cay-10471 and Asthma

cay-10471 has been researched along with Asthma* in 2 studies

Reviews

1 review(s) available for cay-10471 and Asthma

Article	Year
Update on the development of antagonists of chemoattractant receptor-homologous molecule expressed on Th2 cells (CRTH2). From lead optimization to clinical proof-of-concept in asthma and allergic rhinitis. Journal of medicinal chemistry, 2012, Apr-12, Volume: 55, Issue:7 Topics: Acetates; Animals; Asthma; Aza Compounds; Carbazoles; Clinical Trials as Topic; Humans; Indoleacetic Acids; Pyrazoles; Pyrimidines; Pyrroles; Receptors, Immunologic; Receptors, Prostaglandin; Rhinitis, Allergic, Perennial; Rhinitis, Allergic, Seasonal; Sulfonamides; Th2 Cells; Thiazoles	2012

Article

Year

Update on the development of antagonists of chemoattractant receptor-homologous molecule expressed on Th2 cells (CRTH2). From lead optimization to clinical proof-of-concept in asthma and allergic rhinitis.

Journal of medicinal chemistry, 2012, Apr-12, Volume: 55, Issue:7

Topics: Acetates; Animals; Asthma; Aza Compounds; Carbazoles; Clinical Trials as Topic; Humans; Indoleacetic Acids; Pyrazoles; Pyrimidines; Pyrroles; Receptors, Immunologic; Receptors, Prostaglandin; Rhinitis, Allergic, Perennial; Rhinitis, Allergic, Seasonal; Sulfonamides; Th2 Cells; Thiazoles

2012

Other Studies

1 other study(ies) available for cay-10471 and Asthma

Article	Year
Same Target, Different Therapeutic Outcomes: The Case of CAY10471 and Fevipiprant on CRTh2 Receptor in Treatment of Allergic Rhinitis and Asthma. Combinatorial chemistry & high throughput screening, 2019, Volume: 22, Issue:8 Prostaglandin 2 (PGD2) mediated signalling of Chemoattractant Receptorhomologous molecule expressed on Th2 cells (CRTh2) receptor has been implicated in the recruitment of inflammatory cells. This explains the design of highly selective compounds with innate abilities to antagonize PGD2-CRTh2 interactions and prevent pro-inflammatory allergies such as rhinitis and uncontrolled asthma. The development of PGD2-competitive CRTh2 binders; CAY10471 and Fevipiprant represent remarkable therapeutic progress even though they elicit disparate pharmacological propensities despite utilizing the same binding pocket.. In this study, we seek to pinpoint the underlying phenomenon associated with differential CRTh2 therapeutic inhibition by CAY10471 and Fevipiprant using membraneembedded molecular dynamics simulation. Findings revealed that the common carboxylate group of both compounds elicited strong attractive charges with active site Arg170 and Lys210. Interestingly, a distinctive feature was the steady occurrence of high-affinity salt-bridges and an Arg170-mediated pi-cation interaction with the tetrahydrocarbozole ring of CAY10471. Further investigations into the active site motions of both ligands revealed that CAY10471 was relatively more stable. Comparative binding analyses also revealed that CAY10471 exhibited higher ΔG, indicating the cruciality of the ring stabilization role mediated by Arg170. Moreover, conformational analyses revealed that the inhibitory activity of CAY10471 was more prominent on CRTh2 compared to Fevipiprant.. These findings could further advance the strategic design of novel CRTh2 binders in the treatment of diseases related to pro-inflammatory allergies. Topics: Asthma; Carbazoles; High-Throughput Screening Assays; Humans; Indoleacetic Acids; Molecular Dynamics Simulation; Molecular Structure; Pyridines; Receptors, Immunologic; Receptors, Prostaglandin; Rhinitis, Allergic; Sulfonamides; Treatment Outcome	2019

Article

Year

Same Target, Different Therapeutic Outcomes: The Case of CAY10471 and Fevipiprant on CRTh2 Receptor in Treatment of Allergic Rhinitis and Asthma.

Combinatorial chemistry & high throughput screening, 2019, Volume: 22, Issue:8

Prostaglandin 2 (PGD2) mediated signalling of Chemoattractant Receptorhomologous molecule expressed on Th2 cells (CRTh2) receptor has been implicated in the recruitment of inflammatory cells. This explains the design of highly selective compounds with innate abilities to antagonize PGD2-CRTh2 interactions and prevent pro-inflammatory allergies such as rhinitis and uncontrolled asthma. The development of PGD2-competitive CRTh2 binders; CAY10471 and Fevipiprant represent remarkable therapeutic progress even though they elicit disparate pharmacological propensities despite utilizing the same binding pocket.. In this study, we seek to pinpoint the underlying phenomenon associated with differential CRTh2 therapeutic inhibition by CAY10471 and Fevipiprant using membraneembedded molecular dynamics simulation. Findings revealed that the common carboxylate group of both compounds elicited strong attractive charges with active site Arg170 and Lys210. Interestingly, a distinctive feature was the steady occurrence of high-affinity salt-bridges and an Arg170-mediated pi-cation interaction with the tetrahydrocarbozole ring of CAY10471. Further investigations into the active site motions of both ligands revealed that CAY10471 was relatively more stable. Comparative binding analyses also revealed that CAY10471 exhibited higher ΔG, indicating the cruciality of the ring stabilization role mediated by Arg170. Moreover, conformational analyses revealed that the inhibitory activity of CAY10471 was more prominent on CRTh2 compared to Fevipiprant.. These findings could further advance the strategic design of novel CRTh2 binders in the treatment of diseases related to pro-inflammatory allergies.

Topics: Asthma; Carbazoles; High-Throughput Screening Assays; Humans; Indoleacetic Acids; Molecular Dynamics Simulation; Molecular Structure; Pyridines; Receptors, Immunologic; Receptors, Prostaglandin; Rhinitis, Allergic; Sulfonamides; Treatment Outcome

2019