N-Acetylcysteine Augments Surface Thiols and Differentially Modulates Cell Adhesion and Invasion in vitro and Metastatic Potential in vivo of B16F1 Melanoma

N-Acetylcysteine Augments Surface Thiols and Differentially Modulates Cell Adhesion and Invasion in vitro and Metastatic Potential in vivo of B16F1 Melanoma

The redox state of surface protein thiols influences a variety of cell functions, and we recently reported that adhesion molecules can be redox regulated. We investigated the effect of reducing surface thiols using N-acetylcysteine (NAC) on the biological properties of murine melanoma B16F1 cells. T...

Full description

Bibliographic Details
Main Authors: T. Laragione, R. Tonelli, M. D'Incalci, T. Colombo, P. Ghezzi
Format: Article
Language:English
Published: SAGE Publishing 2005-01-01
Series:European Journal of Inflammation
Online Access:https://doi.org/10.1177/1721727X0500300104
id doaj-0ec53a32f58a4e78bd46630f0a83093c
record_format Article
spelling doaj-0ec53a32f58a4e78bd46630f0a83093c2020-11-25T03:43:00ZengSAGE PublishingEuropean Journal of Inflammation1721-727X2005-01-01310.1177/1721727X0500300104N-Acetylcysteine Augments Surface Thiols and Differentially Modulates Cell Adhesion and Invasion in vitro and Metastatic Potential in vivo of B16F1 MelanomaT. LaragioneR. TonelliM. D'IncalciT. ColomboP. GhezziThe redox state of surface protein thiols influences a variety of cell functions, and we recently reported that adhesion molecules can be redox regulated. We investigated the effect of reducing surface thiols using N-acetylcysteine (NAC) on the biological properties of murine melanoma B16F1 cells. Treating the cells with NAC (5mM for 2h, then removed by washing) augmented their capacity to adhere to fibronectin, as well as to adhere to and invade an endothelial cell monolayer. This was associated with an augmented expression of reduced surface protein thiols. However, when control or NAC-pretreated melanoma cells were injected i.v. in mice to induce experimental lung metastases, we could observe an inhibition of metastatic potential by NAC. This discrepancy suggest that other redox sensitive steps, in addition to adhesion, are important in regulating the metastatic phenotype in vivo.https://doi.org/10.1177/1721727X0500300104
collection DOAJ
language English
format Article
sources DOAJ
author T. Laragione
R. Tonelli
M. D'Incalci
T. Colombo
P. Ghezzi
spellingShingle T. Laragione
R. Tonelli
M. D'Incalci
T. Colombo
P. Ghezzi
N-Acetylcysteine Augments Surface Thiols and Differentially Modulates Cell Adhesion and Invasion in vitro and Metastatic Potential in vivo of B16F1 Melanoma
European Journal of Inflammation
author_facet T. Laragione
R. Tonelli
M. D'Incalci
T. Colombo
P. Ghezzi
author_sort T. Laragione
title N-Acetylcysteine Augments Surface Thiols and Differentially Modulates Cell Adhesion and Invasion in vitro and Metastatic Potential in vivo of B16F1 Melanoma
title_short N-Acetylcysteine Augments Surface Thiols and Differentially Modulates Cell Adhesion and Invasion in vitro and Metastatic Potential in vivo of B16F1 Melanoma
title_full N-Acetylcysteine Augments Surface Thiols and Differentially Modulates Cell Adhesion and Invasion in vitro and Metastatic Potential in vivo of B16F1 Melanoma
title_fullStr N-Acetylcysteine Augments Surface Thiols and Differentially Modulates Cell Adhesion and Invasion in vitro and Metastatic Potential in vivo of B16F1 Melanoma
title_full_unstemmed N-Acetylcysteine Augments Surface Thiols and Differentially Modulates Cell Adhesion and Invasion in vitro and Metastatic Potential in vivo of B16F1 Melanoma
title_sort n-acetylcysteine augments surface thiols and differentially modulates cell adhesion and invasion in vitro and metastatic potential in vivo of b16f1 melanoma
publisher SAGE Publishing
series European Journal of Inflammation
issn 1721-727X
publishDate 2005-01-01
description The redox state of surface protein thiols influences a variety of cell functions, and we recently reported that adhesion molecules can be redox regulated. We investigated the effect of reducing surface thiols using N-acetylcysteine (NAC) on the biological properties of murine melanoma B16F1 cells. Treating the cells with NAC (5mM for 2h, then removed by washing) augmented their capacity to adhere to fibronectin, as well as to adhere to and invade an endothelial cell monolayer. This was associated with an augmented expression of reduced surface protein thiols. However, when control or NAC-pretreated melanoma cells were injected i.v. in mice to induce experimental lung metastases, we could observe an inhibition of metastatic potential by NAC. This discrepancy suggest that other redox sensitive steps, in addition to adhesion, are important in regulating the metastatic phenotype in vivo.
url https://doi.org/10.1177/1721727X0500300104
work_keys_str_mv AT tlaragione nacetylcysteineaugmentssurfacethiolsanddifferentiallymodulatescelladhesionandinvasioninvitroandmetastaticpotentialinvivoofb16f1melanoma
AT rtonelli nacetylcysteineaugmentssurfacethiolsanddifferentiallymodulatescelladhesionandinvasioninvitroandmetastaticpotentialinvivoofb16f1melanoma
AT mdincalci nacetylcysteineaugmentssurfacethiolsanddifferentiallymodulatescelladhesionandinvasioninvitroandmetastaticpotentialinvivoofb16f1melanoma
AT tcolombo nacetylcysteineaugmentssurfacethiolsanddifferentiallymodulatescelladhesionandinvasioninvitroandmetastaticpotentialinvivoofb16f1melanoma
AT pghezzi nacetylcysteineaugmentssurfacethiolsanddifferentiallymodulatescelladhesionandinvasioninvitroandmetastaticpotentialinvivoofb16f1melanoma
_version_ 1724522017811595264

Similar Items