Advances in the development of covalent small molecule inhibitors of monoacylglycerol lipase / 生物工程学报

Monoacylglycerol lipase (MGL) is a serine hydrolase that plays a major role in the degradation of endogenous cannabinoid 2-arachidonoylglycerol. The role of MGL in some cancer cells has been confirmed, where inhibition of the MGL activity shows inhibition on cell proliferation. This makes MGL a promising drug target for the treatment of cancer. Recently, the development of covalent inhibitors of MGL has developed rapidly. These drugs have strong covalent binding ability, high affinity, long duration, low dose and low risk of drug resistance, so they have received increasing attention. This article introduces the structure and function of MGL, the characteristics, mechanisms and progress of covalent MGL inhibitors, providing reference for the development of novel covalent small molecule inhibitors of MGL.

Cannabis and the exocannabinoid and endocannabinoid systems. Their use and controversies

Cannabis (marijuana) is one of the most consumed psychoactive substances in the world. The term marijuana is of Mexican origin. The primary cannabinoids that have been studied to date include cannabidiol and delta-9-tetrahydrocannabinol, which is responsible for most cannabis physical and psychotropic effects. Recently, the endocannabinoid system was discovered, which is made up of receptors, ligands and enzymes that are widely expressed in the brain and its periphery, where they act to maintain balance in several homeostatic processes. Exogenous cannabinoids or naturally-occurring phytocannabinoids interact with the endocannabinoid system. Marijuana must be processed in a laboratory to extract tetrahydrocannabinol and leave cannabidiol, which is the product that can be marketed. Some studies suggest cannabidiol has great potential for therapeutic use as an agent with antiepileptic, analgesic, anxiolytic, antipsychotic, anti-inflammatory and neuroprotective properties; however, the findings on cannabinoids efficacy and cannabis-based medications tolerability-safety for some conditions are inconsistent. More scientific evidence is required in order to generate recommendations on the use of medicinal cannabis.

Participación del sistema endocanabinoide en el desarrollo de obesidad / A role for the endocannabinoid system in obesity

Endocannabinoids are the endogenous ligands for the cannabinoid receptors type 1 and 2. These membrane receptors are responsible for the psychotropic effects of Cannabis Sativa, when bound to its active component known as (-)-Δ9-tetrahydro-cannabinol. Cannabinoid receptors, endocannabinoids and the enzymes catalyzing their biosynthesis and degradation, constitute the endocannabinoid system (ECS), which has a remarkable role controlling energy balance, both at central nervous system and peripheral tissues. The ECS regulates food ingestion by stimulating a network of orexigenic neurons present in the hypothalamus and reinforcing motivation and reward to food consumption in the nucleus accumbens. Regarding peripheral tissues, this system controls lipid and glucose metabolism at different levels, reduces energy expenditure and leads energy balance to fat storage. Metabolic alterations, includ-ing excessive accumulation of abdominal fat, dyslipidaemia and hyperglicaemia, are suggested to be associated to a hyperactivated ECS. Since obesity is one of the major health problems in modern societies, in this review we discuss the role of the endocannabinoid system in metabolic pathways associated to control mechanisms of energy balance and its involvement in overweight and obesity. In addition, we also discuss therapeutic possibilities and emergent problems due to cannabinoid receptor type 1 antagonism utilized as treatment for such alterations.

Endocannabinoids anandamide and its cannabinoid receptors in liver fibrosis after murine schistosomiasis / 华中科技大学学报（医学）（英德文版）

This study examined endogenous cannabinoid (ECB)-anandamide (AEA) and its cannabinoid receptors (CBR) in mice liver with the development of schistosoma japonicum. Mice were infected with schistosoma by means of pasting the cercaria onto their abdomens. Liver fibrosis was pathologically confirmed nine weeks after the infection. High performance liquid chromatography (HPLC) was employed to determine the concentration of AEA in the plasma of mice. Immunofluorescence was used to detect the expression of CBR1 and CBR2 in liver tissue. Morphological examination showed typical pathological changes, with worm tubercles of schistosoma deposited in the liver tissue, fibrosis around the worm tubercles and infiltration or soakage of inflammatory cells. Also, CBR1 and CBR2 were present in hepatocytes and hepatic sinusoids of the two groups, but they were obviously enhanced in the schistosoma-infected mice. However, the average optical density of CBR1 in the negative control and fibrosis group was 13.28+/-7.32 and 30.55+/-7.78, and CBR2 were 28.13+/-6.42 and 52.29+/-4.24 (P<0.05). The levels of AEA in the fibrosis group were significantly increased as compared with those of the control group. The concentrations of AEA were (0.37+/-0.07) and (5.67+/-1.34) ng/mL (P<0.05). It is concluded that the expression of endocannabinoids AEA and its cannabinoid receptor CBR were significantly increased in schistosoma-infected mice. Endogenous endocannabinoids may be involved in the development of schistosoma-induced liver fibrosis.

Endocannabinoid system--a novel target for cardiometabolic risk.

The endocannabinoid system (EC) plays a significant role in appetite drive and associated behaviours. Therefore attenuation of the activity of the EC system would have therapeutic benefit in treating disorders that might have a component of excess appetite drive or over-activity of the endocannabinoid system, such as obesity, ethanol and other drug abuse, and a variety of central nervous system and other disorders. Antagonists of cannabinoid receptors have been designed through rational drug discovery essential to exploit these novel targets for potential in obesity, metabolism, addiction, pain and neurologic disorders. Rimonabant is the only compound in this group which along this pathway is now approved as a selective CB (1) (cannabinoid receptor subtype 1) antagonist, or inverse agonist, in the European Union and India and under regulatory review in the United States for the treatment of obesity and associated cardiometabolic risk.

O sistema endocanabinóide: novo paradigma no tratamento da síndrome metabólica / The endocannabinoid system: a new paradigm in the metabolic syndrome treatment

O balanço energético é um dos mais importantes mecanismos de homeostase e de sobrevivência das espécies. O sistema endocanabinóide é um novo e importante componente entre estes mecanismos. Os seus receptores e agonistas endógenos se expressam no sistema nervoso central (SNC) e perifericamente, em vários sítios, estabelecendo uma rede de comunicação periferia­SNC. Um aspecto marcante é a sua expressão no tecido adiposo, onde regula a lipogênese e aumenta a expressão de genes influentes no metabolismo dos lipídeos e dos carboidratos. Estes aspectos são importantes para o controle do peso corporal e da Síndrome Metabólica (SM). O sistema é ativado sob demanda e desativado rapidamente, atuando autócrina e paracrinamente, e as evidências sugerem que mantém-se hiperativado em estados de obesidade. Um antagonista específico do seu principal receptor (CB1), o Rimonabant, tem se mostrado importante ferramenta no controle do peso em modelos animais de obesidade e de SM. Da mesma forma, grandes estudos em humanos confirmam sua eficácia no controle do peso e das variáveis metabólicas, sugerindo um papel importante deste medicamento para o controle do risco cardiovascular associado à SM.

Energetic balance is a fundamental homeostasis mechanism, which contributes to the species' survival. The endocannabinoid system is a new and important component among such mechanisms. Its receptors and endogenous agonists are expressed in central nervous system (CNS) and at various peripheral organs, establishing a CNS­periphery net communication. A relevant aspect is its expression in the adipose tissue, where it regulates lipogenesis and increases the expression of influent genes on lipids and carbohydrate metabolism. Interestingly, it seems to be upregulated in human and animal obesity, although it is activated on demand and rapidly deactivated. Its activation increases food intake and promotes weight gain, contributing to Metabolic Syndrome (MS). Rimonabant is a specific antagonist to the main endocannabinoid receptor (CB1). In animal models of obesity and MS, as well as in humans, Rimonabant has demonstrated to be a useful tool in controlling weight and metabolic aspects. Indeed, some new human trials suggest a possible role for this substance in controlling cardiovascular risk factors related to MS.

Papel de la endocanabinoides en aterosclerosis: relación con la función endotelial / Endocannabinoid rolebin atheroschlerosis: ralationship with endothelial function

Los recientes estudios del metabolismo de los endocanaboides han permitido establecer su papel fisiológico en el sistema cardiovascular y metabólico. Es así como a través del receptor CB1, los endocanabinoides regulan la homeostasis energética, la acumulación de grasa y el mantenimiento del peso corporal y através del receptor CB2, ejercen importantes efectos antiinflamatorios y reguladores del tono vascular. Estos efectos, diferenciados de acuerdo con el tipo de receptor con que actúa, permiten proponer que el bloquo del receptor CB1 con Rinonabant, se muestre útil en el tratamiento de pacientes obesos con síndrome metabólico y tendría también efectos antiaterogénicos, al ejercer una regulación positiva sobre la unión de los endocanabinoides del receptor CB2, ocacionando efectos anteinflamatorios y de recuperación de la función endotelial. En el momento, esta propuesta se encuentra en estudio en nuestro instituto