Mitochondrial 'flashes': A radical concept repHined

Markus Schwarzländer; Michael P. Murphy; Michael R. Duchen; David C. Logan; Mark D. Fricker; Andrew P. Halestrap; Florian L. Müller; Rosario Rizzuto; Tobias P. Dick; Andreas J. Meyer; Lee J. Sweetlove

doi:10.1016/j.tcb.2012.07.007

Mitochondrial 'flashes': A radical concept repHined

Markus Schwarzländer, Michael P. Murphy, Michael R. Duchen, David C. Logan, Mark D. Fricker, Andrew P. Halestrap, Florian L. Müller, Rosario Rizzuto, Tobias P. Dick, Andreas J. Meyer, Lee J. Sweetlove

Genomic Medicine

Research output: Contribution to journal › Review article › peer-review

73 Scopus citations

Abstract

Mitochondrial free radicals and redox poise are central to metabolism and cell fate. Their measurement in living cells remains a major challenge and their in vivo dynamics are poorly understood. Reports of 'superoxide flashes' in single mitochondria have therefore been perceived as a major breakthrough: single mitochondria expressing the genetically encoded sensor circularly permuted yellow fluorescent protein (cpYFP) display spontaneous flashes of fluorescence that are responsive to metabolic changes and stressors. We critically review the evidence that underpins the interpretation of mitochondrial cpYFP flashes as bursts of superoxide production and conclude that flashes do not represent superoxide bursts but instead are caused by transient alkalinisation of the mitochondrial matrix. We provide a revised framework that will help to clarify the interpretation of mitochondrial flashes.

Original language	English (US)
Pages (from-to)	503-508
Number of pages	6
Journal	Trends in Cell Biology
Volume	22
Issue number	10
DOIs	https://doi.org/10.1016/j.tcb.2012.07.007
State	Published - Oct 2012

Keywords

CpYFP
Mitochondria
PH transients
Superoxide flashes

ASJC Scopus subject areas

Cell Biology

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10.1016/j.tcb.2012.07.007

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title = "Mitochondrial 'flashes': A radical concept repHined",

abstract = "Mitochondrial free radicals and redox poise are central to metabolism and cell fate. Their measurement in living cells remains a major challenge and their in vivo dynamics are poorly understood. Reports of 'superoxide flashes' in single mitochondria have therefore been perceived as a major breakthrough: single mitochondria expressing the genetically encoded sensor circularly permuted yellow fluorescent protein (cpYFP) display spontaneous flashes of fluorescence that are responsive to metabolic changes and stressors. We critically review the evidence that underpins the interpretation of mitochondrial cpYFP flashes as bursts of superoxide production and conclude that flashes do not represent superoxide bursts but instead are caused by transient alkalinisation of the mitochondrial matrix. We provide a revised framework that will help to clarify the interpretation of mitochondrial flashes.",

keywords = "CpYFP, Mitochondria, PH transients, Superoxide flashes",

author = "Markus Schwarzl{\"a}nder and Murphy, {Michael P.} and Duchen, {Michael R.} and Logan, {David C.} and Fricker, {Mark D.} and Halestrap, {Andrew P.} and M{\"u}ller, {Florian L.} and Rosario Rizzuto and Dick, {Tobias P.} and Meyer, {Andreas J.} and Sweetlove, {Lee J.}",

year = "2012",

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doi = "10.1016/j.tcb.2012.07.007",

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T2 - A radical concept repHined

AU - Schwarzländer, Markus

AU - Murphy, Michael P.

AU - Duchen, Michael R.

AU - Logan, David C.

AU - Fricker, Mark D.

AU - Halestrap, Andrew P.

AU - Müller, Florian L.

AU - Rizzuto, Rosario

AU - Dick, Tobias P.

AU - Meyer, Andreas J.

AU - Sweetlove, Lee J.

PY - 2012/10

Y1 - 2012/10

N2 - Mitochondrial free radicals and redox poise are central to metabolism and cell fate. Their measurement in living cells remains a major challenge and their in vivo dynamics are poorly understood. Reports of 'superoxide flashes' in single mitochondria have therefore been perceived as a major breakthrough: single mitochondria expressing the genetically encoded sensor circularly permuted yellow fluorescent protein (cpYFP) display spontaneous flashes of fluorescence that are responsive to metabolic changes and stressors. We critically review the evidence that underpins the interpretation of mitochondrial cpYFP flashes as bursts of superoxide production and conclude that flashes do not represent superoxide bursts but instead are caused by transient alkalinisation of the mitochondrial matrix. We provide a revised framework that will help to clarify the interpretation of mitochondrial flashes.

AB - Mitochondrial free radicals and redox poise are central to metabolism and cell fate. Their measurement in living cells remains a major challenge and their in vivo dynamics are poorly understood. Reports of 'superoxide flashes' in single mitochondria have therefore been perceived as a major breakthrough: single mitochondria expressing the genetically encoded sensor circularly permuted yellow fluorescent protein (cpYFP) display spontaneous flashes of fluorescence that are responsive to metabolic changes and stressors. We critically review the evidence that underpins the interpretation of mitochondrial cpYFP flashes as bursts of superoxide production and conclude that flashes do not represent superoxide bursts but instead are caused by transient alkalinisation of the mitochondrial matrix. We provide a revised framework that will help to clarify the interpretation of mitochondrial flashes.

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KW - Mitochondria

KW - PH transients

KW - Superoxide flashes

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Mitochondrial 'flashes': A radical concept repHined

Abstract

Keywords

ASJC Scopus subject areas

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