Joong‐Heui Cho scite author profile

Novel 2,5-dioxoimidazolidine-based conformationally constrained analogues of KN62 (1) were developed as P2X7 receptor (P2X7R) antagonists using a rigidification strategy of the tyrosine backbone of 1. SAR analysis of the 2,5-dioxoimidazolidine scaffold indicated that piperidine substitution at the N3 position and no substitution at N1 position were preferable. Further optimization of the substituents at the piperidine nitrogen and the spacer around the skeleton resulted in several superior antagonists to 1, including 1-adamantanecarbonyl analogue 21i (IC50 = 23 nM in ethidium uptake assay; IC50 = 14 nM in IL-1β ELISA assay) and (3-CF3-4-Cl)benzoyl analogue (-)-21w (54 nM in ethidium uptake assay; 9 nM in IL-1β ELISA assay), which was more potent than the corresponding (+) isomer. Compound 21w displayed potent inhibitory activity in an ex vivo model of LTP-induced pain signaling in the spinal cord and significant anti-inflammatory activity in in vivo models of carrageenan-induced paw edema and type II collagen-induced joint arthritis.

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Structure–Activity Relationships and Optimization of 3,5-Dichloropyridine Derivatives As Novel P2X₇ Receptor Antagonists

Lee

Cho

et al. 2012

J. Med. Chem.

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Screening of a library of chemical compounds showed that the dichloropyridine-based analogue 9 was a novel P2X(7) receptor antagonist. To optimize its activity, we assessed the structure-activity relationships (SAR) of 9, focusing on the hydrazide linker, the dichloropyridine skeleton, and the hydrophobic acyl (R(2)) group. We found that the hydrazide linker and the 3,5-disubstituted chlorides in the pyridine skeleton were critical for P2X(7) antagonistic activity and that the presence of hydrophobic polycycloalkyl groups at the R(2) position optimized antagonistic activity. In the EtBr uptake assay in hP2X(7)-expressing HEK293 cells, the optimized antagonists, 51 and 52, had IC(50) values of 4.9 and 13 nM, respectively. The antagonistic effects of 51 and 52 were paralleled by their ability to inhibit the release of the pro-inflammatory cytokine, IL-1β, by LPS/IFN-γ/BzATP stimulation of THP-1 cells (IC(50) = 1.3 and 9.2 nM, respectively). In addition, 52 strongly inhibited iNOS/COX-2 expression and NO production in THP-1 cells, further indicating that this compound blocks inflammatory signaling and suggesting that the dichloropyridine analogues may be useful in developing P2X(7) receptor targeted anti-inflammatory agents.

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Synthesis and structure–activity relationships of carboxylic acid derivatives of pyridoxal as P2X receptor antagonists

Jung

Cho

Lee

et al. 2013

Bioorganic & Medicinal Chemistry

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ChemInform Abstract: Design and Synthesis of 1,4‐Dihydropyridine Derivatives as BACE‐1 Inhibitors.

Choi

Cho

et al. 2010

ChemInform

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Joong‐Heui Cho

Design and synthesis of potent and selective P2X3 receptor antagonists derived from PPADS as potential pain modulators

Discovery of Novel 2,5-Dioxoimidazolidine-Based P2X₇Receptor Antagonists as Constrained Analogues of KN62

Structure–Activity Relationships and Optimization of 3,5-Dichloropyridine Derivatives As Novel P2X₇ Receptor Antagonists

Synthesis and structure–activity relationships of carboxylic acid derivatives of pyridoxal as P2X receptor antagonists

ChemInform Abstract: Design and Synthesis of 1,4‐Dihydropyridine Derivatives as BACE‐1 Inhibitors.

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Joong‐Heui Cho

Design and synthesis of potent and selective P2X3 receptor antagonists derived from PPADS as potential pain modulators

Discovery of Novel 2,5-Dioxoimidazolidine-Based P2X7Receptor Antagonists as Constrained Analogues of KN62

Structure–Activity Relationships and Optimization of 3,5-Dichloropyridine Derivatives As Novel P2X7 Receptor Antagonists

Synthesis and structure–activity relationships of carboxylic acid derivatives of pyridoxal as P2X receptor antagonists

ChemInform Abstract: Design and Synthesis of 1,4‐Dihydropyridine Derivatives as BACE‐1 Inhibitors.

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Product

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Discovery of Novel 2,5-Dioxoimidazolidine-Based P2X₇Receptor Antagonists as Constrained Analogues of KN62

Structure–Activity Relationships and Optimization of 3,5-Dichloropyridine Derivatives As Novel P2X₇ Receptor Antagonists