Group II mGluRs suppress hyperexcitability in mouse and human nociceptors.

We introduce a strategy for preclinical research wherein promising targets for analgesia are tested in rodent and subsequently validated in human sensory neurons. We evaluate group II metabotropic glutamate receptors, the activation of which is efficacious in rodent models of pain. Immunohistochemical analysis showed positive immunoreactivity for mGlu2 in rodent dorsal root ganglia (DRG), peripheral fibers in skin, and central labeling in the spinal dorsal horn.

Epigenetic response to environmental stress: Assembly of BRG1-G9a/GLP-DNMT3 repressive chromatin complex on Myh6 promoter in pathologically stressed hearts.

Chromatin structure is determined by nucleosome positioning, histone modifications, and DNA methylation. How chromatin modifications are coordinately altered under pathological conditions remains elusive. Here we describe a stress-activated mechanism of concerted chromatin modification in the heart.

Astrocytes contribute to gamma oscillations and recognition memory.

Glial cells are an integral part of functional communication in the brain. Here we show that astrocytes contribute to the fast dynamics of neural circuits that underlie normal cognitive behaviors. In particular, we found that the selective expression of tetanus neurotoxin (TeNT) in astrocytes significantly reduced the duration of carbachol-induced gamma oscillations in hippocampal slices.

Human sensory neurons: Membrane properties and sensitization by inflammatory mediators.

Biological differences in sensory processing between human and model organisms may present significant obstacles to translational approaches in treating chronic pain. To better understand the physiology of human sensory neurons, we performed whole-cell patch-clamp recordings from 141 human dorsal root ganglion (hDRG) neurons from 5 young adult donors without chronic pain. Nearly all small-diameter hDRG neurons (<50 μm) displayed an inflection on the descending slope of the action potential, a defining feature of rodent nociceptive neurons.

Whole blood leukocytes isolation with microfabricated filter for cell analysis.

The flow cytometric analysis of leukocytes in whole blood usually requires isolation of leukocytes from other components of whole blood. Density gradient centrifugation and red blood cell lysis are the most commonly used methods to separate leukocytes but come with significant limitations. We report the results of the evaluation of a microfabricated filtration device for blood preparation that separates erythrocytes from leukocytes based on their size and mechanical properties.

Automated voltage-clamp technique.

The voltage-clamp electrophysiology method is the gold standard for measuring the function of ion channels. In the past, this technique has had limited applicability in pharmaceutical drug discovery because of its low throughput, steep learning curve, and challenges in standardization of the experiments. Recently, new electrophysiology platforms have been developed, which are based on the use of planar electrodes.

Efficient characterization of use-dependent ion channel blockers by real-time monitoring of channel state.

Ion channels are important therapeutic targets for the treatment of a variety of conditions. Among ion channel blocking agents, use-dependent inhibitors can be especially effective therapeutic agents. Use dependence allows the selective inhibition of hyperactive neurons or tachycardiac myocytes, while minimizing effects on cells with normal activity.

Automated tight seal electrophysiology for assessing the potential hERG liability of pharmaceutical compounds.

Unintended inhibition of the cardiac potassium channel human ether-a-go-go-related gene (hERG) is considered the main culprit in drug-induced arrhythmias known as torsades de pointes. Electrophysiology is the most reliable in vitro screening method for identifying potential cardiac hERG liabilities, but only the recent advent of planar electrode-based voltage clamp electrophysiology promises sufficient throughput to support the drug testing needs of most drug discovery programs. We have assessed the reliability of this new format of the voltage clamp technology in measuring the activity of small molecules on the hERG channel.