Literature DB >> 26843190

Mathematical modeling of herpes simplex virus-2 suppression with pritelivir predicts trial outcomes.

Joshua T Schiffer1, David A Swan2, Amalia Magaret3, Lawrence Corey4, Anna Wald5, Joachim Ossig6, Helga Ruebsamen-Schaeff6, Susanne Stoelben6, Burkhard Timmler6, Holger Zimmermann6, Murad R Melhem7, Scott A Van Wart8, Christopher M Rubino8, Alexander Birkmann6.   

Abstract

Pharmacokinetic and pharmacodynamic models estimate the potency of antiviral agents but do not capture viral and immunologic factors that drive the natural dynamics of infection. We designed a mathematical model that synthesizes pharmacokinetics, pharmacodynamics, and viral pathogenesis concepts to simulate the activity of pritelivir, a DNA helicase-primase inhibitor that targets herpes simplex virus. Our simulations recapitulate detailed viral kinetic shedding features in five dosage arms of a phase 2 clinical trial. We identify that in vitro estimates of median effective concentration (EC50) are lower than in vivo values for the drug. Nevertheless, pritelivir potently decreases shedding at appropriate doses based on its mode of action and long half-life. Although pritelivir directly inhibits replication in epithelial cells, our model indicates that pritelivir also indirectly limits downstream viral spread from neurons to genital keratinocytes, within genital ulcers, and from ulcer to new mucosal sites of infection. We validate our model based on its ability to predict outcomes in a subsequent trial with a higher dose. The model can therefore be used to optimize dose selection in clinical practice.
Copyright © 2016, American Association for the Advancement of Science.

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Year:  2016        PMID: 26843190      PMCID: PMC4880060          DOI: 10.1126/scitranslmed.aad6654

Source DB:  PubMed          Journal:  Sci Transl Med        ISSN: 1946-6234            Impact factor:   17.956


  22 in total

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2.  Optimizing PCR positivity criterion for detection of herpes simplex virus DNA on skin and mucosa.

Authors:  Amalia S Magaret; Anna Wald; Meei-Li Huang; Stacy Selke; Larry Corey
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3.  HIV-1 dynamics in vivo: virion clearance rate, infected cell life-span, and viral generation time.

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Journal:  Science       Date:  1996-03-15       Impact factor: 47.728

4.  Rapidly cleared episodes of oral and anogenital herpes simplex virus shedding in HIV-infected adults.

Authors:  Karen E Mark; Anna Wald; Amalia S Magaret; Stacy Selke; Steven Kuntz; Meei-Li Huang; Lawrence Corey
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5.  New helicase-primase inhibitors as drug candidates for the treatment of herpes simplex disease.

Authors:  Gerald Kleymann; Rüdiger Fischer; Ulrich A K Betz; Martin Hendrix; Wolfgang Bender; Udo Schneider; Gabriele Handke; Peter Eckenberg; Guy Hewlett; Veniamin Pevzner; Judith Baumeister; Olaf Weber; Kerstin Henninger; Jörg Keldenich; Axel Jensen; Jörg Kolb; Ute Bach; Andreas Popp; Jutta Mäben; Isabelle Frappa; Dieter Haebich; Oswald Lockhoff; Helga Rübsamen-Waigmann
Journal:  Nat Med       Date:  2002-04       Impact factor: 53.440

6.  Helicase-primase inhibitor pritelivir for HSV-2 infection.

Authors:  Anna Wald; Lawrence Corey; Burkhard Timmler; Amalia Magaret; Terri Warren; Stephen Tyring; Christine Johnston; John Kriesel; Kenneth Fife; Lawrence Galitz; Susanne Stoelben; Meei-Li Huang; Stacy Selke; Hans-Peter Stobernack; Helga Ruebsamen-Schaeff; Alexander Birkmann
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Authors:  D D Ho; A U Neumann; A S Perelson; W Chen; J M Leonard; M Markowitz
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Review 3.  Leveraging Computational Modeling to Understand Infectious Diseases.

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Review 4.  Mathematical Models of HIV Latency.

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Journal:  J Immunol       Date:  2018-07-25       Impact factor: 5.422

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7.  Effects of spatiotemporal HSV-2 lesion dynamics and antiviral treatment on the risk of HIV-1 acquisition.

Authors:  Catherine M Byrne; Soren Gantt; Daniel Coombs
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8.  Potency and timing of antiviral therapy as determinants of duration of SARS-CoV-2 shedding and intensity of inflammatory response.

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10.  Mathematical modeling to reveal breakthrough mechanisms in the HIV Antibody Mediated Prevention (AMP) trials.

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Journal:  PLoS Comput Biol       Date:  2020-02-21       Impact factor: 4.779
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