This PhD in co-direction between the Peptlab Laboratory of the University of Firenze (Italy) and the Laboratory of Pharmacognosy of the University of Bourgogne Franche-Comté (France), deals with extraction, purification and structural elucidation of saponins from plants as mimetic antigens involved in an immune response. The phytochemical study of five species from three different families, Wisteria frustecens, Wisteria floribunda “macrobotrys” and Wisteria floribunda “rosea” from Fabaceae, Weigela florida “rumba” from Caprifoliaceae, and Polygala acicularis from Polygalaceae, allowed us to isolate sixteen natural glycosides: six with new structures, one analyzed for the first time in its native form, and nine which have been already described in the literature. These compounds were isolated using various chromatographic methods, and their structures were elucidated using mainly 2D NMR and mass spectrometry. From the isolated glycosides, six were selected and tested as mimetics of native antigens involved in the immune response. Moreover, one flavonoid glycoside extracted from Sophora japonica, and one commercial triterpenic acid, ursolic acid, were also chosen as mimetics of native antigens. Immunoenzymatic assays (ELISA) were performed for each compound to evaluate their potential as mimetics of native antigens of multiple sclerosis and Rett syndrome. The IgM levels in sera of patients affected by multiple sclerosis and Rett syndrome were measured and compared to normal blood donors. Concerning multiple sclerosis, no significant results were obtained for saponins, but in the case of Rett syndrome, interesting and surprising results were obtained. Indeed, the first hypothesis was that the glycosyl part of the molecule could be relevant for antibody recognition. In the case of Rett syndrome ursolic acid, an aglycone without any glycosidic part, demonstrated a good efficiency in IgM recognition. On the other hand, one triterpenic glycoside showed similar results. These results were discussed to define possible structure/activity relationships.
Extraction, purification, and structural analysis of glycosylated natural products, mimetics of native antigens involved in an immune response / Champy Anne Sophie. - (2018).
Extraction, purification, and structural analysis of glycosylated natural products, mimetics of native antigens involved in an immune response
Champy Anne Sophie
2018
Abstract
This PhD in co-direction between the Peptlab Laboratory of the University of Firenze (Italy) and the Laboratory of Pharmacognosy of the University of Bourgogne Franche-Comté (France), deals with extraction, purification and structural elucidation of saponins from plants as mimetic antigens involved in an immune response. The phytochemical study of five species from three different families, Wisteria frustecens, Wisteria floribunda “macrobotrys” and Wisteria floribunda “rosea” from Fabaceae, Weigela florida “rumba” from Caprifoliaceae, and Polygala acicularis from Polygalaceae, allowed us to isolate sixteen natural glycosides: six with new structures, one analyzed for the first time in its native form, and nine which have been already described in the literature. These compounds were isolated using various chromatographic methods, and their structures were elucidated using mainly 2D NMR and mass spectrometry. From the isolated glycosides, six were selected and tested as mimetics of native antigens involved in the immune response. Moreover, one flavonoid glycoside extracted from Sophora japonica, and one commercial triterpenic acid, ursolic acid, were also chosen as mimetics of native antigens. Immunoenzymatic assays (ELISA) were performed for each compound to evaluate their potential as mimetics of native antigens of multiple sclerosis and Rett syndrome. The IgM levels in sera of patients affected by multiple sclerosis and Rett syndrome were measured and compared to normal blood donors. Concerning multiple sclerosis, no significant results were obtained for saponins, but in the case of Rett syndrome, interesting and surprising results were obtained. Indeed, the first hypothesis was that the glycosyl part of the molecule could be relevant for antibody recognition. In the case of Rett syndrome ursolic acid, an aglycone without any glycosidic part, demonstrated a good efficiency in IgM recognition. On the other hand, one triterpenic glycoside showed similar results. These results were discussed to define possible structure/activity relationships.
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