Abstract
Saponins are plant and marine animal specific metabolites that are commonly considered as molecular vectors for chemical defenses against unicellular and pluricellular organisms. Their toxicity is attributed to their membranolytic properties. Modifying the molecular structures of saponins by quantitative and selective chemical reactions is increasingly considered to tune the biological properties of these molecules (i) to prepare congeners with specific activities for biomedical applications and (ii) to afford experimental data related to their structure–activity relationship. In the present study, we focused on the sulfated saponins contained in the viscera of Holothuria scabra, a sea cucumber present in the Indian Ocean and abundantly consumed on the Asian food market. Using mass spectrometry, we first qualitatively and quantitatively assessed the saponin content within the viscera of H. scabra. We detected 26 sulfated saponins presenting 5 different elemental compositions. Microwave activation under alkaline conditions in aqueous solutions was developed and optimized to quantitatively and specifically induce the desulfation of the natural saponins, by a specific loss of H2SO4. By comparing the hemolytic activities of the natural and desulfated extracts, we clearly identified the sulfate function as highly responsible for the saponin toxicity.
Highlights
Molecules of natural origins have been the focus of scientific interest for years, because of their great structural diversity and complexity, but, above all, thanks to their biological properties which, if they are understood and mastered, can be of major industrial interest [1,2]
The present study focuses on saponins found in the viscera of the sea cucumber, Holothuria scabra Jaeger (1833), a species that is mainly found along the coasts of the Indian Ocean and the western coasts of the Pacific Ocean [34]
The saponin content within the H. scabra viscera has been qualitatively and quantitatively determined using a combination of mass spectrometry methods including Matrix-assisted Laser Desorption/Ionization (MALDI)(HR)MS and LC-MS(MS) experiments
Summary
Molecules of natural origins have been the focus of scientific interest for years, because of their great structural diversity and complexity, but, above all, thanks to their biological properties which, if they are understood and mastered, can be of major industrial interest [1,2]. Saponins are specific metabolites that can fulfill defensive roles due to their toxicity, play a role in inter- and intra-species communications [5,6], and even intervene in reproduction processes [7,8]. These molecules are mainly present in the plant kingdom, as shown in a study conducted by Kassem et al that reveals that 75% of the well-known 1700 varieties of Asian plants and vegetables contain saponins [9]. SSeelleeccttiivveellyy rreemmoovviinngg tthhee ssuullffaattee ggrroouupp oofftthheeHH..ssccaabbrraassaappoonniinnssccoouullddccoonnttrriibbuuttee ttoo vvaalliiddaattee tthhee hhyyppootthheettiiccaall rroollee ooff tthhee ssuullffaattee ggrroouupp pprreesseenntt oonn tthheessee ddeeffeennssiivvee cchheemicals. TsahpeoMniAnLs DthIaetx, preesrpimecetnivteallyo,nceormreasypnoontddtioscsraimpoinnaintes btheatwt aereennnoonn-s-suulflafateteddinanthdedneastuulrfaatleedxtsraapcot noirndsetshualtf,arteesdpdecutriivneglyt,hceoMrreAsLpDonI dprtoocseasps.onins that are non-sulfated in the natural extract or desulfated during the MALDI process
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