Abstract
Our research aims to expand the knowledge on relationships between the structure of cationic dicephalic surfactants—N,N-bis[3,3_-(dimethylamine)propyl]alkylamide dihydrochlorides and N,N-bis[3,3_-(trimethylammonio)propyl]alkylamide dibromides (alkyl: n-C9H19, n-C11H23, n-C13H27, n-C15H31)—and their antifungal mechanism of action on Candida albicans. The mentioned groups of amphiphilic substances are characterized by the presence of a weak, hydrochloride cationic center readily undergoing deprotonation, as well as a stable, strong quaternary ammonium group and alkyl chains capable of strong interactions with fungal cells. Strong fungicidal properties and the role in creation and eradication of biofilm of those compounds were discussed in our earlier works, yet their mechanism of action remained unclear. It was shown that investigated surfactants induce strong oxidative stress and cause increase in cell membrane permeability without compromising its continuity, as indicated by increased potassium ion (K+) leakage. Thus experiments carried out on the investigated opportunistic pathogen indicate that the mechanism of action of the researched surfactants is different than in the case of the majority of known surfactants. Results presented in this paper significantly broaden the understanding on multifunctional cationic surfactants and their mechanism of action, as well as suggest their possible future applications as surface coating antiadhesives, fungicides and antibiofilm agents in medicine or industry.
Highlights
Our research aims to expand the knowledge on relationships between the structure of cationic dicephalic surfactants—N,N-bis[3,3_-(dimethylamine)propyl]alkylamide dihydrochlorides and N,Nbis[3,3_-(trimethylammonio)propyl]alkylamide dibromides—and their antifungal mechanism of action on Candida albicans
Dicephalic cationic surfactants with an amide linking group due to their biodegradability do not accumulate in the environment, and in the future may be used as effective antifungal compounds in industry as well as medicine
Candida albicans ATCC 10231 was selected as an opportunistic pathogen for the study of the antifungal mechanism of action of the dicephalic surfactants investigated in this study
Summary
Our research aims to expand the knowledge on relationships between the structure of cationic dicephalic surfactants—N,N-bis[3,3_-(dimethylamine)propyl]alkylamide dihydrochlorides and N,Nbis[3,3_-(trimethylammonio)propyl]alkylamide dibromides (alkyl: n-C9H19, n-C11H23, n-C13H27, n-C15H31)—and their antifungal mechanism of action on Candida albicans. Such as a straight, aliphatic tail instead of a branched or aromatic one as well as labile, e.g. ester, amide, carbamate or disulfide bonds, linking groups between hydrophobic and hydrophilic p arts[1]. Dicephalic cationic surfactants with an amide linking group due to their biodegradability do not accumulate in the environment, and in the future may be used as effective antifungal compounds in industry as well as medicine. It will provide for a more environmentally friendly solution than those presently in application. The most prominent feature of quaternary ammonium-based surfactants is their significant antibacterial and antifungal activity, which is important in the light of their possible biomedical a pplications[7,8,9,10,11]
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