Metabolic hijacking styles: a review of how viral life cycles dictate glucose metabolism reprogramming.
Ziyi Bie, Yixing Tan, Chun Ye, Ke Wei
Abstract
Open AccessViral infection profoundly reprograms host glucose metabolism to support replication. This review proposes a "Sprint vs. Marathon" framework to explain how viral life cycles shape distinct metabolic hijacking styles. Acute RNA viruses employ a rapid, high-intensity "Sprint" strategy, aggressively activating glycolysis through pathways such as PI3K/Akt and HIF-1α. In contrast, chronic and latent viruses adopt a sustained "Marathon" strategy, subtly modulating glycolytic enzymes, glucose transporters, and survival pathways including NF-κB and mTOR. Understanding these divergent metabolic programs provides new insight into viral pathogenesis and highlights opportunities for developing host-directed antiviral therapies.