Nutraceutical properties of chestnut flours: beneficial effects on skeletal muscle atrophyElectronic supplementary information (ESI) available. See DOI: 10.1039/c4fo00353e

Plants contain a wide range of non-nutritive phytochemicals, many of which have protective or preventive properties for human diseases. The aim of the present work has been to investigate the nutraceutical properties of sweet chestnut flour extracts obtained from fruits collected from 7 geographic a...

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Main Authors: Frati, Alessia, Landi, Debora, Marinelli, Cristian, Gianni, Giacomo, Fontana, Lucia, Migliorini, Marzia, Pierucci, Federica, Garcia-Gil, Mercedes, Meacci, Elisabetta
Format: Article
Language:English
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Summary:Plants contain a wide range of non-nutritive phytochemicals, many of which have protective or preventive properties for human diseases. The aim of the present work has been to investigate the nutraceutical properties of sweet chestnut flour extracts obtained from fruits collected from 7 geographic areas of Tuscany (Italy), and their ability in modulating skeletal muscle atrophy. We found that the cultivars from different geographic areas are characterized by the composition and quantity of various nutrients and specific bioactive components, such as tocopherols, polyphenols and sphingolipids. The nutraceutical properties of chestnut sweet flours have been evaluated in C2C12 myotubes induced to atrophy by serum deprivation or dexamethasone. We found that the pretreatment with both total extracts of tocopherols and sphingolipids is able to counterbalance cell atrophy, reducing the decrease in myotube size and myonuclei number, and attenuating protein degradation and the increase in expression of MAFbx/atrogin-1 (a muscle-specific atrophy marker). By contrast, polyphenol extracts were not able to prevent atrophy. Since we also found that γ-tocopherol is the major form of tocopherol in sweet flour and its content differs depending on the procedure of sweet flour preparation, the mechanisms by which γ-tocopherol as well as sphingolipids affect skeletal muscle cell atrophy have been also investigated. This is the first evidence that chestnut sweet flour is a natural source of specific bioactive components with a relevant role in the prevention of cell degeneration and maintenance of skeletal muscle mass, opening important implications in designing appropriate nutritional therapeutic approaches to skeletal muscle atrophy. Chestnut sweet flour is a natural source of γ-tocopherols and sphingolipids with a relevant role in the prevention of skeletal muscle cell degeneration, opening important implications in nutritional therapeutic approaches to muscle atrophy.
ISSN:2042-6496
2042-650X
DOI:10.1039/c4fo00353e