Introduction: Compelling evidence identified D3 dopamine receptor (D3R) as a suitable target for therapeutic intervention on CNS-associated disorders, cancer, and other conditions. Several efforts have been made toward developing potent and selective ligands for modulating signaling pathways operated by these GPCRs. The rational design of D3R ligands endowed with a pharmacologically relevant profile has traditionally not encountered much support from computational methods due to a very limited knowledge of the receptor structure and of its conformational dynamics. Recent progress in structural biology will change this state of affairs in the next decade. Areas covered: This review provides an overview of the recent (2014-2020) patent literature on novel classes of D3R ligands developed within the framework of CNS-related diseases, cancer, and additional conditions. When possible, an in-depth description of both in vitro and in vivo generated data is presented. New therapeutic applications of known molecules with activity at D3R are discussed. Expert opinion: Building on current knowledge, future D3R-focused drug discovery campaigns will be propelled by a combination of unprecedented availability of structural information with advanced computational and analytical methods. The design of D3R ligands with the sought activity, efficacy, and selectivity profile will become increasingly more streamlined.

Dopamine D3 receptor ligands: a patent review (2014-2020)

Rita Maria Concetta Di Martino
Primo
;
2022-01-01

Abstract

Introduction: Compelling evidence identified D3 dopamine receptor (D3R) as a suitable target for therapeutic intervention on CNS-associated disorders, cancer, and other conditions. Several efforts have been made toward developing potent and selective ligands for modulating signaling pathways operated by these GPCRs. The rational design of D3R ligands endowed with a pharmacologically relevant profile has traditionally not encountered much support from computational methods due to a very limited knowledge of the receptor structure and of its conformational dynamics. Recent progress in structural biology will change this state of affairs in the next decade. Areas covered: This review provides an overview of the recent (2014-2020) patent literature on novel classes of D3R ligands developed within the framework of CNS-related diseases, cancer, and additional conditions. When possible, an in-depth description of both in vitro and in vivo generated data is presented. New therapeutic applications of known molecules with activity at D3R are discussed. Expert opinion: Building on current knowledge, future D3R-focused drug discovery campaigns will be propelled by a combination of unprecedented availability of structural information with advanced computational and analytical methods. The design of D3R ligands with the sought activity, efficacy, and selectivity profile will become increasingly more streamlined.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11579/152380
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