1. 9-Butyl-Harmol Exerts Antiviral Activity against Newcastle Disease Virus through Targeting GSK-3Ś and HSP90Ś.
- Author
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Chongyang Wang, Ting Wang, Ruochen Hu, Liuyuan Duan, Qili Hou, Yu Han, Jiangkun Dai, Wenbin Wang, Shanhui Ren, Haijin Liu, Xinglong Wang, Sa Xiao, Na Li, Junru Wang, and Zengqi Yang
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ANTIVIRAL agents , *NEWCASTLE disease virus , *PESTE des petits ruminants , *CANINE distemper virus , *HEAT shock proteins , *PARAMYXOVIRUSES - Abstract
The paramyxoviruses represent a large family of human and animal pathogens that cause significant health and economic burdens worldwide. However, there are no available drugs against the virus. b-carboline alkaloids are a family of naturally occurring and synthetic products with outstanding antiviral activities. Here, we examined the antiviral effect of a series of b-carboline derivatives against several paramyxoviruses, including Newcastle disease virus (NDV), peste des petits ruminants virus (PPRV), and canine distemper virus (CDV). Among these derivatives, 9-butyl-harmol was identi- fied as an effective antiviral agent against these paramyxoviruses. Further, a genomewide transcriptome analysis in combination with target validation strategies reveals a unique antiviral mechanism of 9-butyl-harmol through the targeting of GSK-3 b and HSP90 b. On one hand, NDV infection blocks the Wnt/ b-catenin pathway to suppress the host immune response. 9-butyl-harmol targeting GSK-3 b dramatically activates the Wnt/ b-catenin pathway, which results in the boosting of a robust immune response. On the other hand, NDV proliferation depends on the activity of HSP90. The L protein, but not the NP protein or the P protein, is proven to be a client protein of HSP90 b, rather than HSP90 a. 9-butyl-harmol targeting HSP90 b decreases the stability of the NDV L protein. Our findings identify 9-butyl-harmol as a potential antiviral agent, provide mechanistic insights into the antiviral mechanism of 9-butyl-harmol, and illustrate the role of b-catenin and HSP90 during NDV infection. IMPORTANCE Paramyxoviruses cause devastating impacts on health and the economy worldwide. However, there are no suitable drugs with which to counteract the viruses. We determined that 9-butyl-harmol could serve as a potential antiviral agent against paramyxoviruses. Until now, the antiviral mechanism of b-carboline derivatives against RNA viruses has rarely been studied. Here, we found that 9-butyl-harmol exerts dual mechanisms of antiviral action, with its antiviral activities being mediated by two targets: GSK-3 b and HSP90 b. Correspondingly, the interaction between NDV infection and the Wnt/ b-catenin pathway or HSP90 is demonstrated in this study. Taken together, our findings shed light on the development of antiviral agents against paramyxoviruses, based on the b-carboline scaffold. These results present mechanistic insights into the polypharmacology of 9-butyl-harmol. Understanding this mechanism also deepens the host-virus interaction and reveals new drug targets for anti-paramyxoviruses. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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