Enhanced Alpha1 Microglobulin Secretion from Hepatitis E Virus ORF3-expressing Human Hepatoma Cells is Mediated by the Tumor Susceptibility Gene 101
Overview
Affiliations
Viruses are known to exploit the host cell machinery for their benefit during different stages of their life cycle within the infected host. One of the major challenges for a virus during the early stages of infection is to escape recognition by the host immune system. Viruses have adopted many novel strategies to evade the host immune response or to create an immune suppressed environment. An earlier study in our laboratory has demonstrated that the ORF3 protein of the hepatitis E virus expedites the secretion of alpha1 microglobulin, an immunosuppressant molecule. Based on this observation, we proposed that enhanced secretion of alpha1 microglobulin may help maintain an immunosuppressed milieu around the infected hepatocyte (Tyagi, S., Surjit, M., Roy, A. K., Jameel, S., and Lal, S. K. (2004) J. Biol. Chem. 279, 29308-29319). In the present study, we discovered that the ability of the ORF3 protein to expedite alpha1 microglobulin secretion is attributed to the PSAP motif present at the C terminus of the former. The ORF3 protein was able to associate with the tumor susceptibility gene 101 (TSG101) through the PSAP motif. Further, a PSAP motif-mutated ORF3 protein was unable to associate with TSG101 and also lost its ability to enhance the secretion of alpha1 microglobulin. In addition, the ORF3 protein was found to associate simultaneously with TSG101 and alpha1 microglobulin because all three of them were co-precipitated as a ternary complex. Finally, a dominant negative mutant of the VPS4 protein was shown to block the enhanced alpha1 microglobulin secretion in ORF3-expressing hepatocytes. These results suggest a mechanism by which the ORF3 protein exploits the endosomal sorting machinery to enhance the secretion of an immunosuppressant molecule (alpha1 microglobulin) from the cultured hepatocytes.
Multiple Functions of Hepatitis E Virus ORF3.
Jiao F, Zhao Y, Zhou G, Meng C, Wang L, Wu S Microorganisms. 2024; 12(7).
PMID: 39065173 PMC: 11278674. DOI: 10.3390/microorganisms12071405.
Sheng Y, Deng Y, Li X, Ji P, Sun X, Liu B J Virol. 2024; 98(4):e0164923.
PMID: 38548704 PMC: 11019958. DOI: 10.1128/jvi.01649-23.
Oechslin N, Da Silva N, Ankavay M, Moradpour D, Gouttenoire J Proc Natl Acad Sci U S A. 2023; 120(52):e2307423120.
PMID: 38109552 PMC: 10756275. DOI: 10.1073/pnas.2307423120.
Ju X, Dong L, Ding Q Adv Exp Med Biol. 2023; 1417:141-157.
PMID: 37223864 DOI: 10.1007/978-981-99-1304-6_10.
Characteristics and Functions of HEV Proteins.
Zhou Y, Zhao C, Tian Y, Xu N, Wang Y Adv Exp Med Biol. 2023; 1417:15-32.
PMID: 37223856 DOI: 10.1007/978-981-99-1304-6_2.