TIPE1 limits virus replication by disrupting PKM2/ HIF-1α/ glycolysis feedback loop.

Virus infection is a major threat to human health and remains a significant cause of death to date. Macrophages are important innate immune cells that exhibit indispensable roles in controlling virus replication. It was recently reported that metabolic adaption determines the functional state of macrophages. Thus, to further unravel the crucial factors involving in metabolic adaption of macrophages might provide the potential candidates for optimizing their anti-viral capabilities. RT-PCR, Western blotting, virus plaque assay and HE were used to evaluate the viral load in virus-infected Tipe1 M-KO and Tipe1 f/f mice or cultured macrophages. RNA sequencing were performed with Tipe1 M-KOor Tipe1 f/f BMDMs upon virus infection. Extracellular acidification rate (ECAR) was applied for analyzing glycolysis rate in virus-infected BMDMs. Co-immunoprecipitation (Co-IP) assay and LC-MS/MS were used to determine the potential interacting proteins of TIPE1. TIPE1 level was significantly reduced in BMDMs infected with either RNA viruses or DNA virus. Deficiency of Tipe1 in macrophages increased viral load and aggravated tissue damage. Mechanistically, TIPE1 suppressed the glycolytic capacity of macrophages through interacting with PKM2 and promoting its ubiquitination degradation, which in turn decreased HIF1α transcription and viral replication in macrophages. TIPE1 functions as a novel regulator for metabolic reprogramming and virus infection in macrophages. [Display omitted] • TIPE1 restricts viral replication in macrophages. • TIPE1 curtails glycolytic metabolism in virus-infected macrophages. • TIPE1 interacts with PKM2 and promotes its ubiquitination degradation. • TIPE1 disturbs PKM2/HIF1α regulatory loop leading to glycolytic reprogramming of macrophages. [ABSTRACT FROM AUTHOR]