The effects of antimycin A on endothelial cells in cell death, reactive oxygen species and GSH levels

Antimycin A (AMA) inhibits mitochondrial electron transport chain between cytochrome b and c. Here, we evaluated the effects of AMA on the growth and death of endothelial cells (ECs) in relation to reactive oxygen species (ROS) and glutathione (GSH) levels. AMA inhibited the growth of calf pulmonary...

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Published in:	Toxicology in vitro Vol. 24; no. 4; pp. 1111 - 1118
Main Authors:	You, Bo Ra, Park, Woo Hyun
Format:	Journal Article
Language:	English
Published:	England Elsevier Ltd 01-06-2010
Subjects:	Acetylcysteine Acetylcysteine - toxicity AMA Animals Antimycin A - toxicity Apoptosis Buthionine Sulfoximine - toxicity Caspase Caspase Inhibitors Cell Line Endothelial cells Endothelial Cells - drug effects Endothelial Cells - metabolism Enzyme Inhibitors - toxicity Glutathione - metabolism GSH Humans Membrane Potential, Mitochondrial - drug effects Reactive Oxygen Species - metabolism ROS NADPH DHE CPAEC H2DCFDA MTT CMFDA FITC Z-DEVD-FMK ECs AMA FBS MMP (ΔΨm) HUVEC GSH BSO Z-VAD-FMK Caspase SOD Z-LEHD-FMK Endothelial cells Z-IETD-FMK NAC ROS XO Apoptosis
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Abstract	Antimycin A (AMA) inhibits mitochondrial electron transport chain between cytochrome b and c. Here, we evaluated the effects of AMA on the growth and death of endothelial cells (ECs) in relation to reactive oxygen species (ROS) and glutathione (GSH) levels. AMA inhibited the growth of calf pulmonary artery endothelial cells (CPAEC) and human umbilical vein endothelial cells (HUVEC). AMA also induced apoptosis in both ECs which was accompanied by the loss of mitochondrial membrane potential (MMP; ΔΨm). HUVEC were more sensitive to AMA than CPAEC. AMA increased ROS level in CPAEC but decreased the levels in HUVEC. Z-VAD (pan-caspase inhibitor) mildly prevented apoptosis in AMA-treated ECs without the significant changes of ROS. N-acetyl-cysteine (NAC; a well-known antioxidant) decreased ROS levels in AMA-treated ECs. NAC reduced CPAEC death by AMA but enhanced HUVEC death by it. Furthermore, AMA increased GSH depleted cell numbers in ECs. Buthionine sulfoximine (BSO; an inhibitor of GSH synthesis), showing a pro-apoptotic effect on AMA-treated HUVEC, significantly increased GSH depleted cell number but it did not affect cell death and GSH depletion in AMA-treated CPAEC. In conclusion, AMA inhibited the growth of ECs via caspase-dependent apoptosis. ROS level change by AMA was partially related to CPAEC death, but did not affect HUVEC death. The change of GSH contents by AMA influenced the death of ECs.
AbstractList	Antimycin A (AMA) inhibits mitochondrial electron transport chain between cytochrome b and c. Here, we evaluated the effects of AMA on the growth and death of endothelial cells (ECs) in relation to reactive oxygen species (ROS) and glutathione (GSH) levels. AMA inhibited the growth of calf pulmonary artery endothelial cells (CPAEC) and human umbilical vein endothelial cells (HUVEC). AMA also induced apoptosis in both ECs which was accompanied by the loss of mitochondrial membrane potential (MMP; ΔΨm). HUVEC were more sensitive to AMA than CPAEC. AMA increased ROS level in CPAEC but decreased the levels in HUVEC. Z-VAD (pan-caspase inhibitor) mildly prevented apoptosis in AMA-treated ECs without the significant changes of ROS. N-acetyl-cysteine (NAC; a well-known antioxidant) decreased ROS levels in AMA-treated ECs. NAC reduced CPAEC death by AMA but enhanced HUVEC death by it. Furthermore, AMA increased GSH depleted cell numbers in ECs. Buthionine sulfoximine (BSO; an inhibitor of GSH synthesis), showing a pro-apoptotic effect on AMA-treated HUVEC, significantly increased GSH depleted cell number but it did not affect cell death and GSH depletion in AMA-treated CPAEC. In conclusion, AMA inhibited the growth of ECs via caspase-dependent apoptosis. ROS level change by AMA was partially related to CPAEC death, but did not affect HUVEC death. The change of GSH contents by AMA influenced the death of ECs. Antimycin A (AMA) inhibits mitochondrial electron transport chain between cytochrome b and c. Here, we evaluated the effects of AMA on the growth and death of endothelial cells (ECs) in relation to reactive oxygen species (ROS) and glutathione (GSH) levels. AMA inhibited the growth of calf pulmonary artery endothelial cells (CPAEC) and human umbilical vein endothelial cells (HUVEC). AMA also induced apoptosis in both ECs which was accompanied by the loss of mitochondrial membrane potential (MMP; Delta psi sub(m)). HUVEC were more sensitive to AMA than CPAEC. AMA increased ROS level in CPAEC but decreased the levels in HUVEC. Z-VAD (pan-caspase inhibitor) mildly prevented apoptosis in AMA-treated ECs without the significant changes of ROS. N-acetyl-cysteine (NAC; a well-known antioxidant) decreased ROS levels in AMA-treated ECs. NAC reduced CPAEC death by AMA but enhanced HUVEC death by it. Furthermore, AMA increased GSH depleted cell numbers in ECs. Buthionine sulfoximine (BSO; an inhibitor of GSH synthesis), showing a pro-apoptotic effect on AMA-treated HUVEC, significantly increased GSH depleted cell number but it did not affect cell death and GSH depletion in AMA-treated CPAEC. In conclusion, AMA inhibited the growth of ECs via caspase-dependent apoptosis. ROS level change by AMA was partially related to CPAEC death, but did not affect HUVEC death. The change of GSH contents by AMA influenced the death of ECs. Antimycin A (AMA) inhibits mitochondrial electron transport chain between cytochrome b and c. Here, we evaluated the effects of AMA on the growth and death of endothelial cells (ECs) in relation to reactive oxygen species (ROS) and glutathione (GSH) levels. AMA inhibited the growth of calf pulmonary artery endothelial cells (CPAEC) and human umbilical vein endothelial cells (HUVEC). AMA also induced apoptosis in both ECs which was accompanied by the loss of mitochondrial membrane potential (MMP; DeltaPsi(m)). HUVEC were more sensitive to AMA than CPAEC. AMA increased ROS level in CPAEC but decreased the levels in HUVEC. Z-VAD (pan-caspase inhibitor) mildly prevented apoptosis in AMA-treated ECs without the significant changes of ROS. N-acetyl-cysteine (NAC; a well-known antioxidant) decreased ROS levels in AMA-treated ECs. NAC reduced CPAEC death by AMA but enhanced HUVEC death by it. Furthermore, AMA increased GSH depleted cell numbers in ECs. Buthionine sulfoximine (BSO; an inhibitor of GSH synthesis), showing a pro-apoptotic effect on AMA-treated HUVEC, significantly increased GSH depleted cell number but it did not affect cell death and GSH depletion in AMA-treated CPAEC. In conclusion, AMA inhibited the growth of ECs via caspase-dependent apoptosis. ROS level change by AMA was partially related to CPAEC death, but did not affect HUVEC death. The change of GSH contents by AMA influenced the death of ECs.
Author	Park, Woo Hyun You, Bo Ra
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Keywords	NADPH DHE CPAEC H2DCFDA MTT CMFDA FITC Z-DEVD-FMK ECs AMA FBS MMP (ΔΨm) HUVEC GSH BSO Z-VAD-FMK Caspase SOD Z-LEHD-FMK Endothelial cells Z-IETD-FMK NAC ROS XO Apoptosis
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Snippet	Antimycin A (AMA) inhibits mitochondrial electron transport chain between cytochrome b and c. Here, we evaluated the effects of AMA on the growth and death of...
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SubjectTerms	Acetylcysteine Acetylcysteine - toxicity AMA Animals Antimycin A - toxicity Apoptosis Buthionine Sulfoximine - toxicity Caspase Caspase Inhibitors Cell Line Endothelial cells Endothelial Cells - drug effects Endothelial Cells - metabolism Enzyme Inhibitors - toxicity Glutathione - metabolism GSH Humans Membrane Potential, Mitochondrial - drug effects Reactive Oxygen Species - metabolism ROS
Title	The effects of antimycin A on endothelial cells in cell death, reactive oxygen species and GSH levels
URI	https://dx.doi.org/10.1016/j.tiv.2010.03.009 https://www.ncbi.nlm.nih.gov/pubmed/20332020 https://search.proquest.com/docview/733349503 https://search.proquest.com/docview/759310247
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