Recurrent inhibitory network among striatal cholinergic interneurons.

The striatum plays a central role in sensorimotor learning and action selection. Tonically active cholinergic interneurons in the striatum give rise to dense axonal arborizations and significantly shape striatal output. However, it is not clear how the activity of these neurons is regulated within the striatal microcircuitry.

Estimating protein-protein interaction affinity in living cells using quantitative Förster resonance energy transfer measurements.

We have previously demonstrated that Forster resonance energy transfer (FRET) efficiency and the relative concentration of donor and acceptor fluorophores can be determined in living cells using three-cube wide-field fluorescence microscopy. Here, we extend the methodology to estimate the effective equilibrium dissociation constant (Kd) and the intrinsic FRET efficiency (Emax) of an interacting donor-acceptor pair. Assuming bimolecular interaction, the predicted FRET efficiency is a function of donor concentration, acceptor concentration, Kd, and Emax.

Cerulean, Venus, and VenusY67C FRET reference standards.

Förster's resonance energy transfer (FRET) can be used to study protein-protein interactions in living cells. Numerous methods to measure FRET have been devised and implemented; however, the accuracy of these methods is unknown, which makes interpretation of FRET efficiency values difficult if not impossible. This problem exists due to the lack of standards with known FRET efficiencies that can be used to validate FRET measurements.

Fluorophore-assisted light inactivation produces both targeted and collateral effects on N-type calcium channel modulation in rat sympathetic neurons.

Fluorophore-assisted light inactivation (FALI) is a method to inactivate specific proteins on a time scale of seconds to minutes using either diffuse or coherent light. Here we examine a novel FALI modality that utilizes a fluorescein-conjugated polypeptide, alpha-bungarotoxin (BTX) and a 13 amino acid BTX-binding site engineered into the N-terminus of metabotropic glutamate receptor 8a (mGluR8a), a class C G-protein-coupled receptor (GPCR). The tagged mGluR8a was expressed in rat sympathetic neurons and labelled with fluorescein-conjugated BTX (FL-BTX).

Measurement of FRET efficiency and ratio of donor to acceptor concentration in living cells.

Measurement of fluorescence resonance energy transfer (FRET) efficiency and the relative concentration of donor and acceptor fluorophores in living cells using the three-filter cube approach requires the determination of two constants: 1), the ratio of sensitized acceptor emission to donor fluorescence quenching (G factor) and 2), the ratio of donor/acceptor fluorescence intensity for equimolar concentrations in the absence of FRET (k factor). We have developed a method to determine G and k that utilizes two donor-acceptor fusion proteins with differing FRET efficiencies-the value of which need not be known. We validated the method by measuring the FRET efficiency and concentration ratio of the fluorescent proteins Cerulean and Venus in mammalian cells expressing a series of fusion proteins with varying stoichiometries.

Expression of Rem2, an RGK family small GTPase, reduces N-type calcium current without affecting channel surface density.

Rad, Gem/Kir, Rem, and Rem2 are members of the Ras-related RGK (Rad, Gem, and Kir) family of small GTP-binding proteins. Heterologous expression of RGK proteins interferes with de novo calcium channel assembly/trafficking and dramatically decreases the amplitude of currents arising from preexisting high-voltage-activated calcium channels. These effects probably result from the direct interaction of RGK proteins with calcium channel beta subunits.

Alternative modalities of adenovirus-mediated gene expression in hippocampal neurons cultured on microisland substrate.

Previously, we have used CsCl gradient-purified recombinant adenovirus (AdV) to successfully transfer genes into hippocampal neurons cultured on microisland substrate. Here, we report that purification of AdV particles is not required and efficient gene expression can be achieved using either crude AdV lysates or HEK 293 cells infected with AdV. The advantages of the simplified procedure are greatly reduced preparation time and reduced requirements for equipment and expertise.

Endogenous RGS proteins regulate presynaptic and postsynaptic function: functional expression of RGS-insensitive Galpha subunits in central nervous system neurons.

Regulators of G-protein signaling (RGS)-insensitive (RGSi) G-protein alpha subunits can be used to indirectly determine the function of endogenous RGS proteins in native cells. This article describes the application of RGSi Galpha subunits to the study of endogenous RGS function in central nervous system (CNS) neurons. Presynaptic inhibition of neurotransmitter release was reconstituted in primary neurons using RGSi Galpha(i/o) subunits, whereas postsynaptic regulation of potassium channels was reconstituted using RGSi chimeras of Galpha(q) and Galpha(i).

Modulation of ion channels and synaptic transmission by a human sensory neuron-specific G-protein-coupled receptor, SNSR4/mrgX1, heterologously expressed in cultured rat neurons.

Human sensory neuron-specific G-protein-coupled receptors (SNSRs) are expressed solely in small diameter primary sensory neurons. This restricted expression pattern is of considerable therapeutic interest because small nociceptors transmit chronic pain messages. The neuronal function of human SNSRs is difficult to assess because rodent orthologs have yet to be clearly defined, and individual isoforms are found only in a small subset of primary sensory neurons.