Rongkun Tao scite author profile

SUMMARY Reduced nicotinamide adenine dinucleotide phosphate (NADPH) is essential for for biosynthetic reactions and antioxidant functions; however, detection of NADPH metabolism in living cells remains technically challenging. We develop and characterize ratiometric, pH-resistant, genetically encoded fluorescent indicators for NADPH (iNap sensors) with various affinities and wide dynamic range. The iNap sensors permitted quantification of cytosolic and mitochondrial NADPH pools that were controlled by cytosolic NAD+ kinase levels, and revealed cellular NADPH dynamics under oxidative stress depending on glucose availability. We find that mammalian cells have a strong tendency to maintain physiological NADPH homeostasis, which is regulated by glucose-6-phosphate dehydrogenase (G6PD) and AMP kinase (AMPK). Moreover, using the iNap sensors we monitor NADPH fluctuations during the activation of macrophage cells or wound response in vivo. These data demonstrate that the iNap sensors will be valuable tools for monitoring NADPH dynamics in live-cells, and gaining new insights into cell metabolism.

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A genetically encoded single-wavelength sensor for imaging cytosolic and cell surface ATP

Lobas

et al. 2019

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Adenosine 5′ triphosphate (ATP) is a universal intracellular energy source and an evolutionarily ancient, ubiquitous extracellular signal in diverse species. Here, we report the generation and characterization of single-wavelength genetically encoded fluorescent sensors (iATPSnFRs) for imaging extracellular and cytosolic ATP from insertion of circularly permuted superfolder GFP into the epsilon subunit of F0F1-ATPase from Bacillus PS3. On the cell surface and within the cytosol, iATPSnFR1.0 responds to relevant ATP concentrations (30 μM to 3 mM) with fast increases in fluorescence. iATPSnFRs can be genetically targeted to specific cell types and sub-cellular compartments, imaged with standard light microscopes, do not respond to other nucleotides and nucleosides, and when fused with a red fluorescent protein function as ratiometric indicators. After careful consideration of their modest pH sensitivity, iATPSnFRs represent promising reagents for imaging ATP in the extracellular space and within cells during a variety of settings, and for further application-specific refinements.

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A genetically encoded toolkit for tracking live-cell histidine dynamics in space and time

et al. 2017

Sci Rep

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High-resolution spatiotemporal imaging of histidine in single living mammalian cells faces technical challenges. Here, we developed a series of ratiometric, highly responsive, and single fluorescent protein-based histidine sensors of wide dynamic range. We used these sensors to quantify subcellular free-histidine concentrations in glucose-deprived cells and glucose-fed cells. Results showed that cytosolic free-histidine concentration was higher and more sensitive to the environment than free histidine in the mitochondria. Moreover, histidine was readily transported across the plasma membrane and mitochondrial inner membrane, which had almost similar transport rates and transport constants, and histidine transport was not influenced by cellular metabolic state. These sensors are potential tools for tracking histidine dynamics inside subcellular organelles, and they will open an avenue to explore complex histidine signaling.

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Multicoloured fluorescent indicators for live-cell and in vivo imaging of inorganic mercury dynamics

Tao¹,

Shi²,

Zou³

et al. 2018

Free Radical Biology and Medicine

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Erratum: Genetically encoded fluorescent sensors reveal dynamic regulation of NADPH metabolism

Tao¹,

Zhao²,

Chu³

et al. 2017

Nat Methods

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Rongkun Tao

Genetically encoded fluorescent sensors reveal dynamic regulation of NADPH metabolism

A genetically encoded single-wavelength sensor for imaging cytosolic and cell surface ATP

A genetically encoded toolkit for tracking live-cell histidine dynamics in space and time

Multicoloured fluorescent indicators for live-cell and in vivo imaging of inorganic mercury dynamics

Erratum: Genetically encoded fluorescent sensors reveal dynamic regulation of NADPH metabolism

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