Kamonchanok Sansuk scite author profile

From a series of small fragments that was designed to probe the histamine H(4) receptor (H(4)R), we previously described quinoxaline-containing fragments that were grown into high affinity H(4)R ligands in a process that was guided by pharmacophore modeling. With a scaffold hopping exercise and using the same in silico models, we now report the identification and optimization of a series of quinazoline-containing H(4)R compounds. This approach led to the discovery of 6-chloro-N-(furan-3-ylmethyl)2-(4-methylpiperazin-1-yl)quinazolin-4-amine (VUF10499, 54) and 6-chloro-2-(4-methylpiperazin-1-yl)-N-(thiophen-2-ylmethyl)quinazolin-4-amine (VUF10497, 55) as potent human H(4)R inverse agonists (pK(i) = 8.12 and 7.57, respectively). Interestingly, both compounds also possess considerable affinity for the human histamine H(1) receptor (H(1)R) and therefore represent a novel class of dual action H(1)R/H(4)R ligands, a profile that potentially leads to added therapeutic benefit. Compounds from this novel series of quinazolines are antagonists at the rat H(4)R and were found to possess anti-inflammatory properties in vivo in the rat.

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β‐Arrestin 2 dependence of δ opioid receptor agonists is correlated with alcohol intake

Chiang

Sansuk

Rijn

2015

British J Pharmacology

106

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BACKGROUND AND PURPOSEδ Opioid receptor agonists are being developed as potential treatments for depression and alcohol use disorders. This is particularly interesting as depression is frequently co-morbid with alcohol use disorders. Yet we have previously shown that δ receptor agonists range widely in their ability to modulate alcohol intake; certain δ receptor agonists actually increase alcohol consumption in mice. We propose that variations in β-arrestin 2 recruitment contribute to the differential behavioural profile of δ receptor agonists. EXPERIMENTAL APPROACHWe used three diarylmethylpiperazine-based non-peptidic δ receptor selective agonists (SNC80, SNC162 and ARM390) and three structurally diverse δ receptor agonists (TAN-67, KNT127 and NIH11082). We tested these agonists in cAMP and β-arrestin 2 recruitment assays and a behavioural assay of alcohol intake in male C57BL/6 mice. We used β-arrestin 2 knockout mice and a model of depression-like behaviour to further study the role of β-arrestin 2 in δ receptor pharmacology. KEY RESULTSAll six tested δ receptor agonists were full agonists in the cAMP assay but displayed distinct β-arrestin 2 recruitment efficacy. The efficacy of δ receptor agonists to recruit β-arrestin 2 positively correlated with their ability to increase alcohol intake (P < 0.01). The effects of the very efficacious recruiter SNC80 on alcohol intake, alcohol place preference and depression-like behaviour were β-arrestin 2-dependent. CONCLUSIONS AND IMPLICATIONSOur finding that δ receptor agonists that strongly recruit β-arrestin 2 can increase alcohol intake carries important ramifications for drug development of δ receptor agonists for treatment of alcohol use disorders and depressive disorders.

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Oligomerization of Recombinant and Endogenously Expressed Human Histamine H₄Receptors

Rijn¹,

Chazot²,

Shenton³

et al. 2006

Mol Pharmacol

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In this study, we report the homo-and hetero-oligomerization of the human histamine H 4 R by both biochemical (Western blot and immobilized metal affinity chromatography) and biophysical [bioluminescence resonance energy transfer and time-resolved fluorescence resonance energy transfer (tr-FRET)] techniques. The H 4 R receptor is the most recently discovered member of the histamine family of G-protein-coupled receptors. Using specific polyclonal antibodies raised against the C-terminal tail of the H 4 R, we demonstrate the presence of H 4 R oligomers in human embryonic kidney 293 and COS-7 cells heterologously overexpressing H 4 Rs and putative native H 4 R oligomers in human phytohaemagglutinin blasts endogenously expressing H 4 Rs. Moreover, we show that H 4 R homo-oligomers are formed constitutively, are formed at low receptor densities (300 fmol/mg of protein), and are present at the cell surface, as detected by tr-FRET. The formation of these oligomers is independent of N-glycosylation and is not modulated by H 4 R ligands, covering the full spectrum of agonists, neutral antagonists, and inverse agonists. Although we show H 4 R homo-oligomer formation at physiological expression levels, the detection of H 1 R-H 4 R hetero-oligomers was achieved only at higher H 1 R expression levels and are most likely not physiologically relevant.

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