Enantioselective Transformations in the Synthesis of Therapeutic Agents

Abstract: The proportion of approved chiral drugs and drug candidates under medical studies has surged dramatically over the past two decades. As a consequence, the efficient synthesis of enantiopure pharmaceuticals or their synthetic intermediates poses a profound challenge to medicinal and process chemists. The significant advancement in asymmetric catalysis has provided an effective and reliable solution to this challenge. The successful application of transition metal catalysis, organocatalysis, and biocatalysis to … Show more

“…Chirality is closely related to the origin of life and occupies a significant position in our daily lives. 1 Asymmetric catalysis is one successful chiral amplification route among numerous chiral synthesis routes, and represents the use of trace amounts of chiral catalysts to obtain non-stoichiometric enantiomers in high yields. 2,3 Photoredox reactions in asymmetric catalysis bring new opportunities for developing highly efficient green synthesis of molecules with high stereoenantioselectivity.…”

Lead-halide perovskite quantum dots embedded in mesoporous silica as heterogeneous photocatalysts combined with organocatalysts for asymmetric catalysis

“…Chirality is closely related to the origin of life and occupies a significant position in our daily lives. 1 Asymmetric catalysis is one successful chiral amplification route among numerous chiral synthesis routes, and represents the use of trace amounts of chiral catalysts to obtain non-stoichiometric enantiomers in high yields. 2,3 Photoredox reactions in asymmetric catalysis bring new opportunities for developing highly efficient green synthesis of molecules with high stereoenantioselectivity.…”

Lead-halide perovskite quantum dots embedded in mesoporous silica as heterogeneous photocatalysts combined with organocatalysts for asymmetric catalysis

“…Building upon these principles and the growing impact of organocatalysis in the pharmaceutical industry, 38–42 in this manuscript an effective synthetic strategy for the preparation of functionalised β-hydroxy-β-pyrazolone amides in high dr and er (up to >95 : 5 dr, >99 : 1 er) is described. Given that nitrogen-containing heterocycles are incorporated into an array of biologically relevant compounds, 43–46 and with pyrazole derivatives a prevalent heterocycle of widespread relevance, 47–52 the generation of catalytic enantioselective methods that would lead to chiral pyrazolone heterocycle derivatives was targeted.…”

De-epimerizing DyKAT of β-lactones generated by isothiourea-catalysed enantioselective [2 + 2] cycloaddition

“…Drug development has transitioned away from the “flatland” of therapeutic agents that were largely devoid of stereochemical features to modern drug discovery and manufacturing, where specific enantiomers and diastereomers have to be synthesized in high stereochemical purity. , It is, for example, well established that opposite enantiomers of chiral drugs may have greatly different biological activities whereby one enantiomer has desired therapeutic properties, but the other may have lower activity or even undesired toxic effects. The importance of enantioselective synthesis in the discovery and development of therapeutic agents was recognized, for example, by the award of the 2001 Nobel Prize in Chemistry to Knowles, Noyori, and Sharpless, who developed some the earliest and most important enantioselective methods while working in a combination of industrial and academic settings …”

Finding Relevant Retrosynthetic Disconnections for Stereocontrolled Reactions