Far-red and sensitive sensor for monitoring real time H 2 O 2 dynamics with subcellular resolution and in multi-parametric imaging applications.
Justin Daho LeeAmanda NguyenZheyu Ruby JinAida MoghadasiChelsea E GibbsSarah J WaitKira M EvittsAnthony M AsencioSamantha B BremnerShani ZunigaVedant ChavanCharles A WilliamsNetta SmithMichael RegnierJessica E YoungDavid L MackElizabeth NancePatrick M BoyleAndre BerndtPublished in: bioRxiv : the preprint server for biology (2024)
H 2 O 2 is a key oxidant in mammalian biology and a pleiotropic signaling molecule at the physiological level, and its excessive accumulation in conjunction with decreased cellular reduction capacity is often found to be a common pathological marker. Here, we present a red fluorescent Genetically Encoded H 2 O 2 Indicator (GEHI) allowing versatile optogenetic dissection of redox biology. Our new GEHI, oROS-HT, is a chemigenetic sensor utilizing a HaloTag and Janelia Fluor (JF) rhodamine dye as fluorescent reporters. We developed oROS-HT through a structure-guided approach aided by classic protein structures and recent protein structure prediction tools. Optimized with JF 635 , oROS-HT is a sensor with 635 nm excitation and 650 nm emission peaks, allowing it to retain its brightness while monitoring intracellular H 2 O 2 dynamics. Furthermore, it enables multi-color imaging in combination with blue-green fluorescent sensors for orthogonal analytes and low auto-fluorescence interference in biological tissues. Other advantages of oROS-HT over alternative GEHIs are its fast kinetics, oxygen-independent maturation, low pH sensitivity, lack of photo-artifact, and lack of intracellular aggregation. Here, we demonstrated efficient subcellular targeting and how oROS-HT can map inter and intracellular H 2 O 2 diffusion at subcellular resolution. Lastly, we used oROS-HT with the green fluorescent calcium indicator Fluo-4 to investigate the transient effect of the anti-inflammatory agent auranofin on cellular redox physiology and calcium levels via multi-parametric, dual-color imaging.
Keyphrases
- high resolution
- quantum dots
- living cells
- anti inflammatory
- single molecule
- label free
- fluorescent probe
- photodynamic therapy
- gene expression
- reactive oxygen species
- protein protein
- body mass index
- energy transfer
- amino acid
- fluorescence imaging
- physical activity
- binding protein
- drug delivery
- magnetic resonance
- blood brain barrier
- cerebral ischemia
- solid state
- light emitting
- highly efficient