Robert Henningsen scite author profile

A heptadecapeptide was identified and purified from porcine brain tissue as a ligand for an orphan heterotrimeric GTP-binding protein (G protein)-coupled receptor (LC132) that is similar in sequence to opioid receptors. This peptide, orphanin FQ, has a primary structure reminiscent of that of opioid peptides. Nanomolar concentrations of orphanin FQ inhibited forskolin-stimulated adenylyl cyclase activity in cells transfected with LC132. This inhibitory activity was not affected by the addition of opioid ligands, nor did the peptide activate opioid receptors. Orphanin FQ bound to its receptor in a saturable manner and with high affinity. When injected intracerebroventricularly into mice, orphanin FQ caused a decrease in locomotor activity but did not induce analgesia in the hot-plate test. However, the peptide produced hyperalgesia in the tail-flick assay. Thus, orphanin FQ may act as a transmitter in the brain by modulating nociceptive and locomotor behavior.

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Contributions of Conserved Serine Residues to the Interactions of Ligands with Dopamine D2 Receptors

Cox

Henningsen

Spanoyannis

et al. 1992

Journal of Neurochemistry

127

174

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Four dopamine D2 receptor mutants were constructed, in each of which an alanine residue was substituted for one of four conserved serine residues, i.e., Ser-193, Ser-194, Ser-197, and Ser-391. Wild-type and mutant receptors were expressed transiently in COS-7 cells and stably in C6 glioma cells for analysis of ligand-receptor interactions. In radioligand binding assays, the affinity of D2 receptors for dopamine was decreased 50-fold by substitution of alanine for Ser-193, implicating this residue in the binding of dopamine. Each mutant had smaller decreases in affinity for one or more of the ligands tested, with no apparent relationship between the class of ligand and the pattern of mutation-induced changes in affinity, except that the potency of agonists was decreased by substitution for Ser-193. The potency of dopamine for inhibition of adenylyl cyclase was reduced substantially by substitution of alanine for Ser-193 or Ser-197. Mutation of Ser-194 led to a complete loss of efficacy for dopamine and p-tyramine, which would be consistent with an interaction between Ser-194 and the p-hydroxyl substituent of dopamine that is necessary for activation of the receptors to occur. Because mutation of the corresponding residues of beta 2-adrenergic receptors has very different consequences, we conclude that although the position of these serine residues is highly conserved among catecholamine receptors, and the residues as a group are important in ligand binding and activation of receptors by agonists, the function of each of the residues considered separately varies among catecholamine receptors.

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Primary structure and tissue distribution of the orphanin FQ precursor.

Nothacker

Reinscheid

Mansour

et al. 1996

Proc. Natl. Acad. Sci. U.S.A.

233

125

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The heptadecapeptide orphanin FQ (OFQ) is a recently discovered neuropeptide that exhibits structural features reminiscent of the opioid peptides and that is an endogenous ligand to a G protein-coupled receptor sequentially related to the opioid receptors. We have cloned both the human and rat cDNAs encoding the OFQ precursor proteins, to investigate whether the sequence relationships existing between the opioid and OFQ systems are also found at the polypeptide precursor level, in particular whether the OFQ precursor would encode several bioactive peptides as do the opioid precursors, and to study the regional distribution of OFQ sites of synthesis. The entire precursor protein displays structural homology to the opioid peptide precursors, espe-

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AF‐353, a novel, potent and orally bioavailable P2X3/P2X2/3 receptor antagonist

Gever

Soto

Henningsen

et al. 2010

British J Pharmacology

112

109

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Background and purpose: Purinoceptors containing the P2X3 subunit (P2X3 homotrimeric and P2X2/3 heterotrimeric) are members of the P2X family of ion channels gated by ATP and may participate in primary afferent sensitization in a variety of pain-related diseases. The current work describes the in vitro pharmacological characteristics of AF-353, a novel, orally bioavailable, highly potent and selective P2X3/P2X2/3 receptor antagonist. Experimental approach: The antagonistic potencies (pIC50) of AF-353 for rat and human P2X3 and human P2X2/3 receptors were determined using methods of radioligand binding, intracellular calcium flux and whole cell voltage-clamp electrophysiology. Key results: The pIC50 estimates for these receptors ranged from 7.3 to 8.5, while concentrations 300-fold higher had little or no effect on other P2X channels or on an assortment of receptors, enzymes and transporter proteins. In contrast to A-317491 and TNP-ATP, competition binding and intracellular calcium flux experiments suggested that AF-353 inhibits activation by ATP in a non-competitive fashion. Favourable pharmacokinetic parameters were observed in rat, with good oral bioavailability (%F = 32.9), reasonable half-life (t1/2 = 1.63 h) and plasma-free fraction (98.2% protein bound). Conclusions and implications:The combination of a favourable pharmacokinetic profile with the antagonist potency and selectivity for P2X3 and P2X2/3 receptors suggests that AF-353 is an excellent in vivo tool compound for study of these channels in animal models and demonstrates the feasibility of identifying and optimizing molecules into potential clinical candidates, and, ultimately, into a novel class of therapeutics for the treatment of pain-related disorders.

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Engineering Highly Potent and Selective Microproteins against Nav1.7 Sodium Channel for Treatment of Pain

Shcherbatko

Rossi

Foletti

et al. 2016

Journal of Biological Chemistry

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The prominent role of voltage-gated sodium channel 1.7 (Nav1.7) in nociception was revealed by remarkable human clinical and genetic evidence. Development of potent and subtypeselective inhibitors of this ion channel is crucial for obtaining therapeutically useful analgesic compounds. Microproteins isolated from animal venoms have been identified as promising therapeutic leads for ion channels, because they naturally evolved to be potent ion channel blockers. Here, we report the engineering of highly potent and selective inhibitors of the Nav1.7 channel based on tarantula ceratotoxin-1 (CcoTx1). We utilized a combination of directed evolution, saturation mutagenesis, chemical modification, and rational drug design to obtain higher potency and selectivity to the Nav1.7 channel. The resulting microproteins are highly potent (IC 50 to Nav1.7 of 2.5 nM) and selective. We achieved 80-and 20-fold selectivity over the closely related Nav1.2 and Nav1.6 channels, respectively, and the IC 50 on skeletal (Nav1.4) and cardiac (Nav1.5) sodium channels is above 3000 nM. The lead molecules have the potential for future clinical development as novel therapeutics in the treatment of pain.

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Structures That Delineate Orphanin FQ and Dynorphin A Pharmacological Selectivities

Reinscheid

Higelin

Henningsen

et al. 1998

Journal of Biological Chemistry

102

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Strict pharmacological selectivity in families of structurally related ligands and receptors may result from a key process in evolution aiming at increasing diversity in neurotransmission. An intriguing example of such exclusive specificity can be found in the newly discovered orphanin FQ (OFQ) system when it is compared with the opioid system. Both OFQ and its receptor share a high degree of sequence similarity to the opioid peptides and their corresponding receptors, respectively. However, OFQ does not activate opioid receptors, nor do the opioid peptides elicit biological activity at the OFQ receptor. We have therefore investigated the basis for the inherent selectivity of the primary structures of OFQ and dynorphin A, its closest counterpart. A series of truncated and/or chimeric peptides led to the conclusion that both peptides contain domains which establish their pharmacological selectivity. In the OFQ molecule we could delineate a domain that prevents its ability to activate the -opioid receptor by apparently repelling its binding. In both peptides the selectivity-generating domains are composed of single residues in key positions together with short stretches of amino acids which do not overlap. To prove this concept, we designed a universal agonist and found it active at both the OFQ receptor and the -opioid receptor. Our observations suggest that a coordinated mechanism of evolution has separated the orphanin FQ system from the opioid system.

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Biochemical characterization of the inhibition of the dengue virus RNA polymerase by beta-d-2′-ethynyl-7-deaza-adenosine triphosphate

et al. 2010

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Antidepressants Targeting the Serotonin Reuptake Transporter Act via a Competitive Mechanism

Apparsundaram

Stockdale²,

Henningsen³

et al. 2008

J Pharmacol Exp Ther

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Although several antidepressants (including fluoxetine, imipramine, citalopram, venlafaxine, and duloxetine) are known to inhibit the serotonin transporter (SERT), whether or not these molecules compete with 5-hydroxytryptamine (serotonin) (5-HT) for binding to SERT has remained controversial. We have performed radioligand competition binding experiments and found that all data can be fitted via a simple competitive interaction model, using Cheng-Prusoff analysis (Biochem Pharmacol 22: 3099 -3108, 1973 In accordance with the Cheng-Prusoff relationship for a competitive interaction, we observed that test compound concentrations associated with 50% maximal inhibition of radiotracer binding (IC 50 ) increased linearly with increasing radioligand concentration for all ligands: 5-HT, S-citalopram, R-citalopram, paroxetine, clomipramine, fluvoxamine, imipramine venlafaxine, duloxetine, indatraline, cocaine, and 2-␤-carboxy-3-␤-(4-iodophenyl)tropane. The equilibrium dissociation constant of 5-HT and SERT inhibitors were also derived using Scatchard analysis of the data set, and they were found to be comparable with the data obtained using the ChengPrusoff relationship. Our studies establish a reference framework that will contribute to ongoing efforts to understand ligand binding modes at SERT by demonstrating that 5-HT and the SERT inhibitors tested bind to the serotonin transporter in a competitive manner.

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