Béatrice Chapelain scite author profile

Two compounds, obtained by random screening, and displaying micromolar activities on the mu opiate receptor were used as starting points for optimization. In that work, the traditional concept of the activity of a compound (related to one or a few targets) was extended to the comprehensive pharmacological profile of that compound on more than 70 receptors, transporters, and channels relevant to a CNS-oriented project. Using the two complementary design strategies based on two similarity concepts described in the previous paper, we have obtained analogues with IC(50) values ranging between 0.9 nM and a few micromolar on the mu receptor and displaying qualitatively different profiles. We discuss here, both on a case-by-case basis and from a statistical standpoint, the pharmacological profiles in light of the two similarity concepts.

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Up‐regulation of [³H]‐des‐Arg₁₀‐kallidin binding to the bradykinin B₁ receptor by interleukin‐1β in isolated smooth muscle cells: correlation with B₁ agonist‐induced PGI₂ production

Galizzi¹,

Bodinier²,

Chapelain³

et al. 1994

British J Pharmacology

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Receptor Binding Profile of Otilinium Bromide

Evangelista

Giachetti

Chapelain

et al. 1998

Pharmacological Research

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Interleukin-1 impairs both vascular contraction and relaxation in rabbit isolated aorta

Robert

Chapelain²,

Jean³

et al. 1992

Biochemical and Biophysical Research Communications

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From Hit to Lead. Combining Two Complementary Methods for Focused Library Design. Application to μ Opiate Ligands

et al. 2001

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Compound 1 obtained by random screening and displaying a micromolar activity on the mu opiate receptor was chosen as a starting point for optimization. Two complementary concepts of similarity were used for the design of analogues and compared. These are based, respectively, on a computer-aided comparison of pharmacophoric patterns and on topological similarity. The structure-activity relationships are discussed in light of both similarity concepts. Compound 40, an N-methyl-3-(4-oxo-1-phenyl-1,3,8-triazaspiro[4.5]decyl)acetamide derivative, designed by combining the structure-activity relationships enlightened by each method, has a subnanomolar affinity for mu (h) receptor (IC(50) = 0.9 nM). It is a promising lead, allowing the design of a new series of analogues substituted at the N-3 of the spirocycle moiety.

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