The first systematic direct diversification
of a complex natural
product by metal-catalyzed N–H functionalization was carried
out. A new series of N-(hetero)aryl analogues (1–32) of the natural anti-Alzheimer’s
disease drug huperzine A (HPA) was prepared via palladium-catalyzed
Buchwald–Hartwig cross-coupling reactions of HPA with various
aryl bromides in good yields. Most of the N-aryl-huperzine
A (N-aryl-HPA) analogues showed good acetylcholinesterase
(AChE) inhibitory activity in in vitro experiments.
Three arylated huperzine A analogues (14, 19, and 30) exhibited stronger anti-AChE activity than
HPA. The 5-methoxy-2-pyridyl analogue (30) displayed
the most potent AChE inhibition activity, with an IC50 value
of 1.5 μM, which was 7.6-fold more active than HPA. Compound 30 also exhibited better neuroprotective activity for H2O2-induced damage in SH-SY5Y cells than HPA. Structure–activity
relationship analysis suggested that the electron density of the installed
aromatic ring or heteroaromatic ring played a significant role in
inducing the AChE inhibition activity. Overall, compound 30 showed the advantages of easy synthesis, high potency and selectivity,
and improved neuroprotection, making it a potential huperzine-type
lead compound for Alzheimer’s disease drug development.
Palladium/BuAd
2
P efficiently catalyzed the direct α-arylation
of ketone in the anti-Alzheimer’s disease drug donepezil, leading
to 15 aryldonepezil analogues exhibiting high selective inhibition
of acetylcholinesterase (AChE). The cell-based assays revealed that
the 3-methylpridinyl analogue (
12
) shows significantly
lower toxicity compared to donepezil and remarkable neuroprotective
activity against H
2
O
2
-induced damage in SH-SY5Y
cells. Docking results of compound
12
also interpreted
the possible mechanism of the selective inhibition between AChE and
butyrylcholinesterase (BuChE).
The direct modification of structurally complex natural product dehydroepiandrosterone (DHEA) through Iron-catalyzed direct hydroamination of DHEA with various nitro(hetero)arenes was carried out to afford 5α-arylamino-DHEAs (1-25) in good yields (53-72%). Though as a radical reaction, it features high stereoselectivity, and only the 5α-substituted derivatives were produced. The in vitro antiproliferative activity of these synthesized compounds against the human breast cancer MCF-7 cell was evaluated, showing that most of DHEA analogues possessed the moderate cytotoxic activity. The preliminary structure-activity relationship analysis revealed that the electron-withdrawing groups installed at the para-position of arylamine ring had a great contribution to the improvement of the DHEA's cytotoxic potency. Among them, (4-trifluoromethylaniline)-DHEA (4) displayed the most potent cytotoxicity, with an IC50 value of 19.3 μM, which was 2.3-fold more active than DHEA.
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