Data-driven models for replication kinetics of Orthohantavirus infections

• Published in: Mathematical biosciences Vol. 349; p. 108834
• Main Authors: Adams, Alison, Murphy, Quiyana M., Dougherty, Owen P., Sawyer, Aubrey M., Bai, Fan, Edholm, Christina J., Williams, Evan P., Allen, Linda J.S., Jonsson, Colleen B.
• Format: Journal Article
• Language: English
• Published: United States Elsevier Inc 01.07.2022; Elsevier Science Ltd
• Subjects: Differential equations; Drug development; Endothelial cells; Final density relation; In vitro data; Kidneys; Kinetics; Mice; Microvasculature; Orthohantavirus; Rats; Replication; Viruses; Within-host; Orthohantavirus; Within-host; In vitro data; Final density relation
• ISSN: 0025-5564; 1879-3134
• DOI: 10.1016/j.mbs.2022.108834

The Hantaviridae constitute a family of viruses harbored by mice, rats, shrews, voles, moles and bats. Intriguingly, only viruses harbored by mice and rats may cause disease in humans with up to 40% case fatality rate in the Americas. Transmission of virus from rodents to humans occurs via the respiratory route and results in replication of the virus in the microvascular endothelial cells of the lung or kidney. Understanding the replication kinetics of these viruses in various cell types and how replication is abrogated by the host is critical to the development of effective therapeutics for treatment for which there are none. We formulate several new ordinary differential equation (ODE) models to examine the replication kinetics of Prospect Hill orthohantavirus (PHV). The models are distinguished by the distribution of the viral replication delay. A new threshold, RGE, the genome equivalent replication number, is defined in terms of the model parameters. New final density relations are derived that associate RGE to the asymptotic number of virions in each model. All models are fit to real time (qRT)-PCR data of genomic RNA from PHV released from Vero E6 cells over 192 h. A sensitivity analysis of the parameters is performed and models are tested for best fit. Our findings provide a basis for future research into formulating more complex mathematical models for evaluation of the replication of hantaviruses in various cell types and sources. •Novel ODE models fit to qRT-PCR data of genomic RNA of Prospect Hill Orthohantavirus.•A new threshold, the genome equivalent reproduction number, is defined.•Genome equivalent reproduction number is related to final virion density.