ic8b02240_si_001.pdf (4.2 MB)
Selective and Sensitive Sensing of Hydrogen Peroxide by a Boronic Acid Functionalized Metal–Organic Framework and Its Application in Live-Cell Imaging
journal contribution
posted on 2018-11-08, 20:13 authored by Mostakim SK, Sooram Banesh, Vishal Trivedi, Shyam BiswasA new
boronic acid functionalized Zr(IV) metal–organic framework
having the capability of sensing H2O2 in live
cells is reported. The Zr-MOF bears a UiO-66 structure and contains
2-boronobenzene-1,4-dicarboxylic acid (BDC-B(OH)2) as a
framework linker. The activated Zr-UiO-66-B(OH)2 compound
(called 1′) is highly selective for the fluorogenic
detection of H2O2 in HEPES buffer at pH 7.4,
even in the presence of interfering ROS (ROS = reactive oxygen species)
and other biologically relevant analytes. The fluorescent probe was
found to display extraordinary sensitivity for H2O2 (detection limit 0.015 μM) in HEPES buffer, which represents
a lower value in comparison to those of the MOF probes documented
so far for sensing H2O2 using other analytical
methods. Taking advantage of its high selectivity and sensitivity
for H2O2 in HEPES buffer, the probe was successfully
employed for the imaging of intracellular H2O2. Imaging studies with MDAMB-231 cells revealed the emergence of
bright blue fluorescence after loading with probe 1′ and subsequent treatment with H2O2 solution.