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1. Quinolinate Phosphoribosyltransferase is an Antiviral Host Factor Against Hepatitis C Virus Infection

Author

Changjiang Weng, Si-Tang Gong, Yanhua Ding, Yi Xu, Xinwen Chen, Hairong Chen, Dongwei Guo, Yanhang Gao, Chao Zhang, Qiuping Xu, Hong Tang, Yan Yang, Weihong Zhang, Junqi Niu, Pingyun Lv, Zhilong Wang, Qing-Quan Li, Sisi Deng, and Haiming Hu

Subjects

0301 basic medicine, Proteasome Endopeptidase Complex, Science, Ubiquitin-Protein Ligases, Hepatitis C virus, Hepacivirus, Viral Nonstructural Proteins, Virus Replication, medicine.disease_cause, Article, Mice, 03 medical and health sciences, Cell Line, Tumor, medicine, Animals, Humans, Pentosyltransferases, Host factor, Multidisciplinary, 030102 biochemistry & molecular biology, Chemistry, Lipogenesis, virus diseases, Lipid metabolism, NAD, Hepatitis C, Quinolinate, Molecular biology, digestive system diseases, 030104 developmental biology, Viral replication, Cell culture, Proteolysis, Medicine, NAD+ kinase

Abstract

HCV infection can decrease NAD+/NADH ratio, which could convert lipid metabolism to favor HCV replication. In hepatocytes, quinolinate phosphoribosyl transferase (QPRT) catabolizes quinolinic acid (QA) to nicotinic acid mononucleotide (NAMN) for de novo NAD synthesis. However, whether and how HCV modulates QPRT hence the lipogenesis is unknown. In this work, we found QPRT was reduced significantly in livers of patients or humanized C/OTg mice with persistent HCV infection. Mechanistic studies indicated that HCV NS3/4A promoted proteasomal degradation of QPRT through Smurf2, an E3 ubiquitin-protein ligase, in Huh7.5.1 cells. Furthermore, QPRT enzymatic activity involved in suppression of HCV replication in cells. Activation of QPRT with clofibrate (CLO) or addition of QPRT catabolite NAD both inhibited HCV replication in cells, probably through NAD+-dependent Sirt1 inhibition of cellular lipogenesis. More importantly, administration of CLO, a hypolipidemic drug used in clinics, could significantly reduce the viral load in HCV infected C/OTg mice. Take together, these results suggested that HCV infection triggered proteasomal degradation of QPRT and consequently reduced de novo NAD synthesis and lipogenesis, in favor of HCV replication. Hepatic QPRT thus likely served as a cellular factor that dampened productive HCV replication.

Published

2017