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Separating NADH and NADPH fluorescence in live cells and tissues using FLIM

Author

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  • Thomas S. Blacker

    (Centre for Mathematics and Physics in the Life Sciences and Experimental Biology, University College London
    University College London
    University College London)

  • Zoe F. Mann

    (University College London
    UCL Ear Institute, University College London)

  • Jonathan E. Gale

    (University College London
    UCL Ear Institute, University College London)

  • Mathias Ziegler

    (University of Bergen)

  • Angus J. Bain

    (University College London)

  • Gyorgy Szabadkai

    (University College London
    University of Padua and CNR Neuroscience Institute)

  • Michael R. Duchen

    (University College London)

Abstract

NAD is a key determinant of cellular energy metabolism. In contrast, its phosphorylated form, NADP, plays a central role in biosynthetic pathways and antioxidant defence. The reduced forms of both pyridine nucleotides are fluorescent in living cells but they cannot be distinguished, as they are spectrally identical. Here, using genetic and pharmacological approaches to perturb NAD(P)H metabolism, we find that fluorescence lifetime imaging (FLIM) differentiates quantitatively between the two cofactors. Systematic manipulations to change the balance between oxidative and glycolytic metabolism suggest that these states do not directly impact NAD(P)H fluorescence decay rates. The lifetime changes observed in cancers thus likely reflect shifts in the NADPH/NADH balance. Using a mathematical model, we use these experimental data to quantify the relative levels of NADH and NADPH in different cell types of a complex tissue, the mammalian cochlea. This reveals NADPH-enriched populations of cells, raising questions about their distinct metabolic roles.

Suggested Citation

  • Thomas S. Blacker & Zoe F. Mann & Jonathan E. Gale & Mathias Ziegler & Angus J. Bain & Gyorgy Szabadkai & Michael R. Duchen, 2014. "Separating NADH and NADPH fluorescence in live cells and tissues using FLIM," Nature Communications, Nature, vol. 5(1), pages 1-9, September.
  • Handle: RePEc:nat:natcom:v:5:y:2014:i:1:d:10.1038_ncomms4936
    DOI: 10.1038/ncomms4936
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    Cited by:

    1. Ke Li & Yucheng Zhao & Jian Yang & Jinlou Gu, 2022. "Nanoemulsion-directed growth of MOFs with versatile architectures for the heterogeneous regeneration of coenzymes," Nature Communications, Nature, vol. 13(1), pages 1-8, December.

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