Robert H. Dodd

Anxiogenic effects of methyl-β-carboline-3-carboxylate in a light/dark choice situation

Doses of benzodiazepine, clorazepate, and also of the inverse agonist of the benzodiazepine receptor, beta-CCM, which failed to present sedative or postictal depressive effects, were at first determined in a free exploratory situation. Then, the effects of clorazepate dosed at 1.0, 2.0 and 4.0 mg/kg and beta-CCM dosed at 1.0 and 2.5 mg/kg were studied in the light/dark box choice procedure. Clorazepate tended to produce an increase of the time spent by mice in the lit box as well as of the number of transitions between the two boxes, whereas the dose of 1.0 mg/kg of beta-CCM had opposite effects. The benzodiazepine antagonist RO 15-1788 completely counteracted the anxiolytic effects of clorazepate dosed at 2.0 mg/kg and the anxiogenic effects of beta-CCM.

Evidence in Favor of a Calcium-Sensing Receptor in Arterial Endothelial Cells: Studies With Calindol and Calhex 231

Small increases in extracellular Ca2+ dilate isolated blood vessels. In the present study, the possibility that a vascular, extracellular Ca2+-sensing receptor (CaSR) could mediate these vasodilator actions was investigated. Novel ligands that interact with the CaSR were used in microelectrode recordings from rat isolated mesenteric and porcine coronary arteries. The major findings were that (1) raising extracellular Ca2+ or adding calindol, a CaSR agonist, produced concentration-dependent hyperpolarizations of vascular myocytes, actions attenuated by Calhex 231, a negative allosteric modulator of CaSR. (2) Calindol-induced hyperpolarizations were inhibited by the intermediate conductance, Ca2+-sensitive K+ (IKCa) channel inhibitors, TRAM-34, and TRAM-39. (3) The effects of calindol were not observed in the absence of endothelium. (4) CaSR mRNA and protein were present in rat mesenteric arteries and in porcine coronary artery endothelial cells. (5) CaSR and IKCa proteins were restricted to caveolin-poor membrane fractions. We conclude that activation of vascular endothelial CaSRs opens endothelial cell IKCa channels with subsequent myocyte hyperpolarization. The endothelial cell CaSR may have a physiological role in the control of arterial blood pressure.

PTH-independent regulation of blood calcium concentration by thecalcium-sensing receptor

Tight regulation of calcium levels is required for many critical biological functions. The Ca2+-sensing receptor (CaSR) expressed by parathyroid cells controls blood calcium concentration by regulating parathyroid hormone (PTH) secretion. However, CaSR is also expressed in other organs, such as the kidney, but the importance of extraparathyroid CaSR in calcium metabolism remains unknown. Here, we investigated the role of extraparathyroid CaSR using thyroparathyroidectomized, PTH-supplemented rats. Chronic inhibition of CaSR selectively increased renal tubular calcium absorption and blood calcium concentration independent of PTH secretion change and without altering intestinal calcium absorption. CaSR inhibition increased blood calcium concentration in animals pretreated with a bisphosphonate, indicating that the increase did not result from release of bone calcium. Kidney CaSR was expressed primarily in the thick ascending limb of the loop of Henle (TAL). As measured by in vitro microperfusion of cortical TAL, CaSR inhibitors increased calcium reabsorption and paracellular pathway permeability but did not change NaCl reabsorption. We conclude that CaSR is a direct determinant of blood calcium concentration, independent of PTH, and modulates renal tubular calcium transport in the TAL via the permeability of the paracellular pathway. These findings suggest that CaSR inhibitors may provide a new specific treatment for disorders related to impaired PTH secretion, such as primary hypoparathyroidism.

Methyl-β-carboline-induced convulsions are antagonized by Ro 15-1788 and by propyl-β-carboline

Abstract Injected i.v. into baboons, Ro 15-1788 (a benzodiazepine antagonist) and propyl-β-carboline-3-carboxylate did not modify either the behavior or the electroencephalogram at doses up to 2 mg/kg. Methyl-β-carboline-3-carboxylate is a potent convulsant at doses of 20 μg/kg in photosensitive baboons and 100 μg/kg in non-photosensitive baboons. These convulsive doses of methyl-β-carboline-3-carboxylate are effectively antagonized by 0.5 mg/kg of Ro 15-1788 and also by 2 mg/kg of propyl-β-carboline-3-carboxylate.

The expression and function of Ca2+‐sensing receptors in rat mesenteric artery; comparative studies using a model of type II diabetes

The extracellular calcium‐sensing receptor (CaR) in vascular endothelial cells activates endothelial intermediate‐conductance, calcium‐sensitive K+ channels (IKCa) indirectly leading to myocyte hyperpolarization. We determined whether CaR expression and function was modified in a rat model of type II diabetes.

Characterization of convulsions induced by methyl β-carboline-3-carboxylate in mice

The convulsive properties of methyl beta-carboline-3-carboxylate (beta-CCM) were evaluated in mice. When injected subcutaneously at a dose of 10 mg/kg beta-CCM induced convulsions in 75% of the mice with a median latency of 2.12 +/- 0.25 min. The CD50 was determined to be about 5 mg/kg. Electroencephalographic recordings showed that convulsions were brief (10 s), of cortical origin and propagating rapidly to the hippocampus. EEG alterations induced by low doses of beta-CCM lasted up to 1 h. The convulsive effect of beta-CCM was compared to that of PTZ. PTZ-induced convulsions occurred with a longer latency (9.26 +/- 1.33 min). beta-CCM and PTZ could act synergistically when injected in non-convulsive doses. When beta-CCM was injected 2-30 min before pentylenetetrazol (PTZ) there was a clear potentiation of the convulsive effect of PTZ. The convulsions induced by beta-CCM were blocked by diazepam (DZ) and by Ro 15-1788. In addition, beta-CCM reversed the sedative effect of a high dose of DZ for more than 30 min. Our results confirm that beta-CCM acts through the BZ receptor and indicate that the effects induced by a single dose of beta-CCM last more than 30 min.

Calindol, a Positive Allosteric Modulator of the Human Ca2+ Receptor, Activates an Extracellular Ligand-binding Domain-deleted Rhodopsin-like Seven-transmembrane Structure in the Absence of Ca2+

The extracellular calcium-sensing human Ca2+ receptor (hCaR),2 a member of the family-3 G-protein-coupled receptors (GPCR) possesses a large amino-terminal extracellular ligand-binding domain (ECD) in addition to a seven-transmembrane helical domain (7TMD) characteristic of all GPCRs. Two calcimimetic allosteric modulators, NPS R-568 and Calindol ((R)-2-{1-(1-naphthyl)ethyl-aminom-ethyl}indole), that bind the 7TMD of the hCaR have been reported to potentiate Ca2+ activation without independently activating the wild type receptor. Because agonists activate rhodopsin-like family-1 GPCRs by binding within the 7TMD, we examined the ability of Calindol, a novel chemically distinct calcimimetic, to activate a Ca2+ receptor construct (T903-Rhoc) in which the ECD and carboxyl-terminal tail have been deleted to produce a rhodopsin-like 7TMD. Here we report that although Calindol has little or no agonist activity in the absence of extracellular Ca2+ for the ECD-containing wild type or carboxyl-terminal deleted receptors, it acts as a strong agonist of the T903-Rhoc. In addition, Ca2+ alone displays little or no agonist activity for the hCaR 7TMD, but potentiates the activation by Calindol. We confirm that activation of Ca2+ T903-Rhoc by Calindol truly the is independent using in vitro reconstitution with purified Gq. These findings demonstrate distinct allosteric linkages between Ca2+ site(s) in the ECD and 7TMD and the 7TMD site(s) for calcimimetics.

Molecular determinants of non-competitive antagonist binding to the mouse GPRC6A receptor

GPRC6A displays high sequence homology to the Ca2+-sensing receptor (CaSR). Here we report that the calcimimetic Calindol and the calcilytic NPS2143 antagonize increases in inositol phosphate elicited by L-ornithine-induced activation of mouse GPRC6A after transient coexpression with Galpha(qG66D) in HEK293 cells. The calcilytic Calhex 231 did not modulate this response. A three-dimensional model of the GPRC6A seven transmembrane domains (TMs) was constructed. It was used to identify seven residues strictly conserved within the CaSR and GPRC6A allosteric binding pockets, and previously demonstrated to interact with calcilytics or calcimimetics. The mutations F666A(3.32), F670A(3.36), W797A(6.48) caused a loss of L-ornithine ability to activate GPRC6A mutants. The F800A(6.51) mutant was not implicated in either Calindol or NPS 2143 recognition. The E816Q(7.39) mutation led to a loss of Calindol antagonist activity but was without effect on NPS2143 inhibitory response. In summary, these data suggest that Calindol is primarily anchored through an H-bond to E816(7.39) in TM7 and highlight important local differences at the level of the CaSR and GPRC6A allosteric binding pockets. We have identified the first antagonists of GPRC6A that could represent new tools to analyze GPRC6A functions and serve as chemical leads for the development of more specific modulators.

One-Pot Double Suzuki−Miyaura Couplings: Rapid Access to Nonsymmetrical Tri(hetero)aryl Derivatives

We describe a one-pot, simultaneous Suzuki-Miyaura cross-coupling of two different aryl boronic acids with symmetrical dibromo aryl and heterocyclic substrates to give as major products the unsymmetrical disubstituted tri(hetero)aryl derivatives. Yields of unsymmetrical dicoupled products were generally in the 52-75% range. This methodology is particularly suited to the generation of chemical libraries, as well as to the synthesis of biologically active or natural product analogs.

Stereoselective Rhodium-Catalyzed Imination of Sulfides

The preparation of optically active sulfilimines via the catalytic diastereoselective imination of sulfides using a chiral nitrene is described. Excellent yields up to 97% and good diastereoselectivities up to 96% have been obtained. Oxidation of the sulfilimines then stereospecifically affords the corresponding sulfoximines with very good yields in the 88-96% range.