Electrochemical latent redox ratiometric probes for real-time tracking and quantification of endogenous hydrogen sulfide production in living cells

Hydrogen sulfide (H2S) was discovered as a third gasotransmitter in biological systems and recent years have seen a growing interest to understand its physiological and pathological functions. However, one major limiting factor is the lack of robust sensors to quantitatively track its production in...

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Published in:Biosensors & bioelectronics 2017-10, Vol.96, p.233-238
Main Authors: Manibalan, Kesavan, Mani, Veerappan, Chang, Pu-Chieh, Huang, Chih-Hung, Huang, Sheng-Tung, Marchlewicz, Kasper, Neethirajan, Suresh
Format: Article
Language:English
Subjects:
Animals
Azides - chemistry
Biosensing Techniques - methods
Cattle
Electrochemical redox probes
Electrochemical Techniques - methods
Escherichia coli - chemistry
Escherichia coli - metabolism
Escherichia coli Infections - microbiology
Ferrous Compounds - chemistry
Gasotransmitter
Humans
Hydrogen sulfide
Hydrogen Sulfide - analysis
Hydrogen Sulfide - blood
Hydrogen Sulfide - metabolism
Living cells
Oxidation-Reduction
Real-time quantification
Whole blood analysis
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Summary:Hydrogen sulfide (H2S) was discovered as a third gasotransmitter in biological systems and recent years have seen a growing interest to understand its physiological and pathological functions. However, one major limiting factor is the lack of robust sensors to quantitatively track its production in real-time. We described a facile electrochemical assay based on latent redox probe approach for highly specific and sensitive quantification in living cells. Two chemical probes, Azido Benzyl ferrocene carbamate (ABFC) and N-alkyl Azido Benzyl ferrocene carbamate (NABFC) composed of azide trigger group were designed. H2S molecules specifically triggered the release of reporters from probes and the current response was monitored using graphene oxide film modified electrode as transducer. The detection limits are 0.32µM (ABFC) and 0.076µM (NABFC) which are comparable to those of current sensitive methods. The probes are successful in the determination of H2S spiked in whole human blood, fetal bovine serum, and E. coli. The continuous monitoring and quantification of endogenous H2S production in E. coli were successfully accomplished. This work lays first step stone towards real-time electrochemical quantification of endogenous H2S in living cells, thus hold great promise in the analytical aspects of H2S. [Display omitted] •Electrochemical latent redox probe based assay for tracking and quantification of endogenously produced H2S in living cells (E.coli).•Design, synthesis and characterization of ABFC and NABFC.•Proof-of-concept, selectivity and sensor performance.•Real sample analyses in whole human blood, fetal bovine serum, and E. coli.
ISSN:0956-5663
1873-4235
DOI:10.1016/j.bios.2017.05.006