Literature detail

Host species-specific mutations in the thumb domain of the 3Dpol polymerase are required for efficient replication of human hepatitis A virus in mice.

Ichiro Misumi¹ Takayoshi Shirasaki² Ling Xie³ Bryan Yonish⁴ Olga González-López² Asuka Hirai-Yuki² Xian Chen^3,4 You Li⁵ Jason K Whitmire^1,2,4 Stanley M Lemon^2,4,6

Affiliations 6 institutions

Department of Genetics, The University of North Carolina at Chapel Hill, Chapel Hill, North Carolina, United States of America.
Department of Microbiology & Immunology, The University of North Carolina at Chapel Hill, Chapel Hill, North Carolina, United States of America.
Department of Biochemistry and Biophysics, The University of North Carolina at Chapel Hill, Chapel Hill, North Carolina, United States of America.
Lineberger Comprehensive Cancer Center, The University of North Carolina at Chapel Hill, Chapel Hill, North Carolina, United States of America.
Department of Pediatrics, The University of North Carolina at Chapel Hill, Chapel Hill, North Carolina, United States of America.
Department of Medicine, The University of North Carolina at Chapel Hill, Chapel Hill, North Carolina, United States of America.

PMID 42113844 2026 PLoS Pathog eng epublish

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Publication summary

Hepatitis A virus (HAV) is a globally important cause of enterically-transmitted hepatitis. It is one of 9 distinct Hepatovirus species in the Picornaviridae, among which phylogenetic reconstructions suggest multiple past host species jumps. HAV readily infects mice with defective type I interferon responses, suggesting the major barrier preventing human HAV from replicating in a rodent host is an inability to overcome innate immune responses. In prior studies, only a single nonsynonymous mutation of uncertain significance (3Dpol-R468K) was identified within the genome of wild-type HAV following passage in interferon-receptor knockout mice. Here, we show that R468K and other mutations in the 3Dpol polymerase (E461D and D473G) are uniformly present in virus recovered from Ifnar1-/- mice following intrahepatic injection of HAV RNA. Reverse molecular genetics experiments confirmed RNAs with R468K or D473G mutations were more likely to initiate sustained infection than wild-type RNA in mice. In competition experiments using cell culture-adapted virus, a K468 mutant out-replicated wild-type R468 in murine cells, whereas R468 rapidly replaced K468 in human cells. These 3Dpol mutations thus promote HAV replication in a host species-specific manner. AlphaFold 3 modeling indicates E461, R468, and D473 are closely positioned on the surface of the 3Dpol thumb domain, suggesting they modulate interactions with species-specific host factor(s). Proteomics analysis of proteins co-precipitating with HA-3Dpol expressed in Huh-7.5 cells identified heat shock 70 protein HSPA8 and its co-chaperone, BAG2. HSPA8 is known to be a critical hepatovirus host factor and HAV genome replication is highly dependent upon heat shock chaperone activity. The mouse-adaptive R468K mutation enhances co-immunoprecipitation of 3Dpol with murine HSPA8 and BAG2, suggesting it facilitates chaperone-dependent acquisition of polymerase function in mouse cells. Our results identify a non-immune barrier to HAV replication in mice and enable future reverse molecular genetics studies in a small animal model.

Hepatitis A Hepatitis A virus Virus Replication Animals Humans Mice Mice, Knockout Mutation Species Specificity

Structured evidence records

Evidence records

2 total

Host Range Experiment 1 records

Host Range Experiment Extraction confidence 0.90

Key finding

HAV RNA containing the R468K, E461D, and D473G mutations sustained infection in Ifnar1-/- mice, indicating host adaptation enabling replication in a non-human host.

Virus

Host

Location

Supporting text

‘R468K and other mutations in the 3Dpol polymerase (E461D and D473G) are uniformly present in virus recovered from Ifnar1-/- mice following intrahepatic injection of HAV RNA. Reverse molecular genetics experiments confirmed RNAs with R468K or D473G mutations were more likely to initiate sustained infection than wild-type RNA in mice.’

Method: intrahepatic injection of HAV RNA | virus recovery experiments
Sample type: interferon-receptor knockout mice
Study design: animal experiment
Transmission direction: host-range experiment
Event type: cross-species replication assay
Genes or proteins: 3Dpol polymerase
Mutations: E461D | R468K | D473G

Molecular Adaptation 1 records

Molecular Adaptation Extraction confidence 0.95

Key finding

Mutations E461D, R468K, and D473G in the HAV 3Dpol polymerase enhance viral replication in mice and murine cells by improving interactions with host chaperone proteins HSPA8 and BAG2.

Virus

Host

Location

Supporting text

‘Reverse molecular genetics experiments confirmed RNAs with R468K or D473G mutations were more likely to initiate sustained infection than wild-type RNA in mice. In competition experiments using cell culture-adapted virus, a K468 mutant out-replicated wild-type R468 in murine cells, whereas R468 rapidly replaced K468 in human cells. … The mouse-adaptive R468K mutation enhances co-immunoprecipitation of 3Dpol with murine HSPA8 and BAG2, suggesting it facilitates chaperone-dependent acquisition of polymerase function in mouse cells.’

Method: reverse molecular genetics | competition experiments | proteomics | AlphaFold modeling | co-immunoprecipitation
Sample type: murine cells | Ifnar1-/- mice | human cells
Study design: reverse genetics and cell culture experiments
Transmission direction: host-range experiment
Event type: host species-specific polymerase adaptation
Genes or proteins: 3Dpol polymerase
Host factors: HSPA8 | BAG2
Mutations: E461D | R468K | D473G
Mechanism types: chaperone-dependent polymerase adaptation

Citation context

References

59 references

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Evidence overview

Evidence 2

Types 2

Virus 1

Host 2

Evidence types

Host Range Experiment 1 Molecular Adaptation 1

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Publication metadata

Journal: PLoS pathogens
Volume / Issue / Pages: 22 / 5 / e1014213
ISSN: 1553-7374
Journal country: United States
DOI: 10.1371/journal.ppat.1014213