posted on 2022-10-12, 11:03authored byWen-Jing Shi, Ru Chen, Jinrong Yang, Yong-Feng Wei, Yuhui Guo, Zi-Zhou Wang, Jin-wu Yan, Li Niu
Meso-substituted
boron dipyrromethenes (BODIPYs) provide a potential
and innovative strategy for the synergistic construction of aggregation-induced
emission (AIE) probes and fluorescent rotors for monitoring cellular
viscosity changes, which play critical roles in understanding the
function of viscosity in its closely associated diseases. Therefore,
for the first time, a BODIPY-based fluorescent probe (1) with a rotatable meso-benzothiazole group was
rationally designed and synthesized, showing both good viscosity-responsive
and AIE properties. Probe 1 through direct linkage with
the thiazole group, showed nearly no emission in low viscous solvents;
however, a strong emission at 534 nm appeared and increased gradually
with the increase in viscosity, attributing to the efficient restriction
of the rotatable meso-benzothiazole group. The intensity
(log I534) displayed a good linear relationship
with viscosity (log η) in the viscous range of 0.59–945
cP in methanol/glycerol mixtures. Interestingly, 1 showed
enhanced emission at 534 nm in 70% water compared to pure acetonitrile
due to the aggregation-induced inhibited rotations. Cellular imaging
suggested that 1 could successfully sense lysosomal viscosity
changes induced by lipopolysaccharide, nystatin, low temperature,
and dexamethasone in living cells, which could be further applied
in autophagy monitoring by tracing viscosity changes. As a comparison,
its analogue 2 directly linking with the phenyl group
showed no viscosity-responsive or AIE properties. Therefore, for the
first time, we reported a meso-benzothiazole-BODIPY-based
fluorescent rotor with AIE and lysosomal viscosity-responsive properties
in nervous cells, which was further applied in monitoring autophagy,
and this work thus could provide an innovative strategy for the design
of potential AIE and viscosity-responsive probes.