Main content area

HIV-1 Replication and Latency Are Regulated by Translational Control of Cyclin T1

Hoque, Mainul, Shamanna, Raghavendra A., Guan, Deyu, Pe'ery, Tsafi, Mathews, Michael B.
Journal of molecular biology 2011 v.410 no.5 pp. 917-932
Human immunodeficiency virus 1, RNA interference, RNA-binding proteins, cyclins, drugs, gene overexpression, messenger RNA, microRNA, protein kinase C, signal transduction, transcription factors, transcriptional activation, translation (genetics), virus replication
Human immunodeficiency virus (HIV) exploits cellular proteins during its replicative cycle and latent infection. The positive transcription elongation factor b (P-TEFb) is a key cellular transcription factor critical for these viral processes and is a drug target. During viral replication, P-TEFb is recruited via interactions of its cyclin T1 subunit with the HIV Tat (transactivator of transcription) protein and TAR (transactivation response) element. Through RNA silencing and over-expression experiments, we discovered that nuclear factor 90 (NF90), a cellular RNA binding protein, regulates P-TEFb expression. NF90 depletion reduced cyclin T1 protein levels by inhibiting translation initiation. Regulation was mediated by the 3′ untranslated region of cyclin T1 mRNA independently of microRNAs. Cyclin T1 induction is involved in the escape of HIV-1 from latency. We show that the activation of viral replication by phorbol ester in latently infected monocytic cells requires the posttranscriptional induction of NF90 and cyclin T1, implicating NF90 in protein kinase C signaling pathways. This investigation reveals a novel mechanism of cyclin T1 regulation and establishes NF90 as a regulator of HIV-1 replication during both productive infection and induction from latency.