Investigating the action of the microalgal pigment marennine on Vibrio splendidus by in vivo2H and 31P solid-state NMR.

This work investigates the potential probiotic effect of marennine - a natural pigment produced by the diatom Haslea ostrearia - on Vibrio splendidus. These marine bacteria are often considered a threat for aquaculture; therefore, chemical antibiotics can be required to reduce bacterial outbreaks. In vivo 2H solid-state NMR was used to probe the effects of marennine on the bacterial membrane in the exponential and stationary phases. Comparisons were made with polymyxin B (PxB) - an antibiotic used in aquaculture and known to interact with Gram(−) bacteria membranes. We also investigated the effect of marennine using 31P solid-state NMR on model membranes. Our results show that marennine has little effect on phospholipid headgroups dynamics, but reduces the acyl chain fluidity. Our data suggest that the two antimicrobial agents perturb V. splendidus membranes through different mechanisms. While PxB would alter the bacterial outer and inner membranes, marennine would act through a membrane stiffening mechanism, without affecting the bilayer integrity. Our study proposes this microalgal pigment, which is harmless for humans, as a potential treatment against vibriosis. [Display omitted] • The action mechanism of marennine on Vibrio splendidus is studied in vivo by 2H solid-state NMR. • The specific interaction with phospholipids is studied by 31P solid-state NMR with model membranes. • Marennine stiffens phospholipid acyl chains, even at low concentration. • The lipid ordering effect is greater for bacteria sampled in the stationary phase. • Marennine does not disrupt bacterial membranes but would act via alteration of the membrane fluidity. [ABSTRACT FROM AUTHOR]