Design and Synthesis of Quinolizidine Derivatives as Influenza Virus and HIV-1 Inhibitors

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Author(s): Zhao Dang, Lei Zhu, Lan Xie, Kuo-Hsiung Lee, Faisal Malik, Zhijun Li, Li Huang*, Chin-Ho Chen*

Journal Name: Current Medicinal Chemistry

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Background: We have previously reported that a quinolizidine natural product, aloperine, and its analogs can inhibit influenza virus and/or HIV-1 at low µM concentrations.

Objective: The main goal of this study was to further optimize aloperine for improved anti–influenza virus activity.

Methods: Structural modifications have been focused on the N12 position of aloperine scaffold. Conventional chemical synthesis was used to obtain derivatives with improved antiviral activities. The anti-HIV and anti-influenza virus activities of the synthesized compounds were determined using an MT4 cell-based HIV-1 replication assay and an anti-influenza virus infection of MDCK cell assay, respectively.

Results: Aloperine derivatives can be classified into three activity groups: those that exhibit anti-HIV activity only, anti– influenza virus only, or activity against both viruses. Aloperine optimized for potent anti-influenza activity often lost antiHIV-1 activity, and vice versa. Compound 19 inhibited influenza virus PR8 replication with an IC50 of 0.091 µM, which is approximately 160- and 60-fold more potent than aloperine and the previously reported aloperine derivative compound 3, respectively.

Conclusion: The data suggest that aloperine is a privileged scaffold that can be modified to become a selective antiviral compound with markedly improved potency against influenza virus or HIV-1.

Keywords: Aloperine, Privileged scaffold, Influenza A virus, HIV-1.

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(E-pub Ahead of Print)
DOI: 10.2174/0929867328666201229121802
Price: $95

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