 column using a mobile phase constituted of formate buffer/acetonitrile. Rimonabant was ionized by electrospray in positive mode, followed by detection with mass spectrometry. Data were collected either in full-scan MS or in full-scan MS/MS mode, selecting the ion m/z 463.1 for rimonabant and m/z 555.1 for IS. The most intense product ion of rimonabant (m/z 380.9) and IS (m/z 472.8) were used for quantification. Calibration curves covered a range from 2.5 (lower limit of quantification) to 1000.0ng/mL (upper limit of quantification) in plasma and from 2.5 to 1000.0pg/mg in hair. Validation results demonstrated that rimonabant could be accurately and precisely quantified in both matrixes: accuracy and precision were within 85-115% and within 15% of standard deviation, respectively. Stability studies in plasma showed that rimonabant was stable during the assay procedure, but a 30% decrease was observed for one concentration after 3 weeks at -20 degrees C. This simple and robust LC-MS/MS method can be used for measuring rimonabant concentrations in human plasma and hair either in clinical or in forensic toxicology.     

禽流感病毒实验检测研究进展

禽流感病毒(avian influenza viruses,AIV)给人类健康已带来严重威胁,而实验室快速、准确的诊断技术对禽流感的预防、控制及应急反应决策起着极其关键的作用,这使其成为了研究热点并取得了巨大进步。就禽流感的实验检测技术研究进展从病毒分离、免疫学诊断及分子诊断3个方面加以综述。     

Some new aspects in biosensors

This paper reviews recent advances in biosensors contributed mainly by our laboratory. The biosensors, based on the new immobilization materials - sol-gel organic-inorganic hybrid materials, cryohydrogel (or organohydrogel) and bilayer lipid membranes, are presented. The analytical performances of the biosensors are discussed. Applications of the biosensors in extreme environment are emphasized. A new generation of biosensors - surface plasmon resonance biosensors and capacitance biosensors, are also described.     

Synthesis and structure–activity relationship of 1,2,4-triazole-containing diarylpyrazolyl carboxamide as CB1 cannabinoid receptor–ligand

Numerous research groups have been engaged in searching for novel CB1 receptor antagonists, since SR141716A (rimonabant), a CB1 receptor antagonist, proved to be efficacious in human for the treatment of obesity. In the present study, a series of 1,2,4-triazole-containing diarylpyrazolyl carboxamides based on the 1,5-diarylpyrazole template of rimonabant, was synthesized and tested for CB1 receptor binding affinity. The structure–activity relationship studies demonstrated that incorporation of 1,2,4-triazole ring onto the pyrazole scaffold via a methylene linker led to a significant improvement for CB1 receptor binding affinity. Importantly, these analogues also exhibited excellent selectivity for CB1 receptor over CB2 receptor.     

Some cannabinoid receptor ligands and their distomers are direct-acting openers of SUR1 K(ATP) channels

Here, we examined the chronic effects of two cannabinoid receptor-1 (CB1) inverse agonists, rimonabant and ibipinabant, in hyperinsulinemic Zucker rats to determine their chronic effects on insulinemia. Rimonabant and ibipinabant (10 mg·kg?1·day?1) elicited body weight-independent improvements in insulinemia and glycemia during 10 wk of chronic treatment. To elucidate the mechanism of insulin lowering, acute in vivo and in vitro studies were then performed. Surprisingly, chronic treatment was not required for insulin lowering. In acute in vivo and in vitro studies, the CB1 inverse agonists exhibited acute K channel opener (KCO; e.g., diazoxide and NN414)-like effects on glucose tolerance and glucose-stimulated insulin secretion (GSIS) with approximately fivefold better potency than diazoxide. Followup studies implied that these effects were inconsistent with a CB1-mediated mechanism. Thus effects of several CB1 agonists, inverse agonists, and distomers during GTTs or GSIS studies using perifused rat islets were unpredictable from their known CB1 activities. In vivo rimonabant and ibipinabant caused glucose intolerance in CB1 but not SUR1-KO mice. Electrophysiological studies indicated that, compared with diazoxide, 3 μM rimonabant and ibipinabant are partial agonists for K channel opening. Partial agonism was consistent with data from radioligand binding assays designed to detect SUR1 K(ATP) KCOs where rimonabant and ibipinabant allosterically regulated 3H-glibenclamide-specific binding in the presence of MgATP, as did diazoxide and NN414. Our findings indicate that some CB1 ligands may directly bind and allosterically regulate Kir6.2/SUR1 K(ATP) channels like other KCOs. This mechanism appears to be compatible with and may contribute to their acute and chronic effects on GSIS and insulinemia.     

Juvenile hormone and the control of adult diapause in the Colorado potato beetle,Leptinotarsa decemlineata

One of the major hormonal events preceding environmentally controlled diapause in the Colorado potato beetle, Leptinotarsa decemlineata, is the inhibition of the corpora allata. This paper reviews briefly the data developed by our laboratory on the role of the neuroendocrine system in the control of the corpus allatum. In addition, we demonstrate that during transport in the hemolymph JH is bound to a JH-III specific binding protein. The JH-binding sites of this protein have a high affinity for JH-III and display stereoselectivity. New data are presented showing that, in beetle hemolymph, JH-III specific binding occurs with the lipophorin fraction.     

Cellular function of p70S6K: a role in regulating cell motility

The 70 kDa ribosomal S6 kinase (p70S6K) is activated by numerous mitogens, growth factors and hormones. Activation of p70S6K occurs through phosphorylation at a number of sites and the primary target of the activated kinase is the 40S ribosomal protein S6, a major component of the machinery involved in protein synthesis in mammalian cells. In addition to its involvement in regulating translation, p70S6K activation has been implicated in cell cycle control and neuronal cell differentiation. Recent data obtained in this laboratory suggests that p70S6K may also function in regulating cell motility, a cellular response that is important in tumour metastases, the immune response and tissue repair. The present paper reviews the regulation and cellular function of p70S6K and proposes a novel function of p70S6K in regulating cell motility.     

The Gastric CB1 Receptor Modulates Ghrelin Production through the mTOR Pathway to Regulate Food Intake

Over the years, the knowledge regarding the relevance of the cannabinoid system to the regulation of metabolism has grown steadily. A central interaction between the cannabinoid system and ghrelin has been suggested to regulate food intake. Although the stomach is the main source of ghrelin and CB1 receptor expression in the stomach has been described, little information is available regarding the possible interaction between the gastric cannabinoid and ghrelin systems in the integrated control of energy homeostasis. The main objective of the present work was to assess the functional interaction between these two systems in terms of food intake using a combination of in vivo and in vitro approaches. The present work demonstrates that the peripheral blockade of the CB1 receptor by rimonabant treatment decreased food intake but only in food-deprived animals. This anorexigenic effect is likely a consequence of decreases in gastric ghrelin secretion induced by the activation of the mTOR/S6K1 intracellular pathway in the stomach following treatment with rimonabant. In support of this supposition, animals in which the mTOR/S6K1 intracellular pathway was blocked by chronic rapamycin treatment, rimonabant had no effect on ghrelin secretion. Vagal communication may also be involved because rimonabant treatment was no longer effective when administered to animals that had undergone surgical vagotomy. In conclusion, to the best of our knowledge, the present work is the first to describe a CB1 receptor-mediated mechanism that influences gastric ghrelin secretion and food intake through the mTOR pathway.     

The marbled crayfish: a new model organism for research on development, epigenetics and evolutionary biology

Model organisms have contributed significantly to the understanding of basic biological phenomena. Suitable animal models are at hand for some research disciplines like genetics, development and cell biology but are still sought after for others like epigenetics. Research of the last years has revealed that the marbled crayfish (Marmorkrebs), which was discovered in the mid-1990s, meets researchers' demands for a vigorous, genetically identical and eurytopic laboratory model very well. Its most prominent advantages are production of high numbers of genetically identical offspring, stepwise alteration of the phenotype by moulting, complex morphology and behaviour and sequential generation of segments and limbs. This paper first reviews the discovery and research history of the marbled crayfish, its biology and culture and its special advantages. It then discusses, based on the published data, its suitability as a laboratory model for various research disciplines. The greatest potential of the marbled crayfish lies in epigenetics and environmental epigenomics and in stem cell research and regeneration. The marbled crayfish also appears to be suitable for the investigation of the role of stochastic developmental variation and epigenetic inheritance in evolution and to contribute to evo-devo and eco-devo. This unique crayfish is even of some value for applied biologists, for example as a toxicological test species.     

实验动物垫料的标准化

垫料与实验动物关系密切,是对实验动物产生直接作用和影响的环境因素.本文从实验动物垫料的种类和消毒、垫料质量控制与评价体系的建立、垫料的商品化等方面的问题进行探讨.为实验动物垫料的研发和完善实验动物国家标准提供重要参考依据.     

Effects of chronic oral rimonabant administration on energy budgets of diet-induced obese C57BL/6 mice

The endocannabinoids have been recognized as an important system involved in the regulation of energy balance. Rimonabant (SR141716), a selective inverse agonist of cannabinoid receptor 1 (CB1), has been shown to cause weight loss. However, its suppressive impact on food intake is transient, indicating a likely additional effect on energy expenditure. To examine the effects of rimonabant on components of energy balance, we administered rimonabant or its vehicle to diet-induced obese (DIO) C57BL/6 mice once daily for 30 days, by oral gavage. Rimonabant induced a persistent weight reduction and a significant decrease in body fatness across all depots. In addition to transiently reduced food intake, rimonabant-treated mice exhibited decreased apparent energy absorption efficiency (AEAE), reduced metabolizable energy intake (MEI), and increased daily energy expenditure (DEE) on days 4-6 of treatment. However, these effects on the energy budget had disappeared by days 22-24 of treatment. No chronic group differences in resting metabolic rate (RMR) or respiratory quotient (RQ) (P > 0.05) were detected. Rimonabant treatment significantly increased daily physical activity (PA) levels both acutely and chronically. The increase in PA was attributed to elevated activity during the light phase but not during the dark phase. Taken together, these data suggested that rimonabant caused a negative energy balance by acting on both energy intake and expenditure. In the short term, the effect included both reduced intake and elevated PA but the chronic effect was only on increased PA expenditure.     

Prosimian sensory capacities

This paper reviews laboratory research on sensory capacities of prosimians. Most investigations to date have concentrated on visual and auditory sensitivity with relatively little attention directed toward olfactory and gustatory sensitivity. Diurnal prosimians have at least rudimentary color vision and appear deficient to anthropoids in other visual measures such as acuity. The most striking difference between prosimian and anthropoid auditory sensitivity is the increased sensitivity of the former group to high frequencies. No psychophysical data have been published on olfactory sensitivity of prosimians, but the relatively large olfactory areas in their brains and their propensity for scent marking strongly suggest that they have acute olfactory sensitivity. Most data on gustatory thresholds in prosimians does not permit sensitivity estimation since the data are joint functions of sensitivity as well as preferences.     

侧脑室微量注射大麻素受体拮抗剂对orexin-A诱导大鼠能量代谢改变的影响及潜在机制研究

目的:探讨大麻素1型受体(CB1)抑制剂利莫那班对下丘脑外侧区(LHA)微量注射orexin-A诱导的小鼠能量代谢及相关行为变化改变的影响。方法:通过侧脑室微量注射(icv)利莫那班,同时LHA微量注射orexin-A,测量小鼠能量代谢、自主运动的变化,杏仁核(CeA)内多巴胺释放能力以及小鼠摄食量的变化。结果:侧脑室微量注射利莫那班可减弱因LHA微量注射orexin-A引起的小鼠能量代谢变化,降低小鼠自主运动,并且减弱小鼠CeA内多巴胺释放能力。注射(icv)利莫那班未改变LHA微量注射orexin-A所诱导的摄食量增多。此外,LHA双侧注射利莫那班可阻断LHA内注射orexin-A对运动活性的促进作用,但不影响小鼠的摄食量。结论:大麻素受体涉及orexin-A诱导的小鼠中脑边缘系统多巴胺系统活化的调控,对能量代谢及自主运动也有影响,但对食物摄入的调节无明显影响。     

化学发光检测试剂鲁米诺的安全使用策略

鲁米诺是一种对于不可见血迹进行增强显示的试剂,是法医科学中最敏感的显色试剂之一,同时也可作为发光试剂应用于各种生物检测体系中。出于对安全与健康的担心,该试剂在英国和其他一些欧洲国家的使用一直受到限制。本文综述了有关鲁米诺试剂对于健康的影响的研究进展,分析显示只要采取适当的防护措施,在犯罪现场或在实验室使用鲁米诺试剂的安全风险可控。