Stress-Induced Production of Bioactive Oxylipins in Marine Microalgae

Author:

Linares-Maurizi Amandyne12,Awad Rana1,Durbec Anaelle3ORCID,Reversat Guillaume1,Gros Valérie1,Galano Jean-Marie1,Bertrand-Michel Justine3ORCID,Durand Thierry1ORCID,Pradelles Rémi2,Oger Camille1ORCID,Vigor Claire1ORCID

Affiliation:

1. Institut des Biomolécules Max Mousseron, IBMM, Université de Montpellier, CNRS, ENSCM, 34093 Montpellier, France

2. Microphyt, 713 Route de Mudaison, 34670 Baillargues, France

3. MetaToul, MetaboHUB, Inserm/UPS UMR 1048, I2MC, Institut des Maladies Métaboliques et Cardiovasculaires, 31077 Toulouse, France

Abstract

Microalgae, stemming from a complex evolutionary lineage, possess a metabolic composition influenced by their evolutionary journey. They have the capacity to generate diverse polyunsaturated fatty acids (PUFAs), akin to those found in terrestrial plants and oily fish. Also, because of their numerous double bonds, these metabolic compounds are prone to oxidation processes, leading to the creation of valuable bioactive molecules called oxylipins. Moreover, owing to their adaptability across various environments, microalgae offer an intriguing avenue for biosynthesizing these compounds. Thus, modifying the culture conditions could potentially impact the profiles of oxylipins. Indeed, the accumulation of oxylipins in microalgae is subject to the influence of growth conditions, nutrient availability, and stressors, and adjusting these factors can enhance their production in microalgae culture. Consequently, the present study scrutinized the LC-MS/MS profiles of oxylipins from three marine microalgae species (two Haptagophytes and one Chlorophyte) cultivated in 1 L of photobioreactors under varying stress-inducing conditions, such as the introduction of H2O2, EtOAc, and NaCl, during their exponential growth phase. Approximately 50 oxylipins were identified, exhibiting different concentrations depending on the species and growth circumstances. This research suggests that microalgae metabolisms can be steered toward the production of bioactive oxylipins through modifications in the culture conditions. In this instance, the application of a low dose of hydrogen peroxide to Mi 124 appears to stimulate the production of nonenzymatic oxylipins. For Mi136, it is the application of salt stress that seems to increase the overall production of oxylipins. In the case of Mi 168, either a low concentration of H2O2 or a high concentration of AcOEt appears to have this effect.

Funder

ANRT CIFRE

National Research Agency, under the acronym TA-BOOm

LabCom OxyBleu-MARI

CNRS for the 80|Prime project

Région Occitanie

Publisher

MDPI AG

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