po6cby4k

Property	Value
?:abstract	BACKGROUND: Mesenchymal stem cells (MSCs), including adipose-derived mesenchymal stem cells (ADSCs), have been shown to attenuate organ damage in acute respiratory distress syndrome (ARDS) and sepsis; however, the underlying mechanisms are not fully understood. In this study, we aimed to explore the potential roles and molecular mechanisms of action of ADSCs in histone-induced endothelial damage. METHODS: Male C57BL/6 N mice were intravenously injected with ADSCs, followed by histones or a vehicle. The mice in each group were assessed for survival, pulmonary vascular permeability, and histological changes. A co-culture model with primary human umbilical vein endothelial cells (HUVECs) exposed to histones was used to clarify the paracrine effect of ADSCs. Overexpression and inhibition of miR-126 ADSCs were also examined as causative factors for endothelial protection. RESULTS: The administration of ADSCs markedly improved survival, inhibited histone-mediated lung hemorrhage and edema, and attenuated vascular hyper-permeability in mice. ADSCs were engrafted in the injured lung and attenuated histone-induced endothelial cell apoptosis. ADSCs showed endothelial protection (via a paracrine effect) and Akt phosphorylation in the histone-exposed HUVECs. Notably, increased Akt phosphorylation by ADSCs was mostly mediated by exosomes in histone-induced cytotoxicity and lung damage. Moreover, the expression of miR-126 was increased in exosomes from histone-exposed ADSCs. Remarkably, the inhibition of miR-126 in ADSCs failed to increase Akt phosphorylation in histone-exposed HUVECs. CONCLUSION: ADSC-derived exosomes may exert protective effects on endothelial cells via activation of the PI3K/Akt pathway.
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?:creator	<https://research.tib.eu/covid-19/entity/Mizuta%2C_Yukie%3B_Akahoshi%2C_Tomohiko%3B_Guo%2C_Jie%3B_Zhang%2C_Shuo%3B_Narahara%2C_Sayoko%3B_Kawano%2C_Takahito%3B_Murata%2C_Masaharu%3B_Tokuda%2C_Kentaro%3B_Eto%2C_Masatoshi%3B_Hashizume%2C_Makoto%3B_Yamaura%2C_Ken>
?:doi	<https://research.tib.eu/covid-19/entity/10.1186/s13287-020-02015-9>
?:doi	10.1186/s13287-020-02015-9
?:journal	Stem_Cell_Res_Ther
?:license	cc-by
?:pdf_json_files	document_parses/pdf_json/c9855c4305b51c058ba3913a047825571b48d196.json
?:pmc_json_files	document_parses/pmc_json/PMC7691956.xml.json
?:pmcid	<https://research.tib.eu/covid-19/entity/PMC7691956>
?:pmid	<https://research.tib.eu/covid-19/entity/33246503.0>
?:pmid	33246503.0
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?:sha_id	<https://research.tib.eu/covid-19/entity/c9855c4305b51c058ba3913a047825571b48d196>
?:source	Medline; PMC
?:title	Exosomes from adipose tissue-derived mesenchymal stem cells ameliorate histone-induced acute lung injury by activating the PI3K/Akt pathway in endothelial cells
?:type	<https://research.tib.eu/covid-19/vocab/Publication>
?:year	2020-11-27

Property

Value

?:abstract

BACKGROUND: Mesenchymal stem cells (MSCs), including adipose-derived mesenchymal stem cells (ADSCs), have been shown to attenuate organ damage in acute respiratory distress syndrome (ARDS) and sepsis; however, the underlying mechanisms are not fully understood. In this study, we aimed to explore the potential roles and molecular mechanisms of action of ADSCs in histone-induced endothelial damage. METHODS: Male C57BL/6 N mice were intravenously injected with ADSCs, followed by histones or a vehicle. The mice in each group were assessed for survival, pulmonary vascular permeability, and histological changes. A co-culture model with primary human umbilical vein endothelial cells (HUVECs) exposed to histones was used to clarify the paracrine effect of ADSCs. Overexpression and inhibition of miR-126 ADSCs were also examined as causative factors for endothelial protection. RESULTS: The administration of ADSCs markedly improved survival, inhibited histone-mediated lung hemorrhage and edema, and attenuated vascular hyper-permeability in mice. ADSCs were engrafted in the injured lung and attenuated histone-induced endothelial cell apoptosis. ADSCs showed endothelial protection (via a paracrine effect) and Akt phosphorylation in the histone-exposed HUVECs. Notably, increased Akt phosphorylation by ADSCs was mostly mediated by exosomes in histone-induced cytotoxicity and lung damage. Moreover, the expression of miR-126 was increased in exosomes from histone-exposed ADSCs. Remarkably, the inhibition of miR-126 in ADSCs failed to increase Akt phosphorylation in histone-exposed HUVECs. CONCLUSION: ADSC-derived exosomes may exert protective effects on endothelial cells via activation of the PI3K/Akt pathway.

is ?:annotates of

?:creator

<https://research.tib.eu/covid-19/entity/Mizuta%2C_Yukie%3B_Akahoshi%2C_Tomohiko%3B_Guo%2C_Jie%3B_Zhang%2C_Shuo%3B_Narahara%2C_Sayoko%3B_Kawano%2C_Takahito%3B_Murata%2C_Masaharu%3B_Tokuda%2C_Kentaro%3B_Eto%2C_Masatoshi%3B_Hashizume%2C_Makoto%3B_Yamaura%2C_Ken>

?:doi

<https://research.tib.eu/covid-19/entity/10.1186/s13287-020-02015-9>

?:doi

10.1186/s13287-020-02015-9

?:journal

Stem_Cell_Res_Ther

?:license

cc-by

?:pdf_json_files

document_parses/pdf_json/c9855c4305b51c058ba3913a047825571b48d196.json

?:pmc_json_files

document_parses/pmc_json/PMC7691956.xml.json

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<https://research.tib.eu/covid-19/entity/PMC7691956>

?:pmid

<https://research.tib.eu/covid-19/entity/33246503.0>

?:pmid

33246503.0

?:publication_isRelatedTo_Disease

<https://research.tib.eu/covid-19/entity/COVID-19>

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?:sha_id

<https://research.tib.eu/covid-19/entity/c9855c4305b51c058ba3913a047825571b48d196>

?:source

Medline; PMC

?:title

Exosomes from adipose tissue-derived mesenchymal stem cells ameliorate histone-induced acute lung injury by activating the PI3K/Akt pathway in endothelial cells

?:type

<https://research.tib.eu/covid-19/vocab/Publication>

?:year

2020-11-27

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