alpha-MSH had no effect on the frequency or amplitude of miniature IPSCs. Furthermore, pharmacological blockade of GABA(A) and GABA(B) receptors, and physical removal of all synaptic inputs via cellular dissociation, abolished hyperpolarizations induced by alpha-MSH. We conclude alpha-MSH exerts direct, postsynaptic excitatory effects on a subset of NTS neurons. By exciting GABAergic NTS neurons and presynaptically enhancing GABAergic signaling, alpha-MSH also indirectly inhibits other NTS cells. These findings provide critical insight
into GANT61 mouse the cellular events underlying medullary melanocortin anorexigenic effects, and expand the understanding of the circuitries involved in central melanocortin signaling. Crown Copyright (C) 2013 Published by Elsevier Ltd. on behalf of IBRO. All rights reserved.”
“Purpose (R)-[C-11]verapamil is a new PET tracer for P-glycoprotein-mediated transport at the blood-brain barrier. For kinetic analysis of (R)-[C-11]verapamil PET data the measurement of a metabolite-corrected arterial input function is required. The aim of this study was to assess peripheral (R)-[C-11]verapamil metabolism in patients with temporal lobe epilepsy and compare these data with previously reported data from healthy volunteers.\n\nMethods Arterial
blood samples were collected from eight Small molecule library molecular weight patients undergoing (R)-[C-11]verapamil PET and selected samples were analysed for radiolabelled metabolites of (R)-[C-11]verapamil by using an assay that measures polar N-demethylation metabolites by solid-phase extraction and lipophilic N-dealkylation metabolites by HPLC.\n\nResults
Peripheral metabolism of (R)-[C-11]verapamil was significantly faster in patients compared to healthy volunteers (AUC of (R)-[C-11]verapamil fraction in plasma: 29.4 +/- 3.9 min for patients versus 40.8 +/- 5.0 min for healthy volunteers; p < 0.0005, Student’s t-test), which resulted in lower (R)-[C-11]verapamil plasma concentrations (AUC of (R)-[C-11]verapamil concentration, JPH203 inhibitor normalised to injected dose per body weight: 25.5 +/- 2.1 min for patients and 30.5 +/- 5.9 min for healthy volunteers; p=0.038). Faster metabolism appeared to be mainly due to increased N-demethylation as the polar [C-11]metabolite fraction was up to two-fold greater in patients.\n\nConclusions Faster metabolism of (R)-[C-11]verapamil in epilepsy patients may be caused by hepatic cytochrome P450 enzyme induction by antiepileptic drugs. Based on these data caution is warranted when using an averaged arterial input function derived from healthy volunteers for the analysis of patient data. Moreover, our data illustrate how antiepileptic drugs may decrease serum levels of concomitant medication, which may eventually lead to a loss of therapeutic efficacy.”
“OBJECTIVES: Across Europe, more than one third of patients are diagnosed with HIV infection late. Late presentation for care has been associated with higher risk of clinical progression and mortality.