Polyamine biosynthesis and eIF5A hypusination are modulated by the DNA tumor virus KSHV and promote KSHV viral infection

Abstract

AbstractPolyamines are critical metabolites involved in various cellular processes and often dysregulated in cancers. Kaposi’s sarcoma associated Herpesvirus (KSHV) is a defined oncogenic virus belonging to the sub-family of human gamma-herpesviruses. KSHV infection leads to the profound alteration of host metabolic landscape to favor the development of KSHV-associated malignancies. In our studies, we identified that polyamine biosynthesis and eIF5A hypusination are dynamically regulated by KSHV infection likely through the modulation of key enzymes of these pathways, such as ODC1, and that in return these metabolic pathways are required for both KSHV lytic switch from latency and de novo infection. The further analysis unraveled that translation of critical KSHV latent and lytic proteins (LANA, RTA) depends on eIF5A hypusination. We also demonstrated that KSHV infection can be efficiently and specifically suppressed by using inhibitors targeting either polyamine biosynthesis or eIF5A hypusination. Above all, our results illustrated that the dynamic and profound interaction of a DNA tumor virus (KSHV) with host polyamine biosynthesis and eIF5A hypusination metabolic pathways promote viral propagation and oncogenesis, which serve as new therapeutic targets to treat KSHV-associated malignancies.