Molecular Network and Culture Media Variation Reveal a Complex Metabolic Profile in Pantoea cf. eucrina D2 Associated with an Acidified Marine Sponge.

Giovanni Andrea Vitale,Maria Valeria D’Auria,Chiara Cassiano,Valerio Mazzella,Martina Sciarretta,Carmine Buonocore,Laura Núñez Pons,Carmen Festa,Donatella De Pascale

doi:10.3390/ijms21176307

Abstract

The Gram-negative Pantoea eucrina D2 was isolated from the marine sponge Chondrosia reniformis. Sponges were collected in a shallow volcanic vents system in Ischia island (South Italy), influenced by CO2 emissions and lowered pH. The chemical diversity of the secondary metabolites produced by this strain, under different culture conditions, was explored by a combined approach including molecular networking, pure compound isolation and NMR spectroscopy. The metabolome of Pantoea cf. eucrina D2 yielded a very complex molecular network, allowing the annotation of several metabolites, among them two biosurfactant clusters: lipoamino acids and surfactins. The production of each class of metabolites was highly dependent on the culture conditions, in particular, the production of unusual surfactins derivatives was reported for the first time from this genus; interestingly the production of these metabolites only arises by utilizing inorganic nitrogen as a sole nitrogen source. Major components of the extract obtained under standard medium culture conditions were isolated and identified as N-lipoamino acids by a combination of 1D and 2D NMR spectroscopy and HRESI-MS analysis. Assessment of the antimicrobial activity of the pure compounds towards some human pathogens, indicated a moderate activity of leucine containing N-lipoamino acids towards Staphylococcus aureus, Staphylococcus epidermidis and a clinical isolate of the emerging food pathogen Listeria monocytogenes.

Highlights

The Gram-negative genus Pantoea was only recently established as new genus within the family of Enterobacteriaceae
Chondrosia reniformis, a high microbial abundance (HMA) sponge [15] widespread in the Medi2te.1r.rIasnoleaatinonSaenadaIndedntwifiictahtiaonriocfhBamctiecrriaolbSitormaines[f1ro6m], twheaSspcoonlgleecCtehodnidnrotshiaermenaifroirnmeisaLrievainagroatund Castello AragoNnaetusera,lIlyscLhoiwaeIrseldapnHd.CTohndisitsiopnescies is common in around the acidified area formed by local volcanic
molecular networking (MN) and OSMAC integrated strategies were used to study the secondary metabolism of the endophytic strain Pantoea cf. eucrina D2 isolated from the sponge Chondrosia reniformis adapted to ocean acidification (OA) conditions

Summary

Introduction

The Gram-negative genus Pantoea was only recently established as new genus within the family of Enterobacteriaceae. To date, it comprises about 20 species (https://lpsn.dsmz.de/genus/pantoea) isolated from both the host and non-host environments [1]. Bioremediation of contaminated soils and water by Pantoea spp. was exerted through bioabsorption and metabolic transformation of heavy metal ions and/or through production of glycolipid biosurfactants, able to promote the emulsification and degradation of organic waste components and pollutants as well as of petroleum derivatives [1]. The mutualistic interaction with plants and insects was associated with multiple factors [2] as the metabolic cooperation, thanks to the nitrogen fixation and phosphate solubilization capabilities exhibited by some Pantoea species and to the production of several plant growth promoting and defense secondary metabolites [3].

Methods

Results

Conclusion