Ivana Gavrilović scite author profile

Benzodiazepine (BZ) site ligands affect vigilance, anxiety, memory processes, muscle tone and epileptogenic propensity through modulation of neurotransmission at GABA A receptors containing α 1 , α 2 , α 3 or α 5 subunits, and may have numerous experimental and clinical applications. The ability of nonselective BZ site inverse agonists to enhance cognition, documented in animal models and human studies, is clinically not feasible due to potentially unacceptable psychomotor effects. Most investigations to date have proposed the α 1 and/or α 5 subunit-containing GABA A receptors as comprising the memory-modulating population of these receptors. The novel ligand PWZ-029, which we synthesised and characterized electrophysiologically, possesses in vitro binding selectivity and moderate inverse agonist functional selectivity at α 5 -containing GABA A receptors. This ligand has also been examined in rats in the passive and active avoidance, spontaneous locomotor activity, elevated plus maze and grip strength tests, primarily predictive of the effects on the memory acquisition, basal locomotor activity, anxiety level and muscle tone, respectively. The improvement of task learning was detected at the dose of 5 mg/kg in the passive, but not active avoidance test. The inverse agonist PWZ-029 had no effect on anxiety or muscle tone, whereas at higher doses (10 and 20 mg/kg) it decreased locomotor activity. This effect was antagonized by flumazenil and also by the lower (but not the higher) dose of an agonist (SH-053-R-CH3-2'F) selective for GABA A receptors containing the α 5 subunit. The hypolocomotor effect of PWZ-029 was not antagonized by the

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Optimization of ultrasound and microbubbles targeted gene delivery to cultured primary endothelial cells

Meijering

Henning

Gilst

et al. 2007

Journal of Drug Targeting

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Ultrasound and microbubbles targeted gene delivery (UMTGD) is a promising technique for local gene delivery. As the endothelium is a primary target for systemic UMTGD, this study aimed at establishing the optimal parameters of UMTGD to primary endothelial cells. For this, an in vitro ultrasound (US) setup was employed in which individual UMTGD parameters were systematically optimized. The criteria for the final optimized protocol were: (1) relative high reporter gene expression levels, restricted to the US exposed area and (2) induction of not more than 5% cell death. US frequency and timing of medium replacement had a strong effect on UMTGD efficiency. Furthermore, US intensity, DNA concentration and total duration of US all affected UMTGD efficiency. Optimal targeted gene delivery to primary endothelial cells can be accomplished with Sonovue microbubbles, using 20 microg/ml plasmid DNA, a 1 MHz US exposure of Ispta 0.10 W/cm(2) for 30 s with immediate medium change after UMTGD. This optimized protocol resulted in both an increase in the number of transfected cells (more than three fold) and increased levels of transgene expression per cell (170%).

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A molecularly imprinted receptor for separation of testosterone and epitestosterone, based on a steroidal cross-linker

et al. 2011

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Two‐dimensional gas chromatography with heart‐cutting for isotope ratio mass spectrometry analysis of steroids in doping control

Brailsford

Gavrilović

Ansell

et al. 2012

Drug Testing and Analysis

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The accuracy and precision of gas chromatography combustion isotope ratio mass spectrometry (GC‐C‐IRMS) measurements are highly dependent on analyte purity. Reliable analysis of urinary steroids for doping control therefore requires extensive and time‐consuming sample preparation (i.e. liquid chromatography fraction collection) prior to GC‐C‐IRMS analysis. The use of two‐dimensional GC (GC‐GC) with heart‐cutting (Deans Switch) as a possible approach to reduce the sample purification required for IRMS analysis is described herein. The system uses a low thermal mass oven (LTM) incorporated into an existing GC‐C‐IRMS system. GC‐GC allowed the use of a cyanopropyl/phenyl column in the first dimension to optimize the separation of underivatized steroids, while a phenyl‐methylpolysiloxane column in the second dimension focuses the selectively cut analytes into narrower peaks for more sensitive and reliable MS analysis. In addition, to confirm analyte identity, eluent from the second GC was split, with 20 % entering a scanning MS, and 80 % flowing to the IRMS. As a proof concept, the developed method was then used to analyze a single spot urine (5 ml) from an individual receiving T therapy (2 × 50 mg sachets of Testogel®). The T delta value (−27.8 ‰, [T] = 38 ng/ml) was clearly distinct from 11‐ketoetiocholanolone (−22.5 ‰) (used as an endogenous reference compound (ERC)), indicating T as being of exogenous origin. The simultaneous analysis by the scanning MS yielded a full scan mass spectrum of the same chromatographic peak, thus confirming the peak to be T. Copyright © 2012 John Wiley & Sons, Ltd.

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