Lung Tissue Delivery of Virus-Like Particles Mediated by Macrolide Antibiotics

Macrophage cells are present in high abundance in the lung to intercept invading microorganisms that gain access through airway mucosal surfaces. Several bacterial pathogens have evolved the capacity to evade the innate immune response by establishing infections within pulmonary macrophages upon pha...

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Veröffentlicht in:	Molecular pharmaceutics 2019-07, Vol.16 (7), p.2947-2955
Hauptverfasser:	Crooke, Stephen N, Schimer, Jiri, Raji, Idris, Wu, Bocheng, Oyelere, Adegboyega K, Finn, M. G
Format:	Artikel
Sprache:	eng
Schlagworte:	Allolevivirus - chemistry Animals Anti-Bacterial Agents - chemistry Anti-Bacterial Agents - pharmacokinetics Azithromycin - chemistry Azithromycin - pharmacokinetics Capsid Proteins - chemistry Capsid Proteins - pharmacokinetics Clarithromycin - chemistry Clarithromycin - pharmacokinetics Cytokines - metabolism Drug Compounding - methods Drug Delivery Systems - methods Escherichia coli - genetics Lung - drug effects Lung - metabolism Macrophages, Alveolar - metabolism Mice Phagocytosis Phenotype RAW 264.7 Cells Tissue Distribution
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container_title	Molecular pharmaceutics
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creator	Crooke, Stephen N Schimer, Jiri Raji, Idris Wu, Bocheng Oyelere, Adegboyega K Finn, M. G
description	Macrophage cells are present in high abundance in the lung to intercept invading microorganisms that gain access through airway mucosal surfaces. Several bacterial pathogens have evolved the capacity to evade the innate immune response by establishing infections within pulmonary macrophages upon phagocytosis, leading to prolonged disease. Macrolide antibiotics such as azithromycin and clarithromycin accumulate in phagocytic cells and have been shown to preferentially distribute in tissues where populations of these cells reside. We employed this class of molecules as targeting ligands to direct virus-like particles (VLPs) to lung-resident macrophages. VLP–macrolide conjugates showed enhanced uptake into RAW 264.7 macrophage cells in culture, with azithromycin displaying the greatest effect; distinct differences were also observed for different macrocycle structures and orientations on the particle surface. Activation of macrophage cells was stimulated by particle uptake toward an intermediate activation state, in contrast to previous reports using macrolide-functionalized gold nanorods that stimulated a cytotoxic macrophage response. Attached azithromycin was also able to direct VLPs to the lungs in mice, with significant accumulation within 2 h of systemic injection. These results suggest that this new class of bioconjugate could serve as an effective platform for intracellular drug delivery in the context of pulmonary infections.
doi_str_mv	10.1021/acs.molpharmaceut.9b00180
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VLP–macrolide conjugates showed enhanced uptake into RAW 264.7 macrophage cells in culture, with azithromycin displaying the greatest effect; distinct differences were also observed for different macrocycle structures and orientations on the particle surface. Activation of macrophage cells was stimulated by particle uptake toward an intermediate activation state, in contrast to previous reports using macrolide-functionalized gold nanorods that stimulated a cytotoxic macrophage response. Attached azithromycin was also able to direct VLPs to the lungs in mice, with significant accumulation within 2 h of systemic injection. 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G</creatorcontrib><title>Lung Tissue Delivery of Virus-Like Particles Mediated by Macrolide Antibiotics</title><title>Molecular pharmaceutics</title><addtitle>Mol. Pharmaceutics</addtitle><description>Macrophage cells are present in high abundance in the lung to intercept invading microorganisms that gain access through airway mucosal surfaces. Several bacterial pathogens have evolved the capacity to evade the innate immune response by establishing infections within pulmonary macrophages upon phagocytosis, leading to prolonged disease. Macrolide antibiotics such as azithromycin and clarithromycin accumulate in phagocytic cells and have been shown to preferentially distribute in tissues where populations of these cells reside. We employed this class of molecules as targeting ligands to direct virus-like particles (VLPs) to lung-resident macrophages. VLP–macrolide conjugates showed enhanced uptake into RAW 264.7 macrophage cells in culture, with azithromycin displaying the greatest effect; distinct differences were also observed for different macrocycle structures and orientations on the particle surface. Activation of macrophage cells was stimulated by particle uptake toward an intermediate activation state, in contrast to previous reports using macrolide-functionalized gold nanorods that stimulated a cytotoxic macrophage response. Attached azithromycin was also able to direct VLPs to the lungs in mice, with significant accumulation within 2 h of systemic injection. 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Pharmaceutics</addtitle><date>2019-07-01</date><risdate>2019</risdate><volume>16</volume><issue>7</issue><spage>2947</spage><epage>2955</epage><pages>2947-2955</pages><issn>1543-8384</issn><eissn>1543-8392</eissn><abstract>Macrophage cells are present in high abundance in the lung to intercept invading microorganisms that gain access through airway mucosal surfaces. Several bacterial pathogens have evolved the capacity to evade the innate immune response by establishing infections within pulmonary macrophages upon phagocytosis, leading to prolonged disease. Macrolide antibiotics such as azithromycin and clarithromycin accumulate in phagocytic cells and have been shown to preferentially distribute in tissues where populations of these cells reside. We employed this class of molecules as targeting ligands to direct virus-like particles (VLPs) to lung-resident macrophages. 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subjects	Allolevivirus - chemistry Animals Anti-Bacterial Agents - chemistry Anti-Bacterial Agents - pharmacokinetics Azithromycin - chemistry Azithromycin - pharmacokinetics Capsid Proteins - chemistry Capsid Proteins - pharmacokinetics Clarithromycin - chemistry Clarithromycin - pharmacokinetics Cytokines - metabolism Drug Compounding - methods Drug Delivery Systems - methods Escherichia coli - genetics Lung - drug effects Lung - metabolism Macrophages, Alveolar - metabolism Mice Phagocytosis Phenotype RAW 264.7 Cells Tissue Distribution
title	Lung Tissue Delivery of Virus-Like Particles Mediated by Macrolide Antibiotics
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