Thus detection of non-structural

dengue antigens may be o

Thus detection of non-structural

dengue antigens may be of benefit for an early rapid diagnosis of dengue infection due to its long half life in the blood. Here we describe a simple and efficient method for the expression of NS1 in Escherichia coli, which could potentially be used to develop monoclonal and bispecific antibodies for point of care diagnostics. E. coli codon optimized synthetic full-length Sotrastaurin datasheet NS1 gene of dengue serotype 1 (DEN-1) was successfully cloned and expressed in very high-level as inclusion bodies. The NS1 protein was successfully affinity purified and refolded as a recombinant NS1 (rNS1) protein in E. coli and yield was 230250 mg/L of bacterial culture. The rNS1 protein was used to immunize mice for hybridoma development. The polyclonal antiserum from animals immunized with this rNS1 protein was found to specifically recognize the rNS1, thus demonstrating the immunogenic nature of the protein. The rNS1 protein purified from E. coli could be useful for developing a sensitive serum diagnostic assay to monitor dengue outbreaks. (C) 2009 OSI-027 Elsevier Inc. All rights reserved.”
“Acetylcholine has been implicated in higher cortical functions such as learning, memory and cognition, yet the cellular effects of muscarinic acetylcholine

receptor (mAChR) activation are poorly understood in the human cortex. Here we investigated the effect of the mAChR agonist carbachol (CCh) and various mAChR antagonists in human cortical slices (from tissue removed during neurosurgical treatment of epilepsy) by intracellular and extracellular recordings. CCh increased neuronal firing,

which was antagonised by atropine (non-selective mAChR antagonist) and pirenzepine (M-1/M-4 mAChRs antagonist) when applied before or after CCh application. AF-DX 116 (M-2/M-4 mAChRs antagonist) had no effect on CCh-induced increase of firing. CCh also reduced this website evoked excitatory postsynaptic potentials (EPSP), and the CCh-induced depression of EPSP was fully reversed by atropine. Pirenzepine reversed the depression of CCh on EPSP, but failed to prevent the depression when applied before CCh. AF-DX 116 prevented the CCh-induced depression of evoked EPSP when applied before CCh. CCh also depressed GABAergic transmission and this effect was antagonised by AF-DX 116. Xanomeline (M-1/M-4 mAChR agonist) increased neuronal firing and decreased EPSP, but had no effect on GABAergic transmission. Reduction (with linopirdine) and enhancement (with retigabine) of the M-current (mediated by K(V)7 channels), increased and decreased neuronal firing, respectively, but had marginal effects on the evoked EPSP. Our results indicate that three pharmacologically distinct mAChRs modulate neuronal firing, glutamatergic and GABAergic transmissions in the human epileptogenic neocortex.

Comments are closed.