Intra-hospital variation of gut microbiota product, trimethylamine N-oxide (TMAO) predicts future major adverse cardiovascular events after myocardial infarction.

BACKGROUND AND AIMS: Trimethylamine N-oxide (TMAO) has been associated with atherosclerosis and poor outcome. We evaluated the prognostic impact of intra-hospital TMAO variation on patient outcome. METHODS AND RESULTS: Blood samples from 149 patients with acute myocardial infarction (AMI) were taken on admission and discharge. Plasma TMAO was determined by HPLC-MS. The endpoint was a composite three-point MACE (major adverse cardiovascular events) including all-cause mortality, re-infarction or the heart failure (HF) development. Median TMAO concentration on admission was significantly higher than on discharge, (respectively, 7.81 [3.47 - 19.98] vs 3.45 [2.3 - 4.78] µM,p<0.001). After estimating the 3.45 µM TMAO cut-off with the analysis of continuous hazard ratio, we divided our cohort into two groups. The first group included 75 (50.3%) patients whose TMAO levels remained below or decreased under cut-off (low-low/high-low; LL/HL), while the second group included 74 (49.7%) patients whose TMAO levels remained high or increased above the cut-off during hospitalisation (high-high/low-high; HH/LH). During the median 30-month follow-up, 21.5% patients experienced the composite endpoint. At Kaplan-Meier analysis, a trend of increasing MACE risk was observed in patients in the HH/LH group (p=0.05). At multivariable Cox analysis, patients from HH/LH group had more than two times higher risk of MACE during the follow-up than LL/HL group (HR=2.15 [95% CI, 1.03 - 4.5], p=0.04). Other independent predictors of MACE were older age and worse left ventricular systolic function. CONCLUSIONS: In patients with AMI, permanently high or increasing TMAO levels during hospitalisation are associated with a higher risk of MACE during long-term follow-up.

Sustained insulin treatment restoring metabolic status, body weight, and cognition in an anorexia nervosa-like animal model in mice.

INTRODUCTION: Anorexia Nervosa (AN) is a psycho-socio-biological disease characterized by severe weight loss as result of dieting and hyperactivity. Effective treatments are scarce, despite its significant prevalence and mortality. AN patients show lower basal insulin levels and increased metabolic clearance, leading to weight loss, cognitive deficits, and hormonal imbalances. Low-dose polymer insulin could potentially reverse these effects by restoring brain function, reducing fear of weight gain, encouraging food intake, and restoring fat depots. This study evaluates an insulin delivery system designed for sustained release and AN treatment. METHODS: AN-like model was established through dietary restriction (DR). On days 1-25, mice were on DR, and on days 26-31 they were on ad libitum regimen. An insulin-loaded delivery system was administered subcutaneously (1% w/w insulin). The impact of insulin treatment on gene expression in the hippocampus (cognition, regulation of stress, neurogenesis) and hypothalamus (eating behavior, mood) was assessed. Behavioral assays were conducted to evaluate motor activity and cognitive function. RESULTS: The delivery system demonstrated sustained insulin release, maintaining therapeutic plasma levels. Diet restriction mice treated with the insulin delivery system showed body weight restoration. Gene expression analysis revealed enhanced expression of CB1 and CB2 genes associated with improved eating behavior and cognition, while POMC expression was reduced. Insulin-polymer treatment restored cognitive function and decreased hyperactivity in the AN-like model. CONCLUSION: The PSA-RA-based insulin delivery system effectively restores metabolic balance, body weight, and cognitive function in the AN model. Its ability to steadily release insulin makes it a promising candidate for AN treatment."

Novel N-Acylethanolamide Derivatives Affect Body Weight and Energy Balance.

Introduction - The obesity pandemic is multifactorial. Nutritional, pharmacologic and surgical interventions are limited in reach and efficacy, raising need for new therapeutics. Aims - Characterization of anorexigenic and cognitive effect and central mechanism of action of novel N-acylethanolamide derivatives. Methods - Sabra mice divided to similar experimental groups, injected IP with: oleyl-L-leucinolamide (1 A), linoleyl-L-leucinolamide (4 A), linoleyl-L-valinolamide (5 A), oleyl-oxycarbonyl-L-valinolamide (1 B), oleyl-oxycarbonyl-D-valinolamide (2 B), oleylamine-carbonyl-L-valinolamide (3 B), oleylamine-carbonyl-D-valinolamide (4 B), and oleyl-L-hydroxyvalineamide (5 B). Control group with vehicle. Body weight and food consumption followed for 39 days. Motor activity and cognitive function by open field test and eight-arm maze. Mice sacrificed and mechanism of action investigated by qPCR. The genes analyzed involved in energy balance and regulation of appetite. Catecholamines and serotonin evaluated. Results - Compounds 1 A, 5 A, 1 B-4 B, caused significant weight loss of 4.2-5.6 % and 5 A, 1 B-4 B, improved cognitive function following 8 i. p. injections of 1 mg/kg during 39 days, by different mechanisms. 5 A, 3 B and 4 B decreased food consumption, whereas 1 A, 5 A and 2 B increased motor activity. 1 A, 4 A, 1 B and 3 B elevated SIRT-1, associated with survival. POMC upregulated by 1 B and 2 B, CART by 1 B, 2 B and 1 A. NPY and CAMKK2 downregulated by 5 A. 4 B enhanced 5-HT levels. 4 A, 5 A, 1 B, 4 B, 5 B decreased FAAH, showing long lasting effect. Conclusions - These new compounds might be developed for the treatment of obesity and for improved cognitive function.

Insulin normalized brain metabolic status on a Model of Anorexia Nervosa in Mice.

INTRODUCTION: Anorexia nervosa is a psycho-socio-biological disease, characterized by self-starvation and distorted perception of body weight. Patients often over-exercise. Insulin is an anabolic hormone that increases food intake and restores body fat and is present in low levels in anorexia nervosa patients: thus may have therapeutic potential in treating anorexia nervosa. AIMS: to explore whether low levels insulin administration may result in recovery of cerebral function and restoration of metabolic disorder providing a treatment option for anorexia nervosa. METHODS: Female Sabra mice maintained on DR of 2.0 hours per day for 32 days, in cages with or without wheel attached to an electronic counter (activity wheel). They were then permitted to eat ad libitum for additional 15 days. On the second week, mice were injected ip with 0.5U/kg long acting Insulin(Lantus) or saline and cognitive function was evaluated. Insulin administered three times a week during days 8-32. Mice euthanized on day 48 and cerebral levels of monoamines, 2-AG and expression of genes associated with metabolic status were evaluated. RESULTS: Activity wheel mice decreased body weight, 2-AG, dopamine levels and 5-HT1A and increased Camkk2 and SIRT1 gene expression compared to mice without it. Insulin increased body weight, decreased revolutions, enhanced NPY and normalized Camkk2, SIRT-1, BDNF, elevated 2-AG and improved cognition in the wheel group. CONCLUSION: low dose insulin administration to animal model of anorexia associated with exercise, led to alterations and normalization in brain metabolic status and improved cognition. Insulin should be further explored as potential novel treatment for anorexia nervosa.

Beta-Carotene derivatives as novel therapy for the prevention and treatment of autistic symptoms.

Autistic Spectrum Disorders (ASD) are neurodevelopmental disorders characterized by impaired social interaction & communication as well as restricted and repetitive behavior. The currently reported incidence of ASD is 1-2%, and it increases dramatically to 10-20% in families predisposed to ASD. To date, there is no effective way to treat or prevent ASD, and only symptomatic treatment with limited efficacy is available. Oxytocin (Oxt) enhances affiliative behavior and improves social cognition. Social deficits characteristic of autism may be related to dysfunctional Oxt neurotransmission. Thus, administration of Oxt may relieve ASD, however it has a short plasma half-life and poor Blood Brain Barrier (BBB) permeability. CD38, a multifunctional ecto-enzyme expressed in brain and immune cells, was found to be critical for social behavior via regulation of Oxt secretion. All-trans retinoic acid (ATRA) is a potent inducer of CD38 and improves social behavior, but it is toxic and teratogenic. We have shown that beta-carotene has a similar therapeutic effect. The present study aimed to investigate the activity of novel beta-carotene derivatives in rescuing low sociability found in BTBR mice, providing an in vivo "proof of principle" that beta-carotene derivatives are potential agents to prevent/ameliorate the reappearance of ASD in high-risk populations for ASD. Beta-carotene and its synthetic analogs were administered orally to newborn BTBR mice with ASD associated like behavior. After 2 months, they were tested (at dosages of 0.1 and 1.0 mg/kg) by cognitive (T-maze spontaneous alteration and neurological score) and behavioral tests (reciprocal social interaction, repetitive grooming / bedding behavior), previously shown as indicators for autistic behavior. The following biochemical and molecular biology parameters were also examined: serum Oxt; gene expression in hippocampus and hypothalamus of CD 38, Oxt, Oxt receptor, BDNF, and retinoic acid receptor. The new compounds were significantly more effective than control. The most effective compounds, both in the behavioral tests and in their biochemical effects, were (3R,3'R)-astaxanthin bis(N-Cbz-l-alanine ester) (3B(and (3S,3'S)-astaxanthin bis(N,N-dimethylglycine ester (5). They did not exert any neurological symptoms. Thus, beta-carotene derivatives may have the potential to prevent and/or ameliorate autistic symptoms when administered orally after birth to newborns of families predisposed to autism.

Novel glucagon- and OXM-based peptides acting through glucagon and GLP-1 receptors with body weight reduction and anti-diabetic properties.

Oxyntomodulin (OXM) is an endogenous gastrointestinal hormone, which activates both the Glucagon-like peptide-1 receptor (GLP-1R) and the glucagon receptor (GCGR). However, OXM has shortcomings including poor GLP-1R agonism to control glycemia, short half-life and others. Inspired from the sequence relationship between OXM and glucagon, in this study, we introduced different C-terminus residues of GLP-1, exenatide and OXM to glucagon to get a series of hybrid peptides with enhanced GLP-1R activation. The formed glucagon-exenatide hybrid peptide shows higher GLP-1R activation properties than OXM. Then the peptides based on the glucagon-exenatide hybrid peptide were coupled with fatty acid side chains to prolong their half-lives. As a result, the most potent compound 16a could stimulate insulin secretion and maintain blood glucose in normal level for ~42.6 h in diabetic mice. 16a exhibited reduced HbA1c level in diabetic mice, lowered body weight significantly in obesity mice on chronic treatment assay. 16a, combined efficient GCGR/GLP-1R activity, is potential as novel treatment for obesity and diabetes. This finding provides new insights into balancing GLP-1/GCGR potency of glucagon-exenatide hybrid peptide and is helpful for discovery of novel anti-diabetic and bodyweight-reducing drugs.

Ghrelin Derangements in Idiopathic Dilated Cardiomyopathy: Impact of Myocardial Disease Duration and Left Ventricular Ejection Fraction.

BACKGROUND: Ghrelin may exert positive effects on cardiac structure and function in heart failure (HF) patients. METHODS: We assessed ghrelin levels in 266 dilated cardiomyopathy (DCM) patients and in 200 age, gender and body mass index (BMI) matched controls. Further, we evaluated the expression of ghrelin and growth hormone secretagogue-receptor (GHSR) in the myocardium of 41 DCM patients and in 11 controls. RESULTS: DCM patients had significantly lower levels of total, acylated and unacylated ghrelin when compared to controls (p < 0.05 for all). In controls, we observed a negative correlation of ghrelin with age, male gender and BMI. These correlations were lost in the DCM group, except for male gender. Total ghrelin was higher in patients with more recent diagnosis when compared to patients with longer duration of the DCM (p = 0.033). Further, total ghrelin was higher in patients with lower left ventricular systolic function (<40% LVEF, vs. 40% ≤ LVEF < 49% vs. LVEF ≥ 50%: 480.8, vs. 429.7, vs. 329.5 pg/mL, respectively, p = 0.05). Ghrelin prepropeptide was expressed more in DCM patients than in controls (p = 0.0293) while GHSR was expressed less in DCM patients (p < 0.001). Furthermore, ghrelin showed an inverse correlation with its receptor (= -0.406, p = 0.009), and this receptor showed a significant inverse correlation with Interleukin-1 (= -0.422, p = 0.0103). CONCLUSION: DCM duration and severity are accompanied by alterations in the ghrelin-GHSR system.

Beta-carotene as a novel therapy for the treatment of "Autistic like behavior" in animal models of Autism.

Autism-affected individuals are characterized by lower plasma oxytocin and its ectoenzyme regulator CD38. Oxytocin, a hypothalamic hormone secreted upon the release of CD38, plays a role in social behavior and bonding. All-trans retinoic acid is a potent inducer of CD38 and can be used as a novel therapeutic strategy in autism. We investigated the role of beta-carotene in rescuing autistic-like behavior in BALB/c and BTBR mice. Beta-carotene derivatives are preferred as they are neither toxic nor teratogenic. Beta-carotene at 0.1-5.0 mg/kg was administered orally to BALB/c and BTBR newborn mice on days 1-7. They were tested at age 2-3 months for five behavioral tests for "autism"; in addition, brain CD38, oxytocin, oxytocin receptor, Brain Derived Neurotrophic Factor (BDNF) and retinoic acid receptor gene expression, serum oxytocin levels, and neurological score were evaluated. Beta-carotene administered at birth significantly increased T-maze alternations and led to longer time spent with an unfamiliar mouse in the "three-chamber test" and less time spent in the empty chamber. Furthermore, enhanced activity in the open field test; increased time spent in the reciprocal social interaction test; decreased grooming and bedding behaviors; and enhanced brain CD38, oxytocin, oxytocin receptor, BDNF, retinoic acid gene expression, and serum oxytocin levels. No changes in neurological score were observed. Beta-carotene oral supplementation to BALB/c and BTBR mice at birth significantly reduced restricted and stereotyped behaviors and interests, increased social interactions and communication, CD38, and oxytocin, probably by enhancing brain neuroplasticity without toxicity. Thus, beta-carotene administered after birth to newborns of families predisposed to "autism" has the potential to prevent/ameliorate" autistic like behavior". These results support further clinical studies.

Novel fatty acid chain modified GLP-1 derivatives with prolonged in vivo glucose-lowering ability and balanced glucoregulatory activity.

Glucagon-like peptide-1 is a potent hypoglycemic hormone with beneficial properties for the treatment of diabetes. However, its half-life is short because the rapid metabolic degradation. This study aims to prolong the half-life of glucagon-like peptide-1 through conjugation with the fatty acid side chain which helps the conjugates to interact with the albumin. Firstly, we chose two optimized polypeptide chains which have tremendous hypoglycemic effect named Cys17-Gly8-GLP-1(7-36)-NH2 and Cys37-Gly8-GLP-1(7-37)-NH2, and various fatty acid chains were modified. All conjugates preserved relatively strong GLP-1R activation and I-6 behaved best in glucose-lowering ability. The prolonged antidiabetic effects of I-6 were further confirmed by hypoglycemic efficacy test in vivo. Meanwhile, once daily injection of I-6 to diabetic mice achieved long-term beneficial effects on glucose tolerance, body weight and blood chemistry. It is concluded that I-6 is a promising agent for further investigation of its potential to treat obese patients with diabetes.

The Impact of Δ9-THC on the Psychological Symptoms of Anorexia Nervosa: A Pilot Study.

BACKGROUND: Δ9-Tetrahydrocannabinol (Δ9-THC) is the active compound of Cannabis sativa with appetitestimulating properties. This study evaluated the effect of low doses of oral Δ9-THC on self-reported symptoms of patients suffering from chronic anorexia nervosa (AN). METHODS: Nine female subjects over 18 years of age participated in the study. Six were diagnosed according to DSM-IV criteria with AN restrictive type and three with active AN binge-purge type. Their mean age was 45.0±3.2 years and their BMI was 16.1±1.6 kg/M2. They completed questionnaires before and after treatment with Δ9-THC (1 mg/day for one week and 2 mg/day for three weeks). The primary outcome was improvement in the way patients perceived their eating behavior. RESULTS: Significant improvements were found in selfreported body care, sense of ineffectiveness, asceticism and depression. There were no significant changes in BMI. CONCLUSIONS: Δ9-THC may be an effective component in treating the psychological symptoms of AN.

A Double Blind, Randomized Cross-Over Trial of Tyrosine Treatment on Cognitive Function and Psychological Parameters in Severe Hospitalized Anorexia Nervosa Patients.

BACKGROUND: Anorexia nervosa (AN) is characterized by self-induced malnutrition, affecting body image, mood, cognition and survival. Tyrosine, an essential amino acid is the precursor of catecholamines. The use of tyrosine to treat AN is based on experiments on diet restricted mice, in which it increased food consumption, improved cognitive function and elevated brain catecholamines. We evaluated the effect of oral tyrosine administration on the cognition and emotional state of patients with AN. We hypothesized that tyrosine may improve cognitive function without changing body weight, thus "kick-start" nutritional rehabilitation. METHODS: 19 female hospitalized patients with chronic AN were supplemented with L-tyrosine (100 mg/kg/day)/ placebo capsules for a three-week period in a double blind, randomized, cross-over study. Participants were evaluated cognitively and psychologically. RESULTS: Tyrosine shortened reaction time and test duration in memory tasks and improved depressive mood. No side effects were noted with the use of tyrosine. CONCLUSIONS: Tyrosine may improve cognitive function and psychological traits associated with AN.

Novel acylethanolamide derivatives that modulate body weight through enhancement of hypothalamic pro-opiomelanocortin (POMC) and/or decreased neuropeptide Y (NPY).

Newly synthesized acylethanolamide derivatives oleoyl-L-valinolamide (1), oleoyl-D-valinolamide (2), elaidoyl-L-valinolamide (3), elaidoyl-D-valinolamide (4) stearoyl-L-valinolamide (5), and palmitoyl-L-valinolamide (6) were investigated in mice as antiobesity compounds. Compounds 1, 2, 5, 6 significantly decreased body weight by 6.57% following eight injections of 1 mg/kg i.p. during 39 days, while 3 and 4 showed no such activity. Receptor binding indicated that no compound activated CB1, CB2, PPARα, or TRPV1 receptors. Hypothalamic RT-PCR showed that mRNA expression of the anorexigenic genes POMC and CART was up-regulated by 1, 2, 5 and 1, 2, respectively, while that of the orexigenic genes NPY and CaMKK2 was down-regulated by the respective compounds 1, 5, 6 and 1, 2, 5. Oleoyl-L-valinolamide enhances anorectic pathways and lead to decreased glucose levels, enhanced locomotor activity, and improved cognition. Effects of oleoyl-L-valinolamide on weight were dose-dependent, and it could be given orally. 1, 2, 4, 5 down-regulated FAAH mRNA expression.

The direct profibrotic and indirect immune antifibrotic balance of blocking the cannabinoid 2 receptor.

Cannabinoid 2 (CB2) receptors expressed on immune cells are considered to be antifibrogenic. Hepatic stellate cells (HSCs) directly interact with phagocytosis lymphocytes, but the nature of this interaction is obscure. We aimed to study the effects of CB2 receptors on hepatic fibrosis via their role in mediating immunity. Hepatic fibrosis was induced by carbon-tetrachloride (CCl(4)) administration in C57BL/6 wild-type (WT) and CB2 knockout (CB2(-/-)) mice. Irradiated animals were reconstituted with WT or CB2(-/-) lymphocytes. Lymphocytes from naïve/fibrotic WT animals and healthy/cirrhotic hepatitis C virus were preincubated in vitro with or without CB2 antagonist, evaluated for proliferation and apoptosis, and then cocultured with primary mouse HSCs or a human HSC line (LX2), respectively. Lymphocyte phagocytosis was then evaluated. Following CCl(4)-administration, CB2(-/-) mice developed significant hepatic fibrosis but less necroinflammation. WT mice harbored decreased liver CD4(+) and NK(+) cells but increased CD8(+) subsets. Naïve CB2(-/-) mice had significantly decreased T cell subsets. Adoptive transfer of CB2(-/-) lymphocytes led to decreased fibrosis in the irradiated WT recipient compared with animals receiving WT lymphocytes. Moreover, necroinflammation also tended to decrease. In vitro, a CB2-antagonist directly increased human HSC activation and increased apoptosis and decreased proliferation of mice/human T cells (healthy/fibrotic) and their phagocytosis. We concluded that CB2(-/-) lymphocytes exert an antifibrotic activity, whereas lack of CB2 receptor in HSCs promotes fibrosis. These findings broaden our understanding of cannabinoid signaling in hepatic fibrosis beyond their activity solely in HSCs.

Leptin resistance and desensitization of hypophagia during prolonged inflammatory challenge.

Acute exposure to bacterial lipopolysaccharide (LPS) is a potent inducer of immune response as well as hypophagia. Nevertheless, desensitization of responses to LPS occurs during long-term exposure to endotoxin. We induced endotoxin tolerance, injecting repeated (6LPS) LPS doses compared with single (1LPS) treatment. 1LPS, but not 6LPS group, showed decreased food intake and body weight, which was associated with an increased plasma leptin and higher mRNA expression of OB-Rb, MC4R, and SOCS3 in the hypothalamus. Hypophagia induced by 1LPS was associated with lower levels of 2-arachidonoylglycerol (2-AG), increased number of p-STAT3 neurons, and decreased AMP-activated protein kinase (AMPK) activity. Desensitization of hypophagia in the 6LPS group was related to high 2-AG, with no changes in p-STAT3 or increased p-AMPK. Leptin decreased food intake, body weight, 2-AG levels, and AMPK activity and enhanced p-STAT3 in control rats. However, leptin had no effects on 2-AG, p-STAT3, or p-AMPK in the 1LPS and 6LPS groups. Rats treated with HFD to induce leptin resistance showed neither hypophagia nor changes in p-STAT3 after 1LPS, suggesting that leptin and LPS recruit a common signaling pathway in the hypothalamus to modulate food intake reduction. Desensitization of hypophagia in response to repeated exposure to endotoxin is related to an inability of leptin to inhibit AMPK phosphorylation and 2-AG production and activate STAT3. SOCS3 is unlikely to underlie this resistance to leptin signaling in the endotoxin tolerance. The present model of prolonged inflammatory challenge may contribute to further investigations on mechanisms of leptin resistance.

Fish oil promotes survival and protects against cognitive decline in severely undernourished mice by normalizing satiety signals.

Severe malnutrition resulting from anorexia nervosa or involuntary starvation leads to low weight, cognitive deficits and increased mortality rates. In the present study, we examined whether fish oil supplementation, compared with that of canola oil, would ameliorate the morbidity and mortality associated with these conditions by normalizing endocannabinoid and monoaminergic systems as well as other systems involved in satiety and cognitive function within the hypothalamus and hippocampus. Female Sabra mice restricted to 40% of their daily food intake exhibited decreased body weight, were sickly in appearance, displayed cognitive deficits and had increased mortality rates. Strikingly, fish oil supplementation that contains high omega-3 fatty acids levels decreased mortality and morbidity, and normalized the expression of genes and neurotransmitters in the hippocampus and hypothalamus. Fish oil supplementation, but not canola oil, increased survival rates, improved general appearance and prevented cognitive decline, despite the facts that both diets contained an equivalent number of calories and that there were no differences in weight between mice maintained on the two diets in 100% but decrease in the 40%. In the hypothalamus, the beneficial effects of fish oil supplementation were related to normalization of the endocannabinoid 2-arachidonylglycerol, serotonin (5-HT) (P<.056), dopamine, neuropeptide Y (NPY) and Ca(2+)/calmodulin (CaM)-dependent protein kinase (Camkk2). In the hippocampus, fish oil supplementation normalized 5-HT, Camkk2, silent mating type information regulation 1 and brain-derived neurotrophic factor. In conclusion, dietary supplements of fish oil, as source of omega-3 fatty acids, may alleviate cognitive impairments associated with severe diet restriction and prolong survival independently of weight gain by normalizing neurochemical systems.

Leptin reduces infarct size in association with enhanced expression of CB2, TRPV1, SIRT-1 and leptin receptor.

Brain ischemia is associated with detrimental changes in energy production and utilization. Therefore, we hypothesized that leptin, an adipokynin hormone protecting against severe energy depletion, would reduce infarct volume and improve functional outcome after stroke. Male Sabra mice underwent permanent middle cerebral artery occlusion (PMCAO) by photothrombosis. Following initial dose-response and time-window experiments animals were treated with vehicle or leptin, were examined daily by a neurological severity score (NSS) and were sacrificed 72 hours after stroke. Infarct volume was determined and the expression of key genes involved in neuroprotection and survival including the cannabinoid receptors CB1, CB2 and TRPV1, SIRT-1, leptin receptor and Bcl-2 was quantified in the cortex. A separate group of mice were examined with the neurological severity scale 1, 24 and 48 hours and 1, 2 and 3 weeks after stroke, and were killed 3 weeks post stroke to examine metabolic status in the peri-infarct area. Leptin given at a dose of 1mg/kg intra-peritoneally 30 minutes after PMCAO significantly improved neurological disability and reduced infarct volume. Leptin treatment led to increased expression of CB2 receptor, TRPV1, SIRT-1 and leptin receptor and reduced expression of CB1 receptor. There was also a non-significant increase in Bcl-2 gene expression following leptin administration. These results suggest that leptin may be used for attenuating ischemic injury after stroke via induction of an anti-apoptotic state.

Cannabidiol ameliorates cognitive and motor impairments in mice with bile duct ligation.

BACKGROUND/AIMS: The endocannabinoid system in mice plays a role in models of human cirrhosis and hepatic encephalopathy (HE), induced by a hepatotoxin. We report now the therapeutic effects of cannabidiol (CBD), a non-psychoactive constituent of Cannabis sativa, on HE caused by bile duct ligation (BDL), a model of chronic liver disease. METHODS: CBD (5mg/kg; i.p.) was administered over 4weeks to mice that had undergone BDL. RESULTS: Cognitive function in the eight arm maze and the T-maze tests, as well as locomotor function in the open field test were impaired by the ligation and were improved by CBD. BDL raised hippocampal expression of the TNF-alpha-receptor 1 gene, which was reduced by CBD. However, BDL reduced expression of the brain-derived neurotrophic factor (BDNF) gene, which was increased by CBD. The effects of CBD on cognition, locomotion and on TNF-alpha receptor 1 expression were blocked by ZM241385, an A(2)A adenosine receptor antagonist. BDL lowers the expression of this receptor. CONCLUSIONS: The effects of BDL apparently result in part from down-regulation of A(2)A adenosine receptor. CBD reverses these effects through activation of this receptor, leading to compensation of the ligation effect.

Cannabinoids and capsaicin improve liver function following thioacetamide-induced acute injury in mice.

OBJECTIVES: We have shown the beneficial effects of cannabinoids in a murine model of hepatic encephalopathy following thioacetamide and now report their effects on the liver injury. METHODS: Fulminant hepatic failure (FHF) was induced by administration of 200 mg/kg thioacetamide to wild-type (WT) and CB2 Knockout (KO) mice. Twenty-four hours later, mice were injected with 2-arachidonoylglycerol (CB1, CB2, and TRPV1 agonist), HU308 (CB2 agonist), SR141716 A (CB1 receptor blocker), SR141716 A+2-AG, and SR144528 (CB2 receptor blocker), capsaicin and capsazepine (TRPV1 agonist and antagonist receptors). Mice were sacrificed 2 days after thioacetamide administration (day 3) and liver biochemistry and histopathology as well as evaluation of 2-arachidonoylglycerol levels were performed on liver tissue. RESULTS: Liver histopathology undertaken 48 h after thioacetamide showed evidence of necrosis and inflammation. SR141716 A, HU308, and 2-arachidonoylglycerol reduced inflammation and promoted regeneration 1 day after their administration. Liver enzymes increased after thioacetamide administration and were reversed after SR141716 A and 2-arachidonoylglycerol administered alone or combined, HU-308, but not SR144528. Thus, the beneficial effects mediated through CB2 receptors. However, CB2 KO mice still modulated liver function via the TRPV1 receptors. Capsaicin improved both liver pathology and function in WT thioacetamide-treated mice, while capsazepine impaired it. CONCLUSIONS: The similar pattern found between the effect of cannabinoids and their antagonists on brain and liver indicated that the therapeutic effect might be directed by the improvement in both organs through CB2 receptors and/or TRPV1 receptors. Modulation of these systems may have therapeutic potential.

Endocannabinoids in liver disease and hepatic encephalopathy.

Chronic liver disease results from a variety of causes such as hepatitis virus infections, autoimmune processes and alcohol consumption. Its complications include fat deposition, hemodynamic changes and fibrosis. Clinically there may be progression to portal-hypertension and porto-systemic encephalopathy. Pioneering research from the laboratory of Kunos at NIH has stressed the importance of endocannabinoids (ECs) as mediators of some of the pathological processes in chronic liver disease. The present review summarizes the literature on the association between ECs and liver disease, as well as the therapeutic potential of ECs and exogenous cannabinoids in liver disease with emphasis on hepatic encephalopathy.

2-Arachidonoylglycerol, an endogenous cannabinoid receptor agonist, in various rat tissues during the evolution of experimental cholestatic liver disease.

BACKGROUND/AIM: Changes in tissue levels of 2-arachidonoylglycerol (2-AG), an endocannabinoid, during the evolution of bile duct ligation (BDL) may indicate that endocannabinoids have a role in the hemodynamic changes that occur in this condition. METHODS: 2-AG levels, in various organs and vascular beds of BDL rats, 2 and 4 weeks post surgery, were determined. Untouched and sham-operated (SO) rats were used as controls. RESULTS: 2-AG content of a specific organ was not a static finding and depended on the rat's age, the time from the surgical procedure and the type of procedure. The most pronounced changes were observed in BDL rats 4 weeks post surgery. In these rats, hepatic, pulmonary, cardiac and renal medullary and papillary 2-AG levels were highest observed. No changes in splenic, aortic and renal cortical 2-AG levels were observed. In addition a stepwise increase in 2-AG levels from the cortex to the papilla was detected and was followed by a decrease in creatinine clearance. CONCLUSIONS: 2-AG probably has a role in the pathophysiologic changes in the liver, heart, lung and kidney that follows BDL.