Identification of a high-affinity binding site involved in the transport of endocannabinoids
Phytocannabinoids, such as the principal bioactive component of marijuana, ⌬ 9 -tetrahydrocannabinol, have been used for thousands of years for medical and recreational purposes. ⌬ 9 -Tetrahydrocannabinol and endogenous cannabinoids (e.g., anandamide) initiate their agonist properties by stimulating the cannabinoid family of G protein-coupled receptors (CB 1 and CB2). The biosynthesis and physiology of anandamide is well understood, but its mechanism of uptake (resulting in signal termination by fatty acid amide hydrolase) has been elusive. Mounting evidence points to the existence of a specific anandamide transport protein; however, no direct evidence for this protein has been provided. Here, we use a potent, competitive small molecule inhibitor of anandamide uptake (LY2318912, IC 50 7.27 ؎ 0.510 nM) to identify a high-affinity, saturable anandamide transporter binding site (LY2318912; K d ؍ 7.62 ؎ 1.18 nM, Bmax ؍ 31.6 ؎ 1.80 fmol͞mg protein) that is distinct from fatty acid amide hydrolase. Systemic administration of the inhibitor into rodents elevates anandamide levels 5-fold in the brain and demonstrates efficacy in the formalin paw-licking model of persistent pain with no obvious adverse effects on motor function. Identification of the anandamide transporter binding site resolves a missing mechanistic link in endocannabinoid signaling, and in vivo results suggest that endocannabinoid transporter antagonists may provide a strategy for positive modulation of cannabinoid receptors.anandamide ͉ fatty acid amide hydrolase ͉ cannabinoid ͉ marijuana ͉ transporter E ndocannabinoids are recognized as significant intracellular lipid signaling molecules in the central nervous system with extensive control of physiological and behavioral mood and affect. Increases in endocannabinoid neurotransmission have broad therapeutic potential, including reduction of nausea and emesis (1), appetite stimulation (2), analgesia (3), anxiolytic activity (4), antispasmodic activity (5), and lowering of intraocular pressure in glaucoma (6). Identification of a specific binding site for the phytocannabinoid, ⌬ 9 -tetrahydrocannabinol (⌬ 9 -THC) (7), cloning of the cannabinoid receptors (CB 1 and CB 2 ) (8, 9), and the identification of an endogenous ligand, anandamide (N-arachidonoylethanolamide) (10), provided evidence of an endogenous cannabinoid system. Anandamide represents a class of lipid neurotransmitters that stimulate not only presynaptic and postsynaptic CB 1 receptors but also TRPV1 ion channels (11, 12), 5-hydroxytryptamine receptors (13-16), and possibly other receptors, as well as CB 2 receptors in the periphery (10,(17)(18)(19). More recently, the enzymes that are responsible for anandamide synthesis (phospholipase D) and catabolism (fatty acid amide hydrolase, FAAH) have been identified and characterized (20,21). Unlike typical neurotransmitter molecules, anandamide is synthesized in the membrane bilayer, resulting in the phospholipid precursor of anandamide, Narachidonoylphosphatidylethanolamine (22-25). Calciumacti...
Adult neurogenesis, the generation of new neurons in the adult brain, occurs in the hippocampal dentate gyrus (DG) and the olfactory bulb (OB) of all mammals, but the functions of these new neurons are not entirely clear. Originally, adult-born neurons were considered to have excitatory effects on the DG network, but recent studies suggest a net inhibitory effect. Therefore, we hypothesized that selective removal of newborn neurons would lead to increased susceptibility to the effects of a convulsant. This hypothesis was tested by evaluating the response to the chemoconvulsant kainic acid (KA) in mice with reduced adult neurogenesis, produced either by focal X-irradiation of the DG, or by pharmacogenetic deletion of dividing radial glial precursors. In the first 4 hrs after KA administration, when mice have the most robust seizures, mice with reduced adult neurogenesis had more severe convulsive seizures, exhibited either as a decreased latency to the first convulsive seizure, greater number of convulsive seizures, or longer convulsive seizures. Nonconvulsive seizures did not appear to change or they decreased. Four-21 hrs after KA injection, mice with reduced adult neurogenesis showed more interictal spikes (IIS) and delayed seizures than controls. Effects were greater when the anticonvulsant ethosuximide was injected 30 min prior to KA administration; ethosuximide allows forebrain seizure activity to be more easily examined in mice by suppressing seizures dominated by the brainstem. These data support the hypothesis that reduction of adult-born neurons increases the susceptibility of the brain to effects of KA.
Spike–wave discharges in adult Sprague–Dawley rats and their implications for animal models of temporal lobe epilepsy
Spike-wave discharges (SWDs) are thalamocortical oscillations that are often considered to be the EEG correlate of absence seizures. GAERS and Wag/Rij rat strains exhibit SWDs and are considered to be genetic animal models of absence epilepsy. However, it has been reported that other rat strains have SWDs, suggesting that SWDs may vary in their prevalence but all rats have a predisposition for them. This is important because many of these rat strains are used to study temporal lobe epilepsy (TLE), where it is assumed that there is no seizure-like activity in controls. In the course of other studies about the Sprague-Dawley rat, a common rat strain for animal models of TLE, we found that approximately 19% of 2–3 month old naïve female Sprague-Dawley rats exhibited SWDs spontaneously during periods of behavioral arrest and they continued for months. Males exhibited SWDs only after 3 months of age, consistent with previous reports [1]. Housing in atypical lighting during early life appeared to facilitate the incidence SWDs. SWDs were often accompanied by behaviors similar to stage 1–2 limbic seizures. Therefore, additional analyses were made to address the similarity. We observed that the frequency of SWDs was similar to theta rhythm during exploration for a given animal, typically 7–8 Hz. Therefore, activity in the frequency of theta rhythm that occurs during frozen behavior may not reflect seizures necessarily. Hippocampal recordings exhibited high frequency oscillations (>250 Hz) during SWDs, suggesting neuronal activity in hippocampus occurs during SWDs, i.e., it is not a passive structure. The data also suggest that high frequency oscillations, if rhythmic, may reflect SWDs. We also confirmed that SWDs were present in a common animal model of TLE, the pilocarpine model, using female Sprague-Dawley rats. Therefore, damage and associated changes to thalamic, hippocampal and cortical neurons in does not prevent SWDs, at least in this animal model. The results suggest that it is possible that SWDs occur in rodent models of TLE and investigators mistakenly assume they are stage 1–2 limbic seizures. We discuss the implications of the results and ways to avoid the potential problems associated with SWDs in animal models of TLE..
BackgroundThe utility of pulmonary artery catheters (PACs) and their measurements depend on a variety of factors including data interpretation and personnel training. This US multi-center, retrospective electronic health record (EHR) database analysis was performed to identify associations between PAC use in adult cardiac surgeries and effects on subsequent clinical outcomes.MethodsThis cohort analysis utilized the Cerner Health Facts database to examine patients undergoing isolated coronary artery bypass graft (CABG), isolated valve surgery, aortic surgery, other complex non-valvular and multi-cardiac procedures, and/or heart transplant from January 1, 2011, to June 30, 2015. A total of 6844 adults in two cohorts, each with 3422 patients who underwent a qualifying cardiac procedure with or without the use of a PAC for monitoring purposes, were included. Patients were matched 1:1 using a propensity score based upon the date and type of surgery, hospital demographics, modified European System for Cardiac Operative Risk Evaluation (EuroSCORE II), and patient characteristics. Primary outcomes of 30-day in-hospital mortality, length of stay, cardiopulmonary morbidity, and infectious morbidity were analyzed after risk adjustment for acute physiology score.ResultsThere was no difference in the 30-day in-hospital mortality rate between treatment groups (OR, 1.17; 95% CI, 0.65–2.10; p = 0.516). PAC use was associated with a decreased length of stay (9.39 days without a PAC vs. 8.56 days with PAC; p < 0.001), a decreased cardiopulmonary morbidity (OR, 0.87; 95% CI, 0.79–0.96; p < 0.001), and an increased infectious morbidity (OR, 1.28; 95% CI, 1.10–1.49; p < 0.001).ConclusionsUse of a PAC during adult cardiac surgery is associated with decreased length of stay, reduced cardiopulmonary morbidity, and increased infectious morbidity but no increase in the 30-day in-hospital mortality. This suggests an overall potential benefit associated with PAC-based monitoring in this population.Trial registrationThe study was registered at clinicaltrials.gov (NCT02964026) on November 15, 2016.Electronic supplementary materialThe online version of this article (10.1186/s13741-018-0103-x) contains supplementary material, which is available to authorized users.
Association between albumin administration and survival in cardiac surgery: a retrospective cohort study
In this large retrospective study, use of 5% albumin solution was associated with significantly decreased odds of in-hospital mortality and all-cause 30-day readmission rate compared with administration of crystalloids alone in adult patients undergoing on-pump cardiac surgery. These results warrant further studies to examine fluid receipt, including 5% albumin, in surgical populations via randomized-controlled trials.
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