Phagocytosis of polymeric nanoparticles aided activation of macrophages to increase atherosclerotic plaques in ApoE−/− mice

Phagocytosis of polymeric nanoparticles aided activation of macrophages to increase atherosclerotic plaques in ApoE−/− mice

Abstract The unique physiochemical properties of nanomaterials have been widely used in drug delivery systems and diagnostic contrast agents. The safety issues of biomaterials with exceptional biocompatibility and hemo-compatibility have also received extensive attention at the nanoscale, especially...

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Main Authors: Tieying Yin, Yanhong Li, Yuzhen Ren, Atik Rohmana Maftuhatul Fuad, Fangfang Hu, Ruolin Du, Yang Wang, Guixue Wang, Yazhou Wang
Format: Article
Language:English
Published: BMC 2021-04-01
Series:Journal of Nanobiotechnology
Subjects:
Nanomedicine
Atherosclerosis
Macrophages
Phagocytosis
Foam cell
Online Access:https://doi.org/10.1186/s12951-021-00863-y
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spelling doaj-f56cb09ff3764f66a2c2777a8e1a4d762021-05-02T11:08:36ZengBMCJournal of Nanobiotechnology1477-31552021-04-0119111510.1186/s12951-021-00863-yPhagocytosis of polymeric nanoparticles aided activation of macrophages to increase atherosclerotic plaques in ApoE−/− miceTieying Yin0Yanhong Li1Yuzhen Ren2Atik Rohmana Maftuhatul Fuad3Fangfang Hu4Ruolin Du5Yang Wang6Guixue Wang7Yazhou Wang8Key Laboratory for Biorheological Science and Technology of Ministry of Education, State and Local Joint Engineering Laboratory for Vascular Implants, Bioengineering College of Chongqing UniversityKey Laboratory for Biorheological Science and Technology of Ministry of Education, State and Local Joint Engineering Laboratory for Vascular Implants, Bioengineering College of Chongqing UniversityKey Laboratory for Biorheological Science and Technology of Ministry of Education, State and Local Joint Engineering Laboratory for Vascular Implants, Bioengineering College of Chongqing UniversityKey Laboratory for Biorheological Science and Technology of Ministry of Education, State and Local Joint Engineering Laboratory for Vascular Implants, Bioengineering College of Chongqing UniversityKey Laboratory for Biorheological Science and Technology of Ministry of Education, State and Local Joint Engineering Laboratory for Vascular Implants, Bioengineering College of Chongqing UniversityKey Laboratory for Biorheological Science and Technology of Ministry of Education, State and Local Joint Engineering Laboratory for Vascular Implants, Bioengineering College of Chongqing UniversityKey Laboratory for Biorheological Science and Technology of Ministry of Education, State and Local Joint Engineering Laboratory for Vascular Implants, Bioengineering College of Chongqing UniversityKey Laboratory for Biorheological Science and Technology of Ministry of Education, State and Local Joint Engineering Laboratory for Vascular Implants, Bioengineering College of Chongqing UniversityKey Laboratory for Biorheological Science and Technology of Ministry of Education, State and Local Joint Engineering Laboratory for Vascular Implants, Bioengineering College of Chongqing UniversityAbstract The unique physiochemical properties of nanomaterials have been widely used in drug delivery systems and diagnostic contrast agents. The safety issues of biomaterials with exceptional biocompatibility and hemo-compatibility have also received extensive attention at the nanoscale, especially in cardiovascular disease. Therefore, we conducted a study of the effects of poly (lactic-co-glycolic acid) nanoparticles (PLGA NPs) on the development of aortic atherosclerotic plaques in ApoE−/− mice. The particle size of PLGA NPs was 92.69 ± 3.1 nm and the zeta potential were − 31.6 ± 2.8 mV, with good blood compatibility. ApoE−/− mice were continuously injected with PLGA NPs intravenously for 4 and 12 weeks. Examination of oil red O stained aortic sinuses confirmed that the accumulation of PLGA NPs caused a significantly higher extension of atherosclerotic plaques and increasing the expression of associated inflammatory factors, such as TNF-α and IL-6. The combined exposure of ox-LDL and PLGA NPs accelerated the conversion of macrophages to foam cells. Our results highlight further understanding the interaction between PLGA NPs and the atherosclerotic plaques, which we should consider in future nanomaterial design and pay more attention to the process of using nano-medicines on cardiovascular diseases.https://doi.org/10.1186/s12951-021-00863-yNanomedicineAtherosclerosisMacrophagesPhagocytosisFoam cell
collection DOAJ
language English
format Article
sources DOAJ
author Tieying Yin
Yanhong Li
Yuzhen Ren
Atik Rohmana Maftuhatul Fuad
Fangfang Hu
Ruolin Du
Yang Wang
Guixue Wang
Yazhou Wang
spellingShingle Tieying Yin
Yanhong Li
Yuzhen Ren
Atik Rohmana Maftuhatul Fuad
Fangfang Hu
Ruolin Du
Yang Wang
Guixue Wang
Yazhou Wang
Phagocytosis of polymeric nanoparticles aided activation of macrophages to increase atherosclerotic plaques in ApoE−/− mice
Journal of Nanobiotechnology
Nanomedicine
Atherosclerosis
Macrophages
Phagocytosis
Foam cell
author_facet Tieying Yin
Yanhong Li
Yuzhen Ren
Atik Rohmana Maftuhatul Fuad
Fangfang Hu
Ruolin Du
Yang Wang
Guixue Wang
Yazhou Wang
author_sort Tieying Yin
title Phagocytosis of polymeric nanoparticles aided activation of macrophages to increase atherosclerotic plaques in ApoE−/− mice
title_short Phagocytosis of polymeric nanoparticles aided activation of macrophages to increase atherosclerotic plaques in ApoE−/− mice
title_full Phagocytosis of polymeric nanoparticles aided activation of macrophages to increase atherosclerotic plaques in ApoE−/− mice
title_fullStr Phagocytosis of polymeric nanoparticles aided activation of macrophages to increase atherosclerotic plaques in ApoE−/− mice
title_full_unstemmed Phagocytosis of polymeric nanoparticles aided activation of macrophages to increase atherosclerotic plaques in ApoE−/− mice
title_sort phagocytosis of polymeric nanoparticles aided activation of macrophages to increase atherosclerotic plaques in apoe−/− mice
publisher BMC
series Journal of Nanobiotechnology
issn 1477-3155
publishDate 2021-04-01
description Abstract The unique physiochemical properties of nanomaterials have been widely used in drug delivery systems and diagnostic contrast agents. The safety issues of biomaterials with exceptional biocompatibility and hemo-compatibility have also received extensive attention at the nanoscale, especially in cardiovascular disease. Therefore, we conducted a study of the effects of poly (lactic-co-glycolic acid) nanoparticles (PLGA NPs) on the development of aortic atherosclerotic plaques in ApoE−/− mice. The particle size of PLGA NPs was 92.69 ± 3.1 nm and the zeta potential were − 31.6 ± 2.8 mV, with good blood compatibility. ApoE−/− mice were continuously injected with PLGA NPs intravenously for 4 and 12 weeks. Examination of oil red O stained aortic sinuses confirmed that the accumulation of PLGA NPs caused a significantly higher extension of atherosclerotic plaques and increasing the expression of associated inflammatory factors, such as TNF-α and IL-6. The combined exposure of ox-LDL and PLGA NPs accelerated the conversion of macrophages to foam cells. Our results highlight further understanding the interaction between PLGA NPs and the atherosclerotic plaques, which we should consider in future nanomaterial design and pay more attention to the process of using nano-medicines on cardiovascular diseases.
topic Nanomedicine
Atherosclerosis
Macrophages
Phagocytosis
Foam cell
url https://doi.org/10.1186/s12951-021-00863-y
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AT atikrohmanamaftuhatulfuad phagocytosisofpolymericnanoparticlesaidedactivationofmacrophagestoincreaseatheroscleroticplaquesinapoemice
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