Pierre Bredeloux

Comparisons between bupropion and dexamphetamine in a range of in vivo tests exploring dopaminergic transmission.

In the present study we investigated, in a range of in vivo tests whether the antidepressant bupropion, and its metabolites shared the dopamine releasing effect of the chemically related dexamphetamine.

Synthesis and Biological Effects of c(Lys-Lys-Pro-Tyr-Ile-Leu-Lys-Lys-Pro-Tyr-Ile-Leu) (JMV2012), a New Analogue of Neurotensin that Crosses the Blood−Brain Barrier

The central administration of neurotensin (NT) or of its C-terminal hexapeptide fragment NT(8-13), produces strong analgesic effects in tests evaluating acute pain. The use of NT-derived peptides as pharmaceutical agents to relief severe pain in patients could be of great interest. Unfortunately, peptides do not readily penetrate the blood-brain barrier. We have observed that the cyclic NT(8-13) analogue, c(Lys-Lys-Pro-Tyr-Ile-Leu-Lys-Lys-Pro-Tyr-Ile-Leu) (JMV2012, compound 1), when peripherally administered to mice produced analgesic and hypothermic effects, suggesting the peptide penetrates the blood-brain barrier and functions effectively like a drug. Moreover, dimeric compounds show increased potency compared to their corresponding monomer. We present the synthesis of the cyclic dimer compound 1 (JMV2012). In mice, compound 1 induced a profound hypothermia and a potent analgesia, even when peripherally administered. Compound 1 appears to be an ideal lead compound for the development of bioactive NT analogues as novel analgesics drugs.

Interactions between NTS2 neurotensin and opioid receptors on two nociceptive responses assessed on the hot plate test in mice.

The intracerebroventricular administration of the tridecapeptide neurotensin (NT) produces strong analgesic effects in tests evaluating acute pain. We investigated whether these effects are mediated by the opioid receptors. In the hot plate test, the NT receptors agonist NT1 (N(alpha)Me-Arg-Lys-Pro-Trp-Tle-Leu), s.c. injected (0.3-3 mg/kg), increased paw licking and jump latencies. These effects were inhibited by the NTS2 antagonist levocabastine (2.5 mg/kg, i.p.) but not by the selective NTS1 antagonist SR48692 (3 mg/kg, i.p.). The opioid receptor antagonist naloxone did not modify (up to the dose of 4.5 mg/kg, s.c.) the NT1 effect on licking, but abolished the increase in the jump latency (from the dose of 1.5 mg/kg). In mice made tolerant to the analgesic effect of morphine (2 mg/kg, s.c.) by previous morphine injections (32 mg/kg, s.c., twice a day, 4 days), NT1 maintained its effect on licking, but its effect on jump latency was suppressed. Levocabastine (up to the dose of 4.5 mg/kg) failed to antagonize the effects of morphine (2 mg/kg, s.c.) on both licking and jump latencies. In mice made tolerant to the analgesic effect of NT1 (0.3 mg/kg, s.c.) by previous NT1 injections (3 mg/kg, s.c., twice a day, 4 days) morphine maintained its analgesic effects both on licking and jumping latencies. We can conclude that neurotensinergic and opioidergic transmissions are functionally independent as regards the licking response. However, in the jump response, neurotensinergic transmission seems to regulate opioidergic transmission, inducing its stimulation.

A TTX-Sensitive Resting Na+ Permeability Contributes to the Catecholaminergic Automatic Activity in Rat Pulmonary Vein

Ectopic activity arising from pulmonary veins (PV) plays a prominent role in the onset of atrial fibrillation in humans. Rat PV cardiac muscle cells have a lower resting membrane potential (RMP) than the left atria (LA) and presents in the presence of norepinephrine an automatic activity, which occurs in bursts. This study investigated the role of Na channels upon the RMP and the catecholaminergic automatic activity (CAA) in PV cardiac muscle.

SarcOptiM for ImageJ: high frequency online sarcomere length computing on stimulated cardiomyocytes

Accurate measurement of cardiomyocyte contraction is a critical issue for scientists working on cardiac physiology and physiopathology of diseases implying contraction impairment. Cardiomyocytes contraction can be quantified by measuring sarcomere length, but few tools are available for this, and none is freely distributed. We developed a plug-in (SarcOptiM) for the ImageJ/Fiji image analysis platform developed by the National Institutes of Health. SarcOptiM computes sarcomere length via fast Fourier transform analysis of video frames captured or displayed in ImageJ and thus is not tied to a dedicated video camera. It can work in real time or offline, the latter overcoming rotating motion or displacement-related artifacts. SarcOptiM includes a simulator and video generator of cardiomyocyte contraction. Acquisition parameters, such as pixel size and camera frame rate, were tested with both experimental recordings of rat ventricular cardiomyocytes and synthetic videos. It is freely distributed, and its source code is available. It works under Windows, Mac, or Linux operating systems. The camera speed is the limiting factor, since the algorithm can compute online sarcomere shortening at frame rates >10 kHz. In conclusion, SarcOptiM is a free and validated user-friendly tool for studying cardiomyocyte contraction in all species, including human.

Automatic quantitative analysis of t-tubule organization in cardiac myocytes using ImageJ

The transverse tubule system in mammalian striated muscle is highly organized and contributes to optimal and homogeneous contraction. Diverse pathologies such as heart failure and atrial fibrillation include disorganization of t-tubules and contractile dysfunction. Few tools are available for the quantification of the organization of the t-tubule system. We developed a plugin for the ImageJ/Fiji image analysis platform developed by the National Institutes of Health. This plugin (TTorg) analyzes raw confocal microscopy images. Analysis options include the whole image, specific regions of the image (cropping), and z-axis analysis of the same image. Batch analysis of a series of images with identical criteria is also one of the options. There is no need to either reorientate any specimen to the horizontal or to do a thresholding of the image to perform analysis. TTorg includes a synthetic myocyte-like image generator to test the plugins efficiency in the users own experimental conditions. This plugin was validated on synthetic images for different simulated cell characteristics and acquisition parameters. TTorg was able to detect significant differences between the organization of the t-tubule systems in experimental data of mouse ventricular myocytes isolated from wild-type and dystrophin-deficient mice. TTorg is freely distributed, and its source code is available. It provides a reliable, easy-to-use, automatic, and unbiased measurement of t-tubule organization in a wide variety of experimental conditions.

SarConfoCal: simultaneous sarcomere length and cytoplasmic calcium measurements for laser scanning confocal microscopy images

Summary: Simultaneous recordings of myocytes contractility and their cytoplasmic calcium concentration allow powerful studies, particularly on heart failure and other cardiac dysfunctions. Such studies require dedicated and expensive experimental devices that are difficult to use. Thus we propose SarConfoCal, the first and only software to simultaneously analyse both cytoplasmic calcium variations (from fluorescence signal) and myocytes contractility (from sarcomere length measurement) on laser scanning confocal microscopy images. SarConfoCal is easy to set up and use, especially by people without programming skills. Availability and implementation: The software is freely distributed under the GNU General Public License. Download and setup instructions are available at http://pccv.univ‐tours.fr/ImageJ/SarConfoCal. It is provided as a toolset for ImageJ (the open‐source program for image analysis provided by the National Institutes of Health). SarConfoCal has been tested under Windows, Mac and Linux operating systems. Contact: come.pasqualin@univ‐tours.fr Supplementary information: Supplementary data are available at Bioinformatics online.

Structural heterogeneity of the rat pulmonary vein myocardium: consequences on intracellular calcium dynamics and arrhythmogenic potential

Mechanisms underlying ectopic activity in the pulmonary vein (PV) which triggers paroxysmal atrial fibrillation are unknown. Although several studies have suggested that calcium signalling might be involved in these arrhythmias, little is known about calcium cycling in PV cardiomyocytes (CM). We found that individual PV CM showed a wide range of transverse tubular incidence and organization, going from their virtual absence, as described in atrial CM, to well transversally organised tubular systems, like in ventricular CM. These different types of CM were found in groups scattered throughout the tissue. The variability of the tubular system was associated with cell to cell heterogeneity of calcium channel (Cav1.2) localisation and, thereby, of Cav1.2-Ryanodine receptor coupling. This was responsible for multiple forms of PV CM calcium transient. Spontaneous calcium sparks and waves were not only more abundant in PV CM than in LA CM but also associated with a higher depolarising current. In conclusion, compared with either the atrium or the ventricle, PV myocardium presents marked structural and functional heterogeneity.

HF_IDS_Cam: Fast Video Capture with ImageJ for Real-Time Analysis

Fast online video analysis is currently a key issue for dynamic studies in biology; however, very few tools are available for these concerns. Here we present an ImageJ plug-in: HF_IDS_Cam, which allows for video capture at very high speeds using IDS (Imaging Development Systems GmbH) cameras and image analysis software ImageJ. The software has been optimized for real time video analysis with ImageJ native function and other plug-ins and scripts. The plug-in was written in Java and requires ImageJ 1.47v or higher. HF_IDS_Cam offers a wide range of applications for exploration of dynamic phenomena in biology, from in vitro/ex vivo studies, such as fast fluorescent calcium imaging and voltage optical mapping in cardiac myocytes and neurons, to in-vivo behavioral studies.

0194 : Functional consequences of -adrenergic receptors activation in the rat pulmonary veins and left atria

The role of adrenergic stimulation on pulmonary veins (PV) ectopy and atrial fibrillation initiation is unclear. In the rat, left atrium (LA) and PV cardiomyocytes (CM) have different reactions to α-adrenergic receptor activation. Here, we examine the functional consequences of α-adrenergic receptors activation by cirazoline in rat LA and PV. PV, LA and right and left atria-PV preparations dissected from male Wistar rats were superfused with a physiological solution at 37°C. Electrical conduction within the LA and the PV was recorded with a linear array of 8 extracellular electrodes. Dual intracellular microelectrode recording used a WPI Duo 773 electrometer amplifier. Calcium transients (CaT) were recorded in isolated CM loaded with Fluo-4. Confocal microscopy was used to visualize the distribution of α-adrenergic receptors labeled with BODIPY-prazosin. In PV but not in LA strips stimulated at 0.1Hz, cirazoline induced a concentration-dependent negative inotropic effect (-79±5% at 1μM, p The author hereby declares no conflict of interest