In vivo imaging of flavoprotein fluorescence during hypoxia reveals the importance of direct arterial oxygen supply to cerebral cortex tissue

K. I. Chisholm; K. K. Ida; A. L. Davies; D. B. Papkovsky; M. Singer; A. Dyson; I. Tachtsidis; M. R. Duchen; K. J. Smith

doi:10.1007/978-1-4939-3023-4_29

In vivo imaging of flavoprotein fluorescence during hypoxia reveals the importance of direct arterial oxygen supply to cerebral cortex tissue

K. I. Chisholm
, K. K. Ida
, A. L. Davies
, D. B. Papkovsky
, M. Singer
, A. Dyson
, I. Tachtsidis
, M. R. Duchen
, K. J. Smith

School of Biochemistry and Cell Biology

Research output: Chapter in Book/Report/Conference proceedings › Chapter › peer-review

Abstract

Live imaging of mitochondrial function is crucial to understand the important role played by these organelles in a wide range of diseases. The mitochondrial redox potential is a particularly informative measure of mitochondrial function, and can be monitored using the endogenous green fluorescence of oxidized mitochondrial flavoproteins. Here, we have observed flavoprotein fluorescence in the exposed murine cerebral cortex in vivo using confocal imaging; the mitochondrial origin of the signal was confirmed using agents known to manipulate mitochondrial redox potential. The effects of cerebral oxygenation on flavoprotein fluorescence were determined by manipulating the inspired oxygen concentration. We report that flavoprotein fluorescence is sensitive to reductions in cortical oxygenation, such that reductions in inspired oxygen resulted in loss of flavoprotein fluorescence with the exception of a preserved ‘halo’ of signal in periarterial regions. The findings are consistent with reports that arteries play an important role in supplying oxygen directly to tissue in the cerebral cortex, maintaining mitochondrial function.

Original language	English
Title of host publication	Oxygen Transport to Tissue XXXVII
Editors	Clare E. Elwell, Terence S. Leung, David K. Harrison
Publisher	Springer New York LLC
Pages	233-239
Number of pages	7
ISBN (Print)	9781493930227
DOIs	https://doi.org/10.1007/978-1-4939-3023-4_29
Publication status	Published - 2016
Event	42nd Annual Meeting of International Society on Oxygen Transport to Tissue - London, United Kingdom Duration: 28 Jun 2014 → 3 Jul 2014

Publication series

Name	Advances in Experimental Medicine and Biology
Volume	876
ISSN (Print)	0065-2598
ISSN (Electronic)	2214-8019

Conference

Conference	42nd Annual Meeting of International Society on Oxygen Transport to Tissue
Country/Territory	United Kingdom
City	London
Period	28/06/14 → 3/07/14

Keywords

Brain
Confocal microscope
Mitochondria
Oxygen
Vasculature

Access to Document

10.1007/978-1-4939-3023-4_29

Cite this

Chisholm, K. I., Ida, K. K., Davies, A. L., Papkovsky, D. B., Singer, M., Dyson, A., Tachtsidis, I., Duchen, M. R., & Smith, K. J. (2016). In vivo imaging of flavoprotein fluorescence during hypoxia reveals the importance of direct arterial oxygen supply to cerebral cortex tissue. In C. E. Elwell, T. S. Leung, & D. K. Harrison (Eds.), Oxygen Transport to Tissue XXXVII (pp. 233-239). (Advances in Experimental Medicine and Biology; Vol. 876). Springer New York LLC. https://doi.org/10.1007/978-1-4939-3023-4_29

Chisholm, K. I. ; Ida, K. K. ; Davies, A. L. et al. / In vivo imaging of flavoprotein fluorescence during hypoxia reveals the importance of direct arterial oxygen supply to cerebral cortex tissue. Oxygen Transport to Tissue XXXVII. editor / Clare E. Elwell ; Terence S. Leung ; David K. Harrison. Springer New York LLC, 2016. pp. 233-239 (Advances in Experimental Medicine and Biology).

@inbook{4e50262a6d514f129287c4697f3767fc,

title = "In vivo imaging of flavoprotein fluorescence during hypoxia reveals the importance of direct arterial oxygen supply to cerebral cortex tissue",

abstract = "Live imaging of mitochondrial function is crucial to understand the important role played by these organelles in a wide range of diseases. The mitochondrial redox potential is a particularly informative measure of mitochondrial function, and can be monitored using the endogenous green fluorescence of oxidized mitochondrial flavoproteins. Here, we have observed flavoprotein fluorescence in the exposed murine cerebral cortex in vivo using confocal imaging; the mitochondrial origin of the signal was confirmed using agents known to manipulate mitochondrial redox potential. The effects of cerebral oxygenation on flavoprotein fluorescence were determined by manipulating the inspired oxygen concentration. We report that flavoprotein fluorescence is sensitive to reductions in cortical oxygenation, such that reductions in inspired oxygen resulted in loss of flavoprotein fluorescence with the exception of a preserved {\textquoteleft}halo{\textquoteright} of signal in periarterial regions. The findings are consistent with reports that arteries play an important role in supplying oxygen directly to tissue in the cerebral cortex, maintaining mitochondrial function.",

keywords = "Brain, Confocal microscope, Mitochondria, Oxygen, Vasculature",

author = "Chisholm, \{K. I.\} and Ida, \{K. K.\} and Davies, \{A. L.\} and Papkovsky, \{D. B.\} and M. Singer and A. Dyson and I. Tachtsidis and Duchen, \{M. R.\} and Smith, \{K. J.\}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2016.; 42nd Annual Meeting of International Society on Oxygen Transport to Tissue ; Conference date: 28-06-2014 Through 03-07-2014",

year = "2016",

doi = "10.1007/978-1-4939-3023-4\_29",

language = "English",

isbn = "9781493930227",

series = "Advances in Experimental Medicine and Biology",

publisher = "Springer New York LLC",

pages = "233--239",

editor = "Elwell, \{Clare E.\} and Leung, \{Terence S.\} and Harrison, \{David K.\}",

booktitle = "Oxygen Transport to Tissue XXXVII",

}

Chisholm, KI, Ida, KK, Davies, AL, Papkovsky, DB, Singer, M, Dyson, A, Tachtsidis, I, Duchen, MR & Smith, KJ 2016, In vivo imaging of flavoprotein fluorescence during hypoxia reveals the importance of direct arterial oxygen supply to cerebral cortex tissue. in CE Elwell, TS Leung & DK Harrison (eds), Oxygen Transport to Tissue XXXVII. Advances in Experimental Medicine and Biology, vol. 876, Springer New York LLC, pp. 233-239, 42nd Annual Meeting of International Society on Oxygen Transport to Tissue, London, United Kingdom, 28/06/14. https://doi.org/10.1007/978-1-4939-3023-4_29

In vivo imaging of flavoprotein fluorescence during hypoxia reveals the importance of direct arterial oxygen supply to cerebral cortex tissue. / Chisholm, K. I.; Ida, K. K.; Davies, A. L. et al.
Oxygen Transport to Tissue XXXVII. ed. / Clare E. Elwell; Terence S. Leung; David K. Harrison. Springer New York LLC, 2016. p. 233-239 (Advances in Experimental Medicine and Biology; Vol. 876).

Research output: Chapter in Book/Report/Conference proceedings › Chapter › peer-review

TY - CHAP

T1 - In vivo imaging of flavoprotein fluorescence during hypoxia reveals the importance of direct arterial oxygen supply to cerebral cortex tissue

AU - Chisholm, K. I.

AU - Ida, K. K.

AU - Davies, A. L.

AU - Papkovsky, D. B.

AU - Singer, M.

AU - Dyson, A.

AU - Tachtsidis, I.

AU - Duchen, M. R.

AU - Smith, K. J.

N1 - Publisher Copyright: © The Author(s) 2016.

PY - 2016

Y1 - 2016

N2 - Live imaging of mitochondrial function is crucial to understand the important role played by these organelles in a wide range of diseases. The mitochondrial redox potential is a particularly informative measure of mitochondrial function, and can be monitored using the endogenous green fluorescence of oxidized mitochondrial flavoproteins. Here, we have observed flavoprotein fluorescence in the exposed murine cerebral cortex in vivo using confocal imaging; the mitochondrial origin of the signal was confirmed using agents known to manipulate mitochondrial redox potential. The effects of cerebral oxygenation on flavoprotein fluorescence were determined by manipulating the inspired oxygen concentration. We report that flavoprotein fluorescence is sensitive to reductions in cortical oxygenation, such that reductions in inspired oxygen resulted in loss of flavoprotein fluorescence with the exception of a preserved ‘halo’ of signal in periarterial regions. The findings are consistent with reports that arteries play an important role in supplying oxygen directly to tissue in the cerebral cortex, maintaining mitochondrial function.

AB - Live imaging of mitochondrial function is crucial to understand the important role played by these organelles in a wide range of diseases. The mitochondrial redox potential is a particularly informative measure of mitochondrial function, and can be monitored using the endogenous green fluorescence of oxidized mitochondrial flavoproteins. Here, we have observed flavoprotein fluorescence in the exposed murine cerebral cortex in vivo using confocal imaging; the mitochondrial origin of the signal was confirmed using agents known to manipulate mitochondrial redox potential. The effects of cerebral oxygenation on flavoprotein fluorescence were determined by manipulating the inspired oxygen concentration. We report that flavoprotein fluorescence is sensitive to reductions in cortical oxygenation, such that reductions in inspired oxygen resulted in loss of flavoprotein fluorescence with the exception of a preserved ‘halo’ of signal in periarterial regions. The findings are consistent with reports that arteries play an important role in supplying oxygen directly to tissue in the cerebral cortex, maintaining mitochondrial function.

KW - Brain

KW - Confocal microscope

KW - Mitochondria

KW - Oxygen

KW - Vasculature

UR - https://www.scopus.com/pages/publications/84958555188

U2 - 10.1007/978-1-4939-3023-4_29

DO - 10.1007/978-1-4939-3023-4_29

M3 - Chapter

C2 - 26782217

AN - SCOPUS:84958555188

SN - 9781493930227

T3 - Advances in Experimental Medicine and Biology

SP - 233

EP - 239

BT - Oxygen Transport to Tissue XXXVII

A2 - Elwell, Clare E.

A2 - Leung, Terence S.

A2 - Harrison, David K.

PB - Springer New York LLC

T2 - 42nd Annual Meeting of International Society on Oxygen Transport to Tissue

Y2 - 28 June 2014 through 3 July 2014

ER -

Chisholm KI, Ida KK, Davies AL, Papkovsky DB, Singer M, Dyson A et al. In vivo imaging of flavoprotein fluorescence during hypoxia reveals the importance of direct arterial oxygen supply to cerebral cortex tissue. In Elwell CE, Leung TS, Harrison DK, editors, Oxygen Transport to Tissue XXXVII. Springer New York LLC. 2016. p. 233-239. (Advances in Experimental Medicine and Biology). doi: 10.1007/978-1-4939-3023-4_29

In vivo imaging of flavoprotein fluorescence during hypoxia reveals the importance of direct arterial oxygen supply to cerebral cortex tissue

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