Virology Journal (Mar 2008)

Drug 9AA reactivates p21/Waf1 and Inhibits HIV-1 progeny formation

  • Dubrovsky Larisa,
  • Dowd Cynthia S,
  • Klase Zachary,
  • Castro Iris,
  • Zweier Lynnsey,
  • Pedati Caitlin,
  • Kehn-Hall Kylene,
  • Wu Weilin,
  • Bukrinsky Michael,
  • Kashanchi Fatah

DOI
https://doi.org/10.1186/1743-422X-5-41
Journal volume & issue
Vol. 5, no. 1
p. 41

Abstract

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Abstract It has been demonstrated that the p53 pathway plays an important role in HIV-1 infection. Previous work from our lab has established a model demonstrating how p53 could become inactivated in HIV-1 infected cells through binding to Tat. Subsequently, p53 was inactivated and lost its ability to transactivate its downstream target gene p21/waf1. P21/waf1 is a well-known cdk inhibitor (CKI) that can lead to cell cycle arrest upon DNA damage. Most recently, the p21/waf1 function was further investigated as a molecular barrier for HIV-1 infection of stem cells. Therefore, we reason that the restoration of the p53 and p21/waf1 pathways could be a possible theraputical arsenal for combating HIV-1 infection. In this current study, we show that a small chemical molecule, 9-aminoacridine (9AA) at low concentrations, could efficiently reactivate p53 pathway and thereby restoring the p21/waf1 function. Further, we show that the 9AA could significantly inhibit virus replication in activated PBMCs, likely through a mechanism of inhibiting the viral replication machinery. A mechanism study reveals that the phosphorylated p53ser15 may be dissociated from binding to HIV-1 Tat protein, thereby activating the p21/waf1 gene. Finally, we also show that the 9AA-activated p21/waf1 is recruited to HIV-1 preintegration complex, through a mechanism yet to be elucidated.