A Water-Soluble Galactose-Decorated Cationic Photodynamic
Therapy Agent Based on BODIPY to Selectively Eliminate Biofilm
Dai, XM (Dai, Xiaomei)[ 1 ] ; Chen, XL (Chen, Xuelei)[ 1 ] ; Zhao, Y (Zhao, Yu)[ 1 ] ; Yu, YJ (Yu, Yunjian)[ 1 ] ; Wei, XS (Wei, Xiaosong)[ 1 ] ; Zhang, XG(Zhang, Xinge)[ 1 ] ; Li, CX (Li, Chaoxing)[ 1 ]
BIOMACROMOLECULES,
2018, 19(1): 141-149
DOI: 10.1021/acs.biomac.7b01316
WOS:000419998600014
Abstract
A multitude
of serious chronic infections are involved in bacterial biofilms that are
difficult to eradicate. Here, a water-soluble galactose-functionalized cationic
4,4-difluoro-4-bora-3a,4a-diaza-s-indacene (BODIPY)-based photodynamic therapy
agent was synthesized for selectively eliminating the bacterial biofilm. These
conjugates can capture bacteria to form aggregations through electrostatic
interaction and then generate a large number of reactive oxygen species (ROS)
under visible light irradiation to kill the bacteria without the emergence of
bacterial resistance. Simultaneously, this agent could effectively inhibit and
eradicate both Gram-positive and Gram-negative bacterial biofilms. The in-depth
analysis of the antimicrobial mechanism confirmed that the conjugates can
quickly bind on the bacterial surface, irreversibly disrupt the bacterial
membrane, and distinctly inhibit intracellular enzyme activity, ultimately
leading to the bacterial death. Importantly, these conjugates are highly
selective toward bacterial cells over mammalian cells as well as no
cytotoxicity to A549 cells and no discernible hemolytic activity. Collectively,
this water-soluble galactose-decorated cationic BODIPY-based photodynamic
therapy agent design provides promising insights for the development of therapy
for antibiotic-resistant bacteria.
