Fiche publication


Date publication

octobre 2020

Journal

Molecules (Basel, Switzerland)

Auteurs

Membres identifiés du Cancéropôle Est :
Dr NUZILLARD Jean-Marc


Tous les auteurs :
Canton M, Hubert J, Poigny S, Roe R, Brunel Y, Nuzillard JM, Renault JH

Résumé

For scientific, regulatory, and safety reasons, the chemical profile knowledge of natural extracts incorporated in commercial cosmetic formulations is of primary importance. Many extracts are produced or stabilized in glycerin, a practice which hampers their characterization. This article proposes a new methodology for the quick identification of metabolites present in natural extracts when diluted in glycerin. As an extension of a C nuclear magnetic resonance (NMR) based dereplication process, two complementary approaches are presented for the chemical profiling of natural extracts diluted in glycerin: A physical suppression by centrifugal partition chromatography (CPC) with the appropriate biphasic solvent system EtOAc/CHCN/water 3:3:4 (//) for the crude extract fractionation, and a spectroscopic suppression by presaturation of C-NMR signals of glycerin applied to glycerin containing fractions. This innovative workflow was applied to a model mixture containing 23 natural metabolites. Dereplication by C-NMR was applied either on the dry model mixture or after dilution at 5% in glycerin, for comparison, resulting in the detection of 20 out of 23 compounds in the two model mixtures. Subsequently, a natural extract of diluted in glycerin was characterized and resulted in the identification of 12 metabolites. The first annotations by C-NMR were confirmed by two-dimensional NMR and completed by LC-MS analyses for the annotation of five additional minor compounds. These results demonstrate that the application of physical suppression by CPC and presaturation of C-NMR solvent signals highly facilitates the quick chemical profiling of natural extracts diluted in glycerin.

Mots clés

13C nuclear magnetic resonance, centrifugal partition chromatography, chemical profiling, cosmetic industry, glycerin, natural extract

Référence

Molecules. 2020 Oct 31;25(21):