Design, Synthesis, and Biological Activity Studies of Aldisine Derivatives Containing Acylhydrazone Moiety

Abstract

Marine natural products have gained increasing interest in drug research and development because of their unique structures, diverse biological activities, and novel mechanisms of action. Using the antiviral alkaloid aldisine as the lead compound and utilizing the hydrogen bond effects common in drug design, novel derivatives containing an acylhydrazone moiety were designed and synthesized. The structures of these derivatives were systematically analyzed using variable-temperature ¹H-NMR. Antiviral activity tests showed that most derivatives were active against tobacco mosaic virus (TMV), with some compounds outperforming the commercial antiviral drug ribavirin. Notably, 3-methylphenyl- and 3-pyridyl-substituted acylhydrazones 5-6 and 5-12 displayed activity comparable to ningnanmycin, one of the most effective commercial antiviral agents. Molecular docking results indicated that incorporating the acylhydrazone moiety enhances hydrogen bonding between the molecules and target proteins. Additionally, we evaluated the fungicidal and larvicidal activities of these derivatives. Most exhibited significant larvicidal effects against Mythimna separata and Plutella xylostella, along with broad-spectrum fungicidal activity. Four related compounds (5-11, 5-12, 5-13, and 5-17) exhibited high fungicidal activities, and another four compounds (2-4, 5-6, 5-13, and 5-17) exhibited high larvicidal activities.