Hypoxia and hydrogen sulfide differentially affect normal and tumor-derived vascular endothelium

Hypoxia and hydrogen sulfide differentially affect normal and tumor-derived vascular endothelium

Background: endothelial cells play a key role in vessels formation both under physiological and pathological conditions. Their behavior is influenced by blood components including gasotransmitters (H2S, NO and CO). Tumor cells are subjected to a cyclic shift between pro-oxidative and hypoxic state a...

Full description

Bibliographic Details
Main Authors: Serena Bianco, Daniele Mancardi, Annalisa Merlino, Benedetta Bussolati, Luca Munaron
Format: Article
Language:English
Published: Elsevier 2017-08-01
Series:Redox Biology
Online Access:http://www.sciencedirect.com/science/article/pii/S2213231716304098
id doaj-2a451ce710c3419792662cfe1f04f8d1
record_format Article
spelling doaj-2a451ce710c3419792662cfe1f04f8d12020-11-24T21:51:09ZengElsevierRedox Biology2213-23172017-08-0112499504Hypoxia and hydrogen sulfide differentially affect normal and tumor-derived vascular endotheliumSerena Bianco0Daniele Mancardi1Annalisa Merlino2Benedetta Bussolati3Luca Munaron4Department of Life Sciences & Systems Biology, University of Torino, ItalyDepartment of Clinical and Biological Sciences, University of Torino, ItalyDepartment of Life Sciences & Systems Biology, University of Torino, ItalyDepartment of Molecular Biotechnology and Health Sciences, University of Torino, ItalyDepartment of Life Sciences & Systems Biology, University of Torino, Italy; Nanostructured Interfaces and Surfaces Centre of Excellence (NIS), University of Torino, Italy; Corresponding author at: Department Life Sciences & Systems Biology University of Torino, Via Accademia Albertina 13, 10123 Torino, Italy.Background: endothelial cells play a key role in vessels formation both under physiological and pathological conditions. Their behavior is influenced by blood components including gasotransmitters (H2S, NO and CO). Tumor cells are subjected to a cyclic shift between pro-oxidative and hypoxic state and, in this scenario, H2S can be both cytoprotective and detrimental depending on its concentration. H2S effects on tumors onset and development is scarcely studied, particularly concerning tumor angiogenesis. We previously demonstrated that H2S is proangiogenic for tumoral but not for normal endothelium and this may represent a target for antiangiogenic therapeutical strategies. Methods: in this work, we investigate cell viability, migration and tubulogenesis on human EC derived from two different tumors, breast and renal carcinoma (BTEC and RTEC), compared to normal microvascular endothelium (HMEC) under oxidative stress, hypoxia and treatment with exogenous H2S. Results: all EC types are similarly sensitive to oxidative stress induced by hydrogen peroxide; chemical hypoxia differentially affects endothelial viability, that results unaltered by real hypoxia. H2S neither affects cell viability nor prevents hypoxia and H2O2-induced damage. Endothelial migration is enhanced by hypoxia, while tubulogenesis is inhibited for all EC types. H2S acts differentially on EC migration and tubulogenesis. Conclusions: these data provide evidence for a great variability of normal and altered endothelium in response to the environmental conditions. Keywords: Hydrogen sulfide, Human microvascular endothelial cells, Human breast carcinoma-derived EC, Human renal carcinoma-derived EC, Tumor angiogenesishttp://www.sciencedirect.com/science/article/pii/S2213231716304098
collection DOAJ
language English
format Article
sources DOAJ
author Serena Bianco
Daniele Mancardi
Annalisa Merlino
Benedetta Bussolati
Luca Munaron
spellingShingle Serena Bianco
Daniele Mancardi
Annalisa Merlino
Benedetta Bussolati
Luca Munaron
Hypoxia and hydrogen sulfide differentially affect normal and tumor-derived vascular endothelium
Redox Biology
author_facet Serena Bianco
Daniele Mancardi
Annalisa Merlino
Benedetta Bussolati
Luca Munaron
author_sort Serena Bianco
title Hypoxia and hydrogen sulfide differentially affect normal and tumor-derived vascular endothelium
title_short Hypoxia and hydrogen sulfide differentially affect normal and tumor-derived vascular endothelium
title_full Hypoxia and hydrogen sulfide differentially affect normal and tumor-derived vascular endothelium
title_fullStr Hypoxia and hydrogen sulfide differentially affect normal and tumor-derived vascular endothelium
title_full_unstemmed Hypoxia and hydrogen sulfide differentially affect normal and tumor-derived vascular endothelium
title_sort hypoxia and hydrogen sulfide differentially affect normal and tumor-derived vascular endothelium
publisher Elsevier
series Redox Biology
issn 2213-2317
publishDate 2017-08-01
description Background: endothelial cells play a key role in vessels formation both under physiological and pathological conditions. Their behavior is influenced by blood components including gasotransmitters (H2S, NO and CO). Tumor cells are subjected to a cyclic shift between pro-oxidative and hypoxic state and, in this scenario, H2S can be both cytoprotective and detrimental depending on its concentration. H2S effects on tumors onset and development is scarcely studied, particularly concerning tumor angiogenesis. We previously demonstrated that H2S is proangiogenic for tumoral but not for normal endothelium and this may represent a target for antiangiogenic therapeutical strategies. Methods: in this work, we investigate cell viability, migration and tubulogenesis on human EC derived from two different tumors, breast and renal carcinoma (BTEC and RTEC), compared to normal microvascular endothelium (HMEC) under oxidative stress, hypoxia and treatment with exogenous H2S. Results: all EC types are similarly sensitive to oxidative stress induced by hydrogen peroxide; chemical hypoxia differentially affects endothelial viability, that results unaltered by real hypoxia. H2S neither affects cell viability nor prevents hypoxia and H2O2-induced damage. Endothelial migration is enhanced by hypoxia, while tubulogenesis is inhibited for all EC types. H2S acts differentially on EC migration and tubulogenesis. Conclusions: these data provide evidence for a great variability of normal and altered endothelium in response to the environmental conditions. Keywords: Hydrogen sulfide, Human microvascular endothelial cells, Human breast carcinoma-derived EC, Human renal carcinoma-derived EC, Tumor angiogenesis
url http://www.sciencedirect.com/science/article/pii/S2213231716304098
work_keys_str_mv AT serenabianco hypoxiaandhydrogensulfidedifferentiallyaffectnormalandtumorderivedvascularendothelium
AT danielemancardi hypoxiaandhydrogensulfidedifferentiallyaffectnormalandtumorderivedvascularendothelium
AT annalisamerlino hypoxiaandhydrogensulfidedifferentiallyaffectnormalandtumorderivedvascularendothelium
AT benedettabussolati hypoxiaandhydrogensulfidedifferentiallyaffectnormalandtumorderivedvascularendothelium
AT lucamunaron hypoxiaandhydrogensulfidedifferentiallyaffectnormalandtumorderivedvascularendothelium
_version_ 1725880129985445888

Similar Items