Enhanced inter-compartmental Ca <sup>2+</sup> flux modulates mitochondrial metabolism and apoptotic threshold during aging

Enhanced inter-compartmental Ca <sup>2+</sup> flux modulates mitochondrial metabolism and apoptotic threshold during aging

© 2018 The Authors Background: Senescence is characterized by a gradual decline in cellular functions, including changes in energy homeostasis and decreased proliferation activity. As cellular power plants, contributors to signal transduction, sources of reactive oxygen species (ROS) and executors...

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Main Authors: Corina T. Madreiter-Sokolowski, Markus Waldeck-Weiermair, Marie Pierre Bourguignon, Nicole Villeneuve, Benjamin Gottschalk, Christiane Klec, Sarah Stryeck, Snjezana Radulovic, Warisara Parichatikanond, Saša Frank, Tobias Madl, Roland Malli, Wolfgang F. Graier
Other Authors: BioTechMed-Graz
Format: Article
Published: 2020
Subjects:
Biochemistry, Genetics and Molecular Biology
Chemistry
Online Access:https://repository.li.mahidol.ac.th/handle/123456789/50395
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spelling th-mahidol.503952020-01-27T15:17:31Z Enhanced inter-compartmental Ca <sup>2+</sup> flux modulates mitochondrial metabolism and apoptotic threshold during aging Corina T. Madreiter-Sokolowski Markus Waldeck-Weiermair Marie Pierre Bourguignon Nicole Villeneuve Benjamin Gottschalk Christiane Klec Sarah Stryeck Snjezana Radulovic Warisara Parichatikanond Saša Frank Tobias Madl Roland Malli Wolfgang F. Graier BioTechMed-Graz ETH Zürich Servier Mahidol University Medizinische Universität Graz Biochemistry, Genetics and Molecular Biology Chemistry © 2018 The Authors Background: Senescence is characterized by a gradual decline in cellular functions, including changes in energy homeostasis and decreased proliferation activity. As cellular power plants, contributors to signal transduction, sources of reactive oxygen species (ROS) and executors of programmed cell death, mitochondria are in a unique position to affect aging-associated processes of cellular decline. Notably, metabolic activation of mitochondria is tightly linked to Ca 2+ due to the Ca 2+ -dependency of several enzymes in the Krebs cycle, however, overload of mitochondria with Ca 2+ triggers cell death pathways. Consequently, a machinery of proteins tightly controls mitochondrial Ca 2+ homeostasis as well as the exchange of Ca 2+ between the different cellular compartments, including Ca 2+ flux between mitochondria and the endoplasmic reticulum (ER). Methods: In this study, we investigated age-related changes in mitochondrial Ca 2+ homeostasis, mitochondrial-ER linkage and the activity of the main ROS production site, the mitochondrial respiration chain, in an in vitro aging model based on porcine aortic endothelial cells (PAECs), using high-resolution live cell imaging, proteomics and various molecular biological methods. Results: We describe that in aged endothelial cells, increased ER-mitochondrial Ca 2+ crosstalk occurs due to enhanced ER-mitochondrial tethering. The close functional inter-organelle linkage increases mitochondrial Ca 2+ uptake and thereby the activity of the mitochondrial respiration, but also makes senescent cells more vulnerable to mitochondrial Ca 2+ -overload-induced cell death. Moreover, we identified the senolytic properties of the polyphenol resveratrol, triggering cell death via mitochondrial Ca 2+ overload exclusively in senescent cells. Conclusion: By unveiling aging-related changes in the inter-organelle tethering and Ca 2+ communications we have advanced the understanding of endothelial aging and highlighted a potential basis to develop drugs specifically targeting senescent cells. 2020-01-27T07:58:28Z 2020-01-27T07:58:28Z 2019-01-01 Article Redox Biology. Vol.20, (2019), 458-466 10.1016/j.redox.2018.11.003 22132317 2-s2.0-85056644405 https://repository.li.mahidol.ac.th/handle/123456789/50395 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85056644405&origin=inward
institution Mahidol University
building Mahidol University Library
continent Asia
country Thailand
Thailand
content_provider Mahidol University Library
collection Mahidol University Institutional Repository
topic Biochemistry, Genetics and Molecular Biology
Chemistry
spellingShingle Biochemistry, Genetics and Molecular Biology
Chemistry
Corina T. Madreiter-Sokolowski
Markus Waldeck-Weiermair
Marie Pierre Bourguignon
Nicole Villeneuve
Benjamin Gottschalk
Christiane Klec
Sarah Stryeck
Snjezana Radulovic
Warisara Parichatikanond
Saša Frank
Tobias Madl
Roland Malli
Wolfgang F. Graier
Enhanced inter-compartmental Ca <sup>2+</sup> flux modulates mitochondrial metabolism and apoptotic threshold during aging
description © 2018 The Authors Background: Senescence is characterized by a gradual decline in cellular functions, including changes in energy homeostasis and decreased proliferation activity. As cellular power plants, contributors to signal transduction, sources of reactive oxygen species (ROS) and executors of programmed cell death, mitochondria are in a unique position to affect aging-associated processes of cellular decline. Notably, metabolic activation of mitochondria is tightly linked to Ca 2+ due to the Ca 2+ -dependency of several enzymes in the Krebs cycle, however, overload of mitochondria with Ca 2+ triggers cell death pathways. Consequently, a machinery of proteins tightly controls mitochondrial Ca 2+ homeostasis as well as the exchange of Ca 2+ between the different cellular compartments, including Ca 2+ flux between mitochondria and the endoplasmic reticulum (ER). Methods: In this study, we investigated age-related changes in mitochondrial Ca 2+ homeostasis, mitochondrial-ER linkage and the activity of the main ROS production site, the mitochondrial respiration chain, in an in vitro aging model based on porcine aortic endothelial cells (PAECs), using high-resolution live cell imaging, proteomics and various molecular biological methods. Results: We describe that in aged endothelial cells, increased ER-mitochondrial Ca 2+ crosstalk occurs due to enhanced ER-mitochondrial tethering. The close functional inter-organelle linkage increases mitochondrial Ca 2+ uptake and thereby the activity of the mitochondrial respiration, but also makes senescent cells more vulnerable to mitochondrial Ca 2+ -overload-induced cell death. Moreover, we identified the senolytic properties of the polyphenol resveratrol, triggering cell death via mitochondrial Ca 2+ overload exclusively in senescent cells. Conclusion: By unveiling aging-related changes in the inter-organelle tethering and Ca 2+ communications we have advanced the understanding of endothelial aging and highlighted a potential basis to develop drugs specifically targeting senescent cells.
author2 BioTechMed-Graz
author_facet BioTechMed-Graz
Corina T. Madreiter-Sokolowski
Markus Waldeck-Weiermair
Marie Pierre Bourguignon
Nicole Villeneuve
Benjamin Gottschalk
Christiane Klec
Sarah Stryeck
Snjezana Radulovic
Warisara Parichatikanond
Saša Frank
Tobias Madl
Roland Malli
Wolfgang F. Graier
format Article
author Corina T. Madreiter-Sokolowski
Markus Waldeck-Weiermair
Marie Pierre Bourguignon
Nicole Villeneuve
Benjamin Gottschalk
Christiane Klec
Sarah Stryeck
Snjezana Radulovic
Warisara Parichatikanond
Saša Frank
Tobias Madl
Roland Malli
Wolfgang F. Graier
author_sort Corina T. Madreiter-Sokolowski
title Enhanced inter-compartmental Ca <sup>2+</sup> flux modulates mitochondrial metabolism and apoptotic threshold during aging
title_short Enhanced inter-compartmental Ca <sup>2+</sup> flux modulates mitochondrial metabolism and apoptotic threshold during aging
title_full Enhanced inter-compartmental Ca <sup>2+</sup> flux modulates mitochondrial metabolism and apoptotic threshold during aging
title_fullStr Enhanced inter-compartmental Ca <sup>2+</sup> flux modulates mitochondrial metabolism and apoptotic threshold during aging
title_full_unstemmed Enhanced inter-compartmental Ca <sup>2+</sup> flux modulates mitochondrial metabolism and apoptotic threshold during aging
title_sort enhanced inter-compartmental ca <sup>2+</sup> flux modulates mitochondrial metabolism and apoptotic threshold during aging
publishDate 2020
url https://repository.li.mahidol.ac.th/handle/123456789/50395
_version_ 1763493250222522368

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