Cs2CO3‐Promoted Alkylation of 3‐Cyano‐2(1H)‐Pyridones: Anticancer Evaluation and Molecular Docking-Reference-Cited by-同舟云学术

Cs₂CO₃‐Promoted Alkylation of 3‐Cyano‐2(1H)‐Pyridones: Anticancer Evaluation and Molecular Docking

Published:2024-08-02 Issue: Volume: Page:
ISSN:2192-6506
Container-title:ChemPlusChem
language:en
Short-container-title:ChemPlusChem

Author:

Salamanca‐Perdigón Kevin¹,Hurtado‐Rodríguez Diana¹,Portilla Jaime²^ORCID,Iriepa Isabel³⁴,Rojas Hugo¹^ORCID,Becerra Diana¹^ORCID,Castillo Juan‐Carlos¹^ORCID

Affiliation:

1. Escuela de Ciencias Químicas Universidad Pedagógica y Tecnológica de Colombia Tunja 150003 Colombia

2. Bioorganic Compounds Research Group Department of Chemistry Universidad de los Andes Carrera 1 No. 18 A-10 Bogota 111711 Colombia

3. Departamento de Química Orgánica y Química Inorgánica Ctra. Madrid-Barcelona Universidad de Alcalá, Km. 33, 6 28871 Madrid Spain

4. Institute of Chemical Research Andrés M. del Río Universidad de Alcalá Alcalá de Henares 28805 Madrid Spain

Abstract

AbstractHerein, a Cs2CO3‐promoted N‐alkylation of 3‐cyano‐2(1H)‐pyridones containing alkyl groups with diverse alkyl halides to synthesize N‐alkyl‐2‐pyridones over O‐alkylpyridines is reported. The use of alkyl dihalides resulted in complex mixtures of N‐ and O‐alkylated products. The primary factor influencing regioselectivity in these reactions is the electronic effects of substituents on the 2(1H)‐pyridone ring, as evidenced by the preferential formation of O‐alkylpyridines upon the introduction of aryl groups. Remarkably, we efficiently employed CuAAC and Ti(Oi‐Pr)4‐catalyzed amidation reactions to functionalize N‐alkyl‐2‐pyridones containing propargyl and ester groups, leading to the synthesis of 1,2,3‐triazoles and amides, respectively. Moreover, O‐alkylpyridines 10 b and 10 d displayed remarkable selectivity toward the A‐498 renal cancer cell line with growth inhibition percentages (%GI) of 54.75 and 67.64, respectively. The binding modes of compounds 10 b and 10 d to the PIM‐1 kinase enzyme were determined through molecular docking studies.

Publisher

Wiley

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