A novel binding site between the voltage-dependent calcium channel Ca1.2 subunit and Caβ2 subunit discovered using a new analysis method for protein-protein interactions.

We developed a new method to analyze protein-protein interactions using a dual-inducible prokaryotic expression system. To evaluate protein-protein binding, a chimeric fusion toxin gene was constructed using a DNase-treated short DNA fragment (epitope library) and CcdB, which encodes a DNA topoisomerase II toxin. Protein-protein interactions would affect toxin activity, resulting in colony formation.

Rapid method for plasmid DNA recombination (Murakami-system).

DNA recombination is a useful technology for cloning and subsequent functional analysis, while standard techniques for plasmid DNA recombination have remained unchanged. In the present study, we introduced rapid method for plasmid DNA recombination, which we named "Murakami-system", to complete the experiments in under 33 h. For this purpose, we selected the following: PCR amplification with 25 cycles and strain with rapid growth (incubation time of 6-8 h).

Dopamine D1 Receptor Immunoreactivity on Fine Processes of GFAP-Positive Astrocytes in the Substantia Nigra Pars Reticulata of Adult Mouse.

Substantia nigra pars reticulata (SNr), the major output nucleus of the basal ganglia, receives dopamine from dendrites extending from dopaminergic neurons of the adjacent nucleus pars compacta (SNc), which is known for its selective degeneration in Parkinson's disease. As a recipient for dendritically released dopamine, the dopamine D1 receptor (D1R) is a primary candidate due to its very dense immunoreactivity in the SNr. However, the precise location of D1R remains unclear at the cellular level in the SNr except for that reported on axons/axon terminals of presumably striatal GABAergic neurons.

Uptake of a fluorescent L-glucose derivative 2-NBDLG into three-dimensionally accumulating insulinoma cells in a phloretin-sensitive manner.

Of two stereoisomers of glucose, only D- and not L-glucose is abundantly found in nature, being utilized as an essential fuel by most organisms. The uptake of D-glucose into mammalian cells occurs through glucose transporters such as GLUTs, and this process has been effectively monitored by a fluorescent D-glucose derivative 2-[N-(7-Nitrobenz-2-oxa-1,3-diazol-4-yl)amino]-2-deoxy-D-glucose (2-NBDG) at the single cell level. However, since fluorescence is an arbitrary measure, we have developed a fluorescent analog of L-glucose 2-[N-(7-Nitrobenz-2-oxa-1,3-diazol-4-yl)amino]-2-deoxy-L-glucose (2-NBDLG), as a negative control substrate for more accurately identifying the stereoselectivity of the uptake.

Auto-oxidation products of epigallocatechin gallate activate TRPA1 and TRPV1 in sensory neurons.

The sensation of astringency is elicited by catechins and their polymers in wine and tea. It has been considered that catechins in green tea are unstable and auto-oxidized to induce more astringent taste. Here, we examined how mammalian transient receptor potential V1 (TRPV1) and TRPA1, which are nociceptive sensors, are activated by green tea catechins during the auto-oxidation process.

Singular localization of sodium channel β4 subunit in unmyelinated fibres and its role in the striatum.

Voltage-gated Na(+) channel β-subunits are multifunctional molecules that modulate Na(+) channel activity and regulate cell adhesion, migration and neurite outgrowth. β-subunits including β4 are known to be highly concentrated in the nodes of Ranvier and axon initial segments in myelinated axons. Here we show diffuse β4 localization in striatal projection fibres using transgenic mice that express fluorescent protein in those fibres.

Syntheses of 2-NBDG analogues for monitoring stereoselective uptake of D-glucose.

2-NBDG is a widely used fluorescent tracer for monitoring d-glucose uptake into single living cells. However, 2-NBDG alone is not sufficient for monitoring the net stereoselective uptake of d-glucose, unless its possible non-stereoselective uptake is properly evaluated. l-Glucose derivatives, which emit fluorescence distinct from that of 2-NBDG, should provide valuable information on the stereoselective uptake, when used with 2-NBDG in combination.

The Met268Pro mutation of mouse TRPA1 changes the effect of caffeine from activation to suppression.

The transient receptor potential A1 channel (TRPA1) is activated by various compounds, including isothiocyanates, menthol, and cinnamaldehyde. The sensitivities of the rodent and human isoforms of TRPA1 to menthol and the cysteine-attacking compound CMP1 differ, and the molecular determinants for these differences have been identified in the 5th transmembrane region (TM5) for menthol and TM6 for CMP1. We recently reported that caffeine activates mouse TRPA1 (mTRPA1) but suppresses human TRPA1 (hTRPA1).

Effects of spinophilin on the function of RGS8 regulating signals from M2 and M3-mAChRs.

We found that a scaffold protein, spinophilin (SPL), can interact with M2 and M3-muscarinic acetylcholine receptors (mAChRs). As SPL can also bind to RGS8 by using the different region of SPL, we investigated the effects of SPL on the function of RGS8 regulating signals from M2 and M3 receptors. M2 receptor-mediated Gi-signaling was studied by monitoring G-protein-coupled inwardly rectifying K+ channels, and M3 receptor-mediated Gq-signaling was monitored by the increase of Ca2+-activated Cl(-) current.

Caffeine activates mouse TRPA1 channels but suppresses human TRPA1 channels.

Caffeine has various well-characterized pharmacological effects, but in mammals there are no known plasma membrane receptors or ion channels activated by caffeine. We observed that caffeine activates mouse transient receptor potential A1 (TRPA1) in heterologous expression systems by Ca(2+)(i) imaging and electrophysiological analyses. These responses to caffeine were confirmed in acutely dissociated dorsal root ganglion sensory neurons from WT mice, which are known to express TRPA1, but were not seen in neurons from TRPA1 KO mice.

Alternative splicing of RGS8 gene changes the binding property to the M1 muscarinic receptor to confer receptor type-specific Gq regulation.

RGS proteins constitute a large family that modulates heterotrimeric G-protein signaling. We previously showed that RGS8 suppressed Gq signaling in a receptor type-specific manner. To elucidate molecular mechanisms underlying receptor-specific attenuation by RGS8, we examined whether RGS8 can interact with certain G-protein-coupled receptors.

Molecular cloning and characterization of a new RGS protein of Medaka.

We identified eight genes of putative RGS proteins in skin of Medaka fish using PCR amplification with degenerate primers for the RGS domain of known RGS proteins. Then, we cloned a full-length cDNA for a new RGS protein. This RGS protein was similar to human RGS3 within the RGS domain, but other parts were unique among known RGS proteins.