Identification of picornavirus proteins that inhibit de novo nucleotide synthesis during infection

Publication date

2025

Authors

Nouwen, LonnekeISNI 0000000524423515
Zaal, Esther AORCID 0000-0001-9890-7345ISNI 0000000492962943
Buitendijk, Inge
Zwaagstra, MarleenISNI 0000000493076986
Aloise, ChiaraISNI 0000000492834140
van Vliet, Arno L WISNI 0000000492959883
Schipper, Jelle GISNI 0000000512606189
van Mil, Alain
Berkers, CeliaISNI 000000038703060X
van Kuppeveld, Frank J MISNI 0000000369420196

Editors

Advisors

Supervisors

Document Type

Article
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License

cc_by

Abstract

Viruses, including picornaviruses, modulate cellular metabolism to generate sufficient building blocks for virus replication and dissemination. Previously, we showed that two picornaviruses, coxsackievirus B3 (CVB3) and EMCV, remodel nucleotide metabolism during infection. Here, we investigated whether this modulation is attributable to specific viral proteins. For this, we studied the modulation of metabolism by several recombinant CVB3 and EMCV viruses in HeLa cells. Using isotope tracing metabolomics with three distinct labels, 13C6-glucose or 13C5/15N2-glutamine, we reveal that the 2A protease of CVB3 and the Leader protein of EMCV inhibit de novo nucleotide synthesis. Furthermore, we show that nucleotide metabolism is also reprogrammed by CVB3 and EMCV in human induced pluripotent stem cell-derived cardiomyocytes. Our insights are important to increase understanding of picornavirus-host interactions and may lead to novel therapeutic strategies.

Keywords

Parasitology, Microbiology, Immunology, Molecular Biology, Genetics, Virology

Citation

Nouwen, L V, Zaal, E A, Buitendijk, I, Zwaagstra, M, Aloise, C, van Vliet, A L W, Schipper, J G, van Mil, A, Berkers, C R & van Kuppeveld, F J M 2025, 'Identification of picornavirus proteins that inhibit de novo nucleotide synthesis during infection', PLoS Pathogens, vol. 21, no. 7, e1013293. https://doi.org/10.1371/journal.ppat.1013293