Initialized from the scaffold of CGP7930, an allosteric agonist of GABAB receptors, a series of noncompetitive antagonists were discovered. Among these compounds, compounds 3, 6, and 14 decreased agonist GABA-induced maximal effect of IP3 production in HEK293 cells overexpressing GABAB receptors and Gqi9 proteins without changing the EC50. Compounds 3, 6, and 14 not only inhibited agonist baclofen-induced ERK1/2 phosphorylation but also blocked CGP7930-induced ERK1/2 phosphorylation in HEK293 cells overexpressing GABAB receptors. The results suggested that compounds 3, 6, and 14 are negative allosteric modulators of GABAB receptors. The representative compound 14 decreased GABA-induced IP3 production with IC50 of 37.9 μM and had no effect on other GPCR Class C members such as mGluR1, mGluR2, and mGluR5. Finally, we showed that compound 14 did not bind to the orthosteric binding sites of GABAB receptors, demonstrating that compound 14 negatively modulated GABAB receptors activity as a negative allosteric modulator.Keywords: CGP7930; GABAB receptors; negative allosteric modulator; α-keto acid;

The major facilitator superfamily (MFS) is the largest family of secondary active transporters and is present in all life kingdoms. Detailed structural basis of the substrate transport and energy-coupling mechanisms of these proteins remain to be elucidated. YajR is a putative proton-driven MFS transporter found in many Gram-negative bacteria. Here we report the crystal structure of Escherichia coli YajR at 3.15 Å resolution in an outward-facing conformation. In addition to having the 12 canonical transmembrane helices, the YajR structure includes a unique 65-residue C-terminal domain which is independently stable. The structure is unique in illustrating the functional role of “sequence motif A.” This highly conserved element is seen to stabilize the outward conformation of YajR and suggests a general mechanism for the conformational change between the inward and outward states of the MFS transporters.

The transient receptor potential Ankyrin 1 (TRPA1) cation channel is activated by various pungent and irritant compounds, and it also mediates the perception of noxious cold. Identification of different agonists for this channel is important for understanding its activation mechanism. Therefore, a screen for novel TRPA1 agonists was performed using an agonist-induced calcium influx assay. Out of 90 compounds screened, pinacidil was identified as a novel agonist for this channel. Pinacidil is a known opener of the Katp channel, for which it has an EC50 value of 1–3 μmol/L. In comparison, the EC50 value of pinacidil for TRPA1 is relatively high (260 μmol/L). Recombinant HEK-TRPA1 cells did not respond to P1075, another Katp channel opener, suggesting that the effect of pinacidil on TRPA1 was highly specific. Further studies revealed that the agonist activity of pinacidil could be blocked by the TRP channel inhibitors, ruthenium red and HC-030031. Using glutathione (GSH) and site-specific mutagenesis, we demonstrated that pinacidil could activate TRPA1 by covalent modification of the critical amino acids C619, C639 and C663 in the N-terminus of TRPA1.

Many cell surface receptors are multimeric proteins, composed of several structural domains, some involved in ligand recognition, whereas others are responsible for signal transduction. In most cases, the mechanism of how ligand interaction in the extracellular domains leads to the activation of effector domains remains largely unknown. Here we examined how the extracellular ligand binding to the venus flytrap (VFT) domains of the dimeric metabotropic glutamate receptors activate the seven transmembrane (7TM) domains responsible for G protein activation. These two domains are interconnected by a cysteine-rich domain (CRD). We show that any of the four disulfide bridges of the CRD are required for the allosteric coupling between the VFT and the 7TM domains. More importantly, we show that a specific association of the two CRDs corresponds to the active state of the receptor. Indeed, a specific crosslinking of the CRDs with intersubunit disulfide bridges leads to fully constitutively active receptors, no longer activated by agonists nor by allosteric modulators. These data demonstrate that intersubunit movement at the level of the CRDs represents a key step in metabotropic glutamate receptor activation.

A trimodular activity-based probe was designed, synthesized, characterized, and applied to photoaffinity label the GABAB receptors transiently expressed in Chinese hamster ovary (CHO) cells. The probe exhibits specific binding activity at the ligand-binding pocket of GB1 subunits and high specificity of photoaffinity labeling, which makes the probe valuable for studying the localization and function of GABAB receptors on living cells.

Endoplasmic reticulum (ER) stress signalling pathways are involved in various alterations of the central nervous system such as neurodegenerative diseases or ischemia. The current mechanisms linking ER stress activation to neuronal cell fate upon chronic or acute stresses remain however to be fully understood. Recent studies have associated ER stress severity and the relative activation levels of certain output pathways to influence cell-fate decisions. In the present report, to further test the impact of ER stress severity on neuronal survival, we designed an experimental system recapitulating acute and chronic stress in cerebellar granule neurons (CGNs) and c17.2 mouse neural stem cells (NSCs). Two well characterized ER stress inducers, tunicamycin (TM) and dithiothreitol (DTT), were used to induce “slow motion” and “fast motion” stresses, respectively. We show that the duration of JNK activation is critical for cell survival upon ER stress. TM-induced transient JNK activation is a protective event in CGNs and c17.2 NSCs via the phosphorylation of BAD, while DTT-induced prolonged JNK activation mediates pro-apoptotic signalling. In addition, we demonstrate that ER stress mediated MKP-1/DUSP1 expression regulates JNK activation kinetics. MKP-1 phosphorylation and protein expression level are differentially altered upon TM and DTT treatment. Increased MKP-1 protein stability via its phosphorylation on ser359 induced by TM accounts for transient JNK activation and the resulting cell survival in CGNs and c17.2 NSCs subjected to ER stress. These results suggest that MKP-1 plays a pivotal role in ER stress-induced cell apoptosis through regulating JNK-BAD signalling.