(R)-Roscovitine and CFTR modulators enhance killing of multi-drug resistant Burkholderia cenocepacia by cystic fibrosis macrophages

(R)-Roscovitine and CFTR modulators enhance killing of multi-drug resistant Burkholderia cenocepacia by cystic fibrosis macrophages

Abstract Cystic fibrosis (CF) is characterized by chronic bacterial infections and heightened inflammation. Widespread ineffective antibiotic use has led to increased isolation of drug resistant bacterial strains from respiratory samples. (R)-roscovitine (Seliciclib) is a unique drug that has many b...

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Main Authors: Chandra L. Shrestha, Shuzhong Zhang, Benjamin Wisniewski, Stephanie Häfner, Jonathan Elie, Laurent Meijer, Benjamin T. Kopp
Format: Article
Language:English
Published: Nature Publishing Group 2020-12-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-020-78817-x
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spelling doaj-b28faafa018e4d7a8701559c160e0ad92020-12-13T12:32:05ZengNature Publishing GroupScientific Reports2045-23222020-12-011011910.1038/s41598-020-78817-x(R)-Roscovitine and CFTR modulators enhance killing of multi-drug resistant Burkholderia cenocepacia by cystic fibrosis macrophagesChandra L. Shrestha0Shuzhong Zhang1Benjamin Wisniewski2Stephanie Häfner3Jonathan Elie4Laurent Meijer5Benjamin T. Kopp6Division of Pulmonary Medicine, Center for Microbial Pathogenesis, The Abigail Wexner Research Institute At Nationwide Children’s HospitalDivision of Pulmonary Medicine, Center for Microbial Pathogenesis, The Abigail Wexner Research Institute At Nationwide Children’s HospitalDivision of Pulmonary Medicine, Center for Microbial Pathogenesis, The Abigail Wexner Research Institute At Nationwide Children’s HospitalRudolf-Boehm-Institut F. Pharmakologie U. Toxikologie Medizinische Fakultät, Universität LeipzigManRos TherapeuticsManRos TherapeuticsDivision of Pulmonary Medicine, Center for Microbial Pathogenesis, The Abigail Wexner Research Institute At Nationwide Children’s HospitalAbstract Cystic fibrosis (CF) is characterized by chronic bacterial infections and heightened inflammation. Widespread ineffective antibiotic use has led to increased isolation of drug resistant bacterial strains from respiratory samples. (R)-roscovitine (Seliciclib) is a unique drug that has many benefits in CF studies. We sought to determine roscovitine’s impact on macrophage function and killing of multi-drug resistant bacteria. Human blood monocytes were isolated from CF (F508del/F508del) and non-CF persons and derived into macrophages (MDMs). MDMs were infected with CF clinical isolates of B. cenocepacia and P. aeruginosa. MDMs were treated with (R)-roscovitine or its main hepatic metabolite (M3). Macrophage responses to infection and subsequent treatment were determined. (R)-roscovitine and M3 significantly increased killing of B. cenocepacia and P. aeruginosa in CF MDMs in a dose-dependent manner. (R)-roscovitine-mediated effects were partially dependent on CFTR and the TRPC6 channel. (R)-roscovitine-mediated killing of B. cenocepacia was enhanced by combination with the CFTR modulator tezacaftor/ivacaftor and/or the alternative CFTR modulator cysteamine. (R)-roscovitine also increased MDM CFTR function compared to tezacaftor/ivacaftor treatment alone. (R)-roscovitine increases CF macrophage-mediated killing of antibiotic-resistant bacteria. (R)-roscovitine also enhances other macrophage functions including CFTR-mediated ion efflux. Effects of (R)-roscovitine are greatest when combined with CFTR modulators or cysteamine, justifying further clinical testing of (R)-roscovitine or optimized derivatives.https://doi.org/10.1038/s41598-020-78817-x
collection DOAJ
language English
format Article
sources DOAJ
author Chandra L. Shrestha
Shuzhong Zhang
Benjamin Wisniewski
Stephanie Häfner
Jonathan Elie
Laurent Meijer
Benjamin T. Kopp
spellingShingle Chandra L. Shrestha
Shuzhong Zhang
Benjamin Wisniewski
Stephanie Häfner
Jonathan Elie
Laurent Meijer
Benjamin T. Kopp
(R)-Roscovitine and CFTR modulators enhance killing of multi-drug resistant Burkholderia cenocepacia by cystic fibrosis macrophages
Scientific Reports
author_facet Chandra L. Shrestha
Shuzhong Zhang
Benjamin Wisniewski
Stephanie Häfner
Jonathan Elie
Laurent Meijer
Benjamin T. Kopp
author_sort Chandra L. Shrestha
title (R)-Roscovitine and CFTR modulators enhance killing of multi-drug resistant Burkholderia cenocepacia by cystic fibrosis macrophages
title_short (R)-Roscovitine and CFTR modulators enhance killing of multi-drug resistant Burkholderia cenocepacia by cystic fibrosis macrophages
title_full (R)-Roscovitine and CFTR modulators enhance killing of multi-drug resistant Burkholderia cenocepacia by cystic fibrosis macrophages
title_fullStr (R)-Roscovitine and CFTR modulators enhance killing of multi-drug resistant Burkholderia cenocepacia by cystic fibrosis macrophages
title_full_unstemmed (R)-Roscovitine and CFTR modulators enhance killing of multi-drug resistant Burkholderia cenocepacia by cystic fibrosis macrophages
title_sort (r)-roscovitine and cftr modulators enhance killing of multi-drug resistant burkholderia cenocepacia by cystic fibrosis macrophages
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2020-12-01
description Abstract Cystic fibrosis (CF) is characterized by chronic bacterial infections and heightened inflammation. Widespread ineffective antibiotic use has led to increased isolation of drug resistant bacterial strains from respiratory samples. (R)-roscovitine (Seliciclib) is a unique drug that has many benefits in CF studies. We sought to determine roscovitine’s impact on macrophage function and killing of multi-drug resistant bacteria. Human blood monocytes were isolated from CF (F508del/F508del) and non-CF persons and derived into macrophages (MDMs). MDMs were infected with CF clinical isolates of B. cenocepacia and P. aeruginosa. MDMs were treated with (R)-roscovitine or its main hepatic metabolite (M3). Macrophage responses to infection and subsequent treatment were determined. (R)-roscovitine and M3 significantly increased killing of B. cenocepacia and P. aeruginosa in CF MDMs in a dose-dependent manner. (R)-roscovitine-mediated effects were partially dependent on CFTR and the TRPC6 channel. (R)-roscovitine-mediated killing of B. cenocepacia was enhanced by combination with the CFTR modulator tezacaftor/ivacaftor and/or the alternative CFTR modulator cysteamine. (R)-roscovitine also increased MDM CFTR function compared to tezacaftor/ivacaftor treatment alone. (R)-roscovitine increases CF macrophage-mediated killing of antibiotic-resistant bacteria. (R)-roscovitine also enhances other macrophage functions including CFTR-mediated ion efflux. Effects of (R)-roscovitine are greatest when combined with CFTR modulators or cysteamine, justifying further clinical testing of (R)-roscovitine or optimized derivatives.
url https://doi.org/10.1038/s41598-020-78817-x
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