Flexible Modulation of Cellular Activities with Cationic Photosensitizers: Insights of Alkyl Chain Length on Reactive Oxygen Species Antimicrobial Mechanisms

Abstract: Cationic photosensitizers have good binding ability with negatively charged bacteria and fungi, exhibiting broad applications potential in antimicrobial photodynamic therapy (aPDT). However, cationic photosensitizers often display unsatisfactory transkingdom selectivity between mammalian cells and pathogens, especially for eukaryotic fungi. It is unclear which biomolecular sites are more efficient for photodynamic damage, owing to the lack of systematic research with the same photosensitizer system. Herein, a … Show more

“…However, increased hydrophobicity could also make it more difficult for the polymer to damage the bacterial membrane. This may be because the longer hydrophobic chains lead to an increase in the free energy of the molecule leaving the bacterial cell membrane, making it more inclined to remain stuck in the phospholipid bilayer, 32 which can weaken the antibacterial effect of polymers. Therefore, there is an optimal length for the alkyl chains in the quaternary ammonium salts of PQA.…”

Design of biodegradable polyurethanes and post-modification with long alkyl chains via inhibiting biofilm formation and killing drug-resistant bacteria for the treatment of wound bacterial infection

“…However, increased hydrophobicity could also make it more difficult for the polymer to damage the bacterial membrane. This may be because the longer hydrophobic chains lead to an increase in the free energy of the molecule leaving the bacterial cell membrane, making it more inclined to remain stuck in the phospholipid bilayer, 32 which can weaken the antibacterial effect of polymers. Therefore, there is an optimal length for the alkyl chains in the quaternary ammonium salts of PQA.…”

Design of biodegradable polyurethanes and post-modification with long alkyl chains via inhibiting biofilm formation and killing drug-resistant bacteria for the treatment of wound bacterial infection

“…It is well known that changing the overall hydrophobicity of the alkane chain spacer can affect the aggregation tendency of the molecules. 40 The aggregation behaviors of cationic diphenyl porphyrins (4C, 5C and 6C, see structures in Fig. 1 ) with longer carbon chains than 3C were investigated.…”

Suppressing ACQ of molecular photosensitizers by distorting the conjugated-plane for enhanced tumor photodynamic therapy

“…In assessing bacterial membrane transport by b-galactosidase alterations, O-nitrophenyl-β-D-galactopyranos (ONPG) serves as an indicator in this test. [39] According to Figure 2d and S19, the OD values of b-galactosidase in G 2 -PM-1 H + treated bacteria were significantly higher than G 2 -PL-1. As a result, in the case of S. aureus, G 2 -PM-1 H + induced minor membrane damage and prominent cell membrane transport, as opposed to the G 2 -PL-1 control.…”

Structural Element of Vitamin U‐Mimicking Antibacterial Polypeptide with Ultrahigh Selectivity for Effectively Treating MRSA Infections