👤 Rajiv K Tonk

Alzheimer's disease poses a serious global health challenge, and there is an urgent need for novel therapeutic agents, as existing drugs have limited efficacy and notable adverse effects. Chromenones, known for their diverse biological activities, have emerged as promising drug candidates for AD treatment due to their capacity to target multiple enzymes. In this study, investigated the chromenone derivative 8-methoxypsoralen (8-MOP) as a potential multi-target inhibitor of key AD targets, highlighting the importance of the scaffold in target-based drug design. 8-MOP, a phytochemical extracted and isolated from parsley leaves, was utilized to synthesize new derivatives, which were then screened against enzymes involved in AD progression (BACE1, AChE, BuChE) and targets involved in oxidative pathways (DPPH, NO). In support of the Among the synthesized compounds, Show less

Alzheimer's disease (AD) presents a growing global health concern. In recent decades, natural and synthetic chromenone have emerged as promising drug candidates due to their multi-target potential. Natural chromenone, quercetin, scopoletin, esculetin, coumestrol, umbelliferone, bergapten, and methoxsalen (xanthotoxin), and synthetic chromenone hybrids comprising structures like acridine, 4-aminophenyl, 3-arylcoumarins, quinoline, 1,3,4-oxadiazole, 1,2,3-triazole, and tacrine, have been explored for their potential to combat AD. Key reactions used for synthesis of chromenone hybrids include Perkin and Pechmann condensation. The activity of chromenone hybrids has been reported against several drug targets, including AChE, BuChE, BACE-1, and MAO-A/B. This review comprehensively explores natural, semisynthetic, and synthetic chromenone, elucidating their synthetic routes, possible mode of action/drug targets and structure-activity relationships (SAR). The acquired knowledge provides valuable insights for the development of new chromenone hybrids against AD. Show less