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Si us plau utilitzeu sempre aquest identificador per citar o enllaçar aquest document: https://hdl.handle.net/2445/156757
Neuromuscular activity induces paracrine signaling and triggers axonal regrowth after injury in microfluidic lab‐on‐chip devices
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Peripheral nerve injuries, including motor neuron axonal injury, often lead to functional impairments. Current therapies are mostly limited to surgical intervention after lesion, yet these interventions have limited success in restoring functionality. Current activity‐based therapies after axonal injuries are based on trial‐error approaches in which the details of the underlying cellular and molecular processes are largely unknown. Here we show the effects of the modulation of both neuronal and muscular activity with optogenetic approaches to assess the regenerative capacity of cultured motor neuron (MN) after lesion in a compartmentalized microfluidic‐assisted axotomy device. With increased neuronal activity, we observed an increase in the ratio of regrowing axons after injury in our peripheral‐injury model. Moreover, increasing muscular activity induces the liberation of leukemia inhibitory factor and glial cell line‐derived neurotrophic factor in a paracrine fashion that in turn triggers axonal regrowth of lesioned MN in our 3D hydrogel cultures. The relevance of our findings as well as the novel approaches used in this study could be useful not only after axotomy events but also in diseases affecting MN survival.
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SALA JARQUE, Julia, MESQUIDA VENY, Francina, BADIOLA MATEOS, Maider, SAMITIER I MARTÍ, Josep, HERVERA ABAD, Arnau, RÍO FERNÁNDEZ, José antonio del. Neuromuscular activity induces paracrine signaling and triggers axonal regrowth after injury in microfluidic lab‐on‐chip devices. _Cells_. 2020. Vol. 9, núm. 2, pàgs. 302. [consulta: 25 de gener de 2026]. ISSN: 2073-4409. [Disponible a: https://hdl.handle.net/2445/156757]