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Anti-osteoclastic effects of C-glucosidic ellagitannins mediated by actin perturbation.

European journal of cell biology (2018-10-06)
Dan Georgess, Pirjo Spuul, Christophe Le Clainche, Damien Le Nihouannen, Isabelle Fremaux, Thierry Dakhli, Daniela Melanie Delannoy López, Denis Deffieux, Pierre Jurdic, Stéphane Quideau, Elisabeth Génot
ZUSAMMENFASSUNG

Actin subunits assemble into actin filaments whose dynamics and three-dimensional architectures are further regulated by a variety of cellular factors to establish the functional actin cytoskeleton. The C-glucosidic ellagitannin vescalagin and its simpler analogue vescalin, affect both the dynamics and the ultrastructure of the actin cytoskeleton by directly binding to F-actin. Herein, we show that in vitro, the two compounds induce the formation of distinct F-actin networks characterized by different superstructures and dynamics. In living mature osteoclasts, highly specialized bone-degrading cells that constantly remodel their cytoskeleton, vescalagin and vescalin alter actin dynamics at podosomes and compromise the integrity of the podosome belt that forms the bone-degrading apparatus. Both compounds target the bone-resorbing activity at concentrations that preserve osteoclastic maturation and survival and with no detectable impact on the behaviour of bone-forming osteoblastic cells. This anti-osteoclastic activity of vescalagin and vescalin reveals the potential of targeting actin dynamics as a new therapeutic opportunity and, in this case, as a plausible approach for the local treatment of osteoporosis.