TY - JOUR
T1 - Host genetic variation guides hepacivirus clearance, chronicity, and liver fibrosis in mice
AU - Brown, Ariane J.
AU - Won, John J.
AU - Wolfisberg, Raphael
AU - Fahnøe, Ulrik
AU - Catanzaro, Nicholas
AU - West, Ande
AU - Moreira, Fernando R.
AU - Nogueira Batista, Mariana
AU - Ferris, Martin T.
AU - Linnertz, Colton L.
AU - Leist, Sarah R.
AU - Nguyen, Cameron
AU - De La Cruz, Gabriela
AU - Midkiff, Bentley R.
AU - Xia, Yongjuan
AU - Evangelista, Mia D.
AU - Montgomery, Stephanie A.
AU - Billerbeck, Eva
AU - Bukh, Jens
AU - Scheel, Troels K.H.
AU - Rice, Charles M.
AU - Sheahan, Timothy P.
N1 - Publisher Copyright:
© 2024 John Wiley and Sons Inc.. All rights reserved.
PY - 2024
Y1 - 2024
N2 - Background & Aims: Human genetic variation is thought to guide the outcome of HCV infection, but model systems within which to dissect these host genetic mechanisms are limited. Norway rat hepacivirus, closely related to HCV, causes chronic liver infection in rats but causes acute self-limiting hepatitis in typical strains of laboratory mice, which resolves in 2 weeks. The Collaborative Cross (CC) is a robust mouse genetics resource comprised of a panel of recombinant inbred strains, which model the complexity of the human genome and provide a system within which to understand diseases driven by complex allelic variation. Approach & Results: We infected a panel of CC strains with Norway rat hepacivirus and identified several that failed to clear the virus after 4 weeks. Strains displayed an array of virologic phenotypes ranging from delayed clearance (CC046) to chronicity (CC071, CC080) with viremia for at least 10 months. Body weight loss, hepatocyte infection frequency, viral evolution, T-cell recruitment to the liver, liver inflammation, and the capacity to develop liver fibrosis varied among infected CC strains. Conclusions: These models recapitulate many aspects of HCV infection in humans and demonstrate that host genetic variation affects a multitude of viruses and host phenotypes. These models can be used to better understand the molecular mechanisms that drive hepacivirus clearance and chronicity, the virus and host interactions that promote chronic disease manifestations like liver fibrosis, therapeutic and vaccine performance, and how these factors are affected by host genetic variation.
AB - Background & Aims: Human genetic variation is thought to guide the outcome of HCV infection, but model systems within which to dissect these host genetic mechanisms are limited. Norway rat hepacivirus, closely related to HCV, causes chronic liver infection in rats but causes acute self-limiting hepatitis in typical strains of laboratory mice, which resolves in 2 weeks. The Collaborative Cross (CC) is a robust mouse genetics resource comprised of a panel of recombinant inbred strains, which model the complexity of the human genome and provide a system within which to understand diseases driven by complex allelic variation. Approach & Results: We infected a panel of CC strains with Norway rat hepacivirus and identified several that failed to clear the virus after 4 weeks. Strains displayed an array of virologic phenotypes ranging from delayed clearance (CC046) to chronicity (CC071, CC080) with viremia for at least 10 months. Body weight loss, hepatocyte infection frequency, viral evolution, T-cell recruitment to the liver, liver inflammation, and the capacity to develop liver fibrosis varied among infected CC strains. Conclusions: These models recapitulate many aspects of HCV infection in humans and demonstrate that host genetic variation affects a multitude of viruses and host phenotypes. These models can be used to better understand the molecular mechanisms that drive hepacivirus clearance and chronicity, the virus and host interactions that promote chronic disease manifestations like liver fibrosis, therapeutic and vaccine performance, and how these factors are affected by host genetic variation.
U2 - 10.1097/HEP.0000000000000547
DO - 10.1097/HEP.0000000000000547
M3 - Journal article
C2 - 37540195
AN - SCOPUS:85179838746
VL - 79
SP - 183
EP - 197
JO - Hepatology
JF - Hepatology
SN - 0270-9139
IS - 1
ER -