The Plant Decapeptide OSIP108 Can Alleviate Mitochondrial Dysfunction Induced by Cisplatin in Human Cells

We investigated the effect of the Arabidopsis thaliana-derived decapeptide OSIP108 on human cell tolerance to the chemotherapeutic agent cisplatin (Cp), which induces apoptosis and mitochondrial dysfunction. We found that OSIP108 increases the tolerance of HepG2 cells to Cp and prevents Cp-induced c...

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Autores principales: Spincemaille, Pieter, Alborzinia, Hamed, Dekervel, Jeroen, Windmolders, Petra, van Pelt, Jos, Cassiman, David, Cheneval, Olivier, Craik, David J., Schur, Julia, Ott, Ingo, Wölfl, Stefan, Cammue, Bruno P. A., Thevissen, Karin
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2014
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6271462/
https://www.ncbi.nlm.nih.gov/pubmed/25244288
http://dx.doi.org/10.3390/molecules190915088
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author Spincemaille, Pieter
Alborzinia, Hamed
Dekervel, Jeroen
Windmolders, Petra
van Pelt, Jos
Cassiman, David
Cheneval, Olivier
Craik, David J.
Schur, Julia
Ott, Ingo
Wölfl, Stefan
Cammue, Bruno P. A.
Thevissen, Karin
author_facet Spincemaille, Pieter
Alborzinia, Hamed
Dekervel, Jeroen
Windmolders, Petra
van Pelt, Jos
Cassiman, David
Cheneval, Olivier
Craik, David J.
Schur, Julia
Ott, Ingo
Wölfl, Stefan
Cammue, Bruno P. A.
Thevissen, Karin
author_sort Spincemaille, Pieter
collection PubMed
description We investigated the effect of the Arabidopsis thaliana-derived decapeptide OSIP108 on human cell tolerance to the chemotherapeutic agent cisplatin (Cp), which induces apoptosis and mitochondrial dysfunction. We found that OSIP108 increases the tolerance of HepG2 cells to Cp and prevents Cp-induced changes in basic cellular metabolism. More specifically, we demonstrate that OSIP108 reduces Cp-induced inhibition of respiration, decreases glycolysis and prevents Cp-uptake in HepG2 cells. Apart from its protective action against Cp in human cells, OSIP108 also increases the yeast Saccharomyces cerevisiae tolerance to Cp. A limited yeast-based study of OSIP108 analogs showed that cyclization does not severely affect its activity, which was further confirmed in HepG2 cells. Furthermore, the similarity in the activity of the d-stereoisomer (mirror image) form of OSIP108 with the l-stereoisomer suggests that its mode of action does not involve binding to a stereospecific receptor. In addition, as OSIP108 decreases Cp uptake in HepG2 cells and the anti-Cp activity of OSIP108 analogs without free cysteine is reduced, OSIP108 seems to protect against Cp-induced toxicity only partly via complexation. Taken together, our data indicate that OSIP108 and its cyclic derivatives can protect against Cp-induced toxicity and, thus, show potential as treatment options for mitochondrial dysfunction- and apoptosis-related conditions.
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spelling pubmed-62714622018-12-27 The Plant Decapeptide OSIP108 Can Alleviate Mitochondrial Dysfunction Induced by Cisplatin in Human Cells Spincemaille, Pieter Alborzinia, Hamed Dekervel, Jeroen Windmolders, Petra van Pelt, Jos Cassiman, David Cheneval, Olivier Craik, David J. Schur, Julia Ott, Ingo Wölfl, Stefan Cammue, Bruno P. A. Thevissen, Karin Molecules Article We investigated the effect of the Arabidopsis thaliana-derived decapeptide OSIP108 on human cell tolerance to the chemotherapeutic agent cisplatin (Cp), which induces apoptosis and mitochondrial dysfunction. We found that OSIP108 increases the tolerance of HepG2 cells to Cp and prevents Cp-induced changes in basic cellular metabolism. More specifically, we demonstrate that OSIP108 reduces Cp-induced inhibition of respiration, decreases glycolysis and prevents Cp-uptake in HepG2 cells. Apart from its protective action against Cp in human cells, OSIP108 also increases the yeast Saccharomyces cerevisiae tolerance to Cp. A limited yeast-based study of OSIP108 analogs showed that cyclization does not severely affect its activity, which was further confirmed in HepG2 cells. Furthermore, the similarity in the activity of the d-stereoisomer (mirror image) form of OSIP108 with the l-stereoisomer suggests that its mode of action does not involve binding to a stereospecific receptor. In addition, as OSIP108 decreases Cp uptake in HepG2 cells and the anti-Cp activity of OSIP108 analogs without free cysteine is reduced, OSIP108 seems to protect against Cp-induced toxicity only partly via complexation. Taken together, our data indicate that OSIP108 and its cyclic derivatives can protect against Cp-induced toxicity and, thus, show potential as treatment options for mitochondrial dysfunction- and apoptosis-related conditions. MDPI 2014-09-19 /pmc/articles/PMC6271462/ /pubmed/25244288 http://dx.doi.org/10.3390/molecules190915088 Text en © 2014 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution license (http://creativecommons.org/licenses/by/3.0/).
spellingShingle Article
Spincemaille, Pieter
Alborzinia, Hamed
Dekervel, Jeroen
Windmolders, Petra
van Pelt, Jos
Cassiman, David
Cheneval, Olivier
Craik, David J.
Schur, Julia
Ott, Ingo
Wölfl, Stefan
Cammue, Bruno P. A.
Thevissen, Karin
The Plant Decapeptide OSIP108 Can Alleviate Mitochondrial Dysfunction Induced by Cisplatin in Human Cells
title The Plant Decapeptide OSIP108 Can Alleviate Mitochondrial Dysfunction Induced by Cisplatin in Human Cells
title_full The Plant Decapeptide OSIP108 Can Alleviate Mitochondrial Dysfunction Induced by Cisplatin in Human Cells
title_fullStr The Plant Decapeptide OSIP108 Can Alleviate Mitochondrial Dysfunction Induced by Cisplatin in Human Cells
title_full_unstemmed The Plant Decapeptide OSIP108 Can Alleviate Mitochondrial Dysfunction Induced by Cisplatin in Human Cells
title_short The Plant Decapeptide OSIP108 Can Alleviate Mitochondrial Dysfunction Induced by Cisplatin in Human Cells
title_sort plant decapeptide osip108 can alleviate mitochondrial dysfunction induced by cisplatin in human cells
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6271462/
https://www.ncbi.nlm.nih.gov/pubmed/25244288
http://dx.doi.org/10.3390/molecules190915088
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