A microfluidic system that replicates pharmacokinetic (PK) profiles in vitro improves prediction of in vivo efficacy in preclinical models

Test compounds used on in vitro model systems are conventionally delivered to cell culture wells as fixed concentration bolus doses; however, this poorly replicates the pharmacokinetic (PK) concentration changes seen in vivo and reduces the predictive value of the data. Herein, proof-of-concept expe...

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Autores principales: Singh, Dharaminder, Deosarkar, Sudhir P., Cadogan, Elaine, Flemington, Vikki, Bray, Alysha, Zhang, Jingwen, Reiserer, Ronald S., Schaffer, David K., Gerken, Gregory B., Britt, Clayton M., Werner, Erik M., Gibbons, Francis D., Kostrzewski, Tomasz, Chambers, Christopher E., Davies, Emma J., Montoya, Antonio Ramos, Fok, Jacqueline H. L., Hughes, David, Fabre, Kristin, Wagoner, Matthew P., Wikswo, John P., Scott, Clay W.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2022
Materias:
Methods and Resources
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9135222/
https://www.ncbi.nlm.nih.gov/pubmed/35617197
http://dx.doi.org/10.1371/journal.pbio.3001624
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author Singh, Dharaminder
Deosarkar, Sudhir P.
Cadogan, Elaine
Flemington, Vikki
Bray, Alysha
Zhang, Jingwen
Reiserer, Ronald S.
Schaffer, David K.
Gerken, Gregory B.
Britt, Clayton M.
Werner, Erik M.
Gibbons, Francis D.
Kostrzewski, Tomasz
Chambers, Christopher E.
Davies, Emma J.
Montoya, Antonio Ramos
Fok, Jacqueline H. L.
Hughes, David
Fabre, Kristin
Wagoner, Matthew P.
Wikswo, John P.
Scott, Clay W.
author_facet Singh, Dharaminder
Deosarkar, Sudhir P.
Cadogan, Elaine
Flemington, Vikki
Bray, Alysha
Zhang, Jingwen
Reiserer, Ronald S.
Schaffer, David K.
Gerken, Gregory B.
Britt, Clayton M.
Werner, Erik M.
Gibbons, Francis D.
Kostrzewski, Tomasz
Chambers, Christopher E.
Davies, Emma J.
Montoya, Antonio Ramos
Fok, Jacqueline H. L.
Hughes, David
Fabre, Kristin
Wagoner, Matthew P.
Wikswo, John P.
Scott, Clay W.
author_sort Singh, Dharaminder
collection PubMed
description Test compounds used on in vitro model systems are conventionally delivered to cell culture wells as fixed concentration bolus doses; however, this poorly replicates the pharmacokinetic (PK) concentration changes seen in vivo and reduces the predictive value of the data. Herein, proof-of-concept experiments were performed using a novel microfluidic device, the Microformulator, which allows in vivo like PK profiles to be applied to cells cultured in microtiter plates and facilitates the investigation of the impact of PK on biological responses. We demonstrate the utility of the device in its ability to reproduce in vivo PK profiles of different oncology compounds over multiweek experiments, both as monotherapy and drug combinations, comparing the effects on tumour cell efficacy in vitro with efficacy seen in in vivo xenograft models. In the first example, an ERK1/2 inhibitor was tested using fixed bolus dosing and Microformulator-replicated PK profiles, in 2 cell lines with different in vivo sensitivities. The Microformulator-replicated PK profiles were able to discriminate between cell line sensitivities, unlike the conventional fixed bolus dosing. In a second study, murine in vivo PK profiles of multiple Poly(ADP-Ribose) Polymerase 1/2 (PARP) and DNA-dependent protein kinase (DNA-PK) inhibitor combinations were replicated in a FaDu cell line resulting in a reduction in cell growth in vitro with similar rank ordering to the in vivo xenograft model. Additional PK/efficacy insight into theoretical changes to drug exposure profiles was gained by using the Microformulator to expose FaDu cells to the DNA-PK inhibitor for different target coverage levels and periods of time. We demonstrate that the Microformulator enables incorporating PK exposures into cellular assays to improve in vitro–in vivo translation understanding for early therapeutic insight.
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spelling pubmed-91352222022-05-27 A microfluidic system that replicates pharmacokinetic (PK) profiles in vitro improves prediction of in vivo efficacy in preclinical models Singh, Dharaminder Deosarkar, Sudhir P. Cadogan, Elaine Flemington, Vikki Bray, Alysha Zhang, Jingwen Reiserer, Ronald S. Schaffer, David K. Gerken, Gregory B. Britt, Clayton M. Werner, Erik M. Gibbons, Francis D. Kostrzewski, Tomasz Chambers, Christopher E. Davies, Emma J. Montoya, Antonio Ramos Fok, Jacqueline H. L. Hughes, David Fabre, Kristin Wagoner, Matthew P. Wikswo, John P. Scott, Clay W. PLoS Biol Methods and Resources Test compounds used on in vitro model systems are conventionally delivered to cell culture wells as fixed concentration bolus doses; however, this poorly replicates the pharmacokinetic (PK) concentration changes seen in vivo and reduces the predictive value of the data. Herein, proof-of-concept experiments were performed using a novel microfluidic device, the Microformulator, which allows in vivo like PK profiles to be applied to cells cultured in microtiter plates and facilitates the investigation of the impact of PK on biological responses. We demonstrate the utility of the device in its ability to reproduce in vivo PK profiles of different oncology compounds over multiweek experiments, both as monotherapy and drug combinations, comparing the effects on tumour cell efficacy in vitro with efficacy seen in in vivo xenograft models. In the first example, an ERK1/2 inhibitor was tested using fixed bolus dosing and Microformulator-replicated PK profiles, in 2 cell lines with different in vivo sensitivities. The Microformulator-replicated PK profiles were able to discriminate between cell line sensitivities, unlike the conventional fixed bolus dosing. In a second study, murine in vivo PK profiles of multiple Poly(ADP-Ribose) Polymerase 1/2 (PARP) and DNA-dependent protein kinase (DNA-PK) inhibitor combinations were replicated in a FaDu cell line resulting in a reduction in cell growth in vitro with similar rank ordering to the in vivo xenograft model. Additional PK/efficacy insight into theoretical changes to drug exposure profiles was gained by using the Microformulator to expose FaDu cells to the DNA-PK inhibitor for different target coverage levels and periods of time. We demonstrate that the Microformulator enables incorporating PK exposures into cellular assays to improve in vitro–in vivo translation understanding for early therapeutic insight. Public Library of Science 2022-05-26 /pmc/articles/PMC9135222/ /pubmed/35617197 http://dx.doi.org/10.1371/journal.pbio.3001624 Text en © 2022 Singh et al https://creativecommons.org/licenses/by/4.0/This is an open access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Methods and Resources
Singh, Dharaminder
Deosarkar, Sudhir P.
Cadogan, Elaine
Flemington, Vikki
Bray, Alysha
Zhang, Jingwen
Reiserer, Ronald S.
Schaffer, David K.
Gerken, Gregory B.
Britt, Clayton M.
Werner, Erik M.
Gibbons, Francis D.
Kostrzewski, Tomasz
Chambers, Christopher E.
Davies, Emma J.
Montoya, Antonio Ramos
Fok, Jacqueline H. L.
Hughes, David
Fabre, Kristin
Wagoner, Matthew P.
Wikswo, John P.
Scott, Clay W.
A microfluidic system that replicates pharmacokinetic (PK) profiles in vitro improves prediction of in vivo efficacy in preclinical models
title A microfluidic system that replicates pharmacokinetic (PK) profiles in vitro improves prediction of in vivo efficacy in preclinical models
title_full A microfluidic system that replicates pharmacokinetic (PK) profiles in vitro improves prediction of in vivo efficacy in preclinical models
title_fullStr A microfluidic system that replicates pharmacokinetic (PK) profiles in vitro improves prediction of in vivo efficacy in preclinical models
title_full_unstemmed A microfluidic system that replicates pharmacokinetic (PK) profiles in vitro improves prediction of in vivo efficacy in preclinical models
title_short A microfluidic system that replicates pharmacokinetic (PK) profiles in vitro improves prediction of in vivo efficacy in preclinical models
title_sort microfluidic system that replicates pharmacokinetic (pk) profiles in vitro improves prediction of in vivo efficacy in preclinical models
topic Methods and Resources
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9135222/
https://www.ncbi.nlm.nih.gov/pubmed/35617197
http://dx.doi.org/10.1371/journal.pbio.3001624
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