Neurogenesis and vascularization of the damaged brain using a lactate-releasing biomimetic scaffold

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• 作者：Zaida Á ; lvarez^a ; ^b ; ^d ; Oscar Castañ ; o^a ; ^c ; ^d ; Alba A. Castells^b ; Miguel A. Mateos-Timoneda^a ; ^d ; Josep A. Planell^a ; Elisabeth Engel^a ; ^c ; ^d ; Soledad Alcá ; ntara^b ; ^{salcantara@ub.edu" class="auth_mail}
• 关键词：Nanofibers ; Lactate ; Regeneration ; Neural stem cells ; Vascularization ; Neurogenesis
• 刊名：Biomaterials
• 出版年：June, 2014
• 年：2014
• 卷：35
• 期：17
• 页码：4769-4781
• 全文大小：8012 K

文摘

Regenerative medicine strategies to promote recovery following traumatic brain injuries are currently focused on the use of biomaterials as delivery systems for cells or bioactive molecules. This study shows that cell-free biomimetic scaffolds consisting of radially aligned electrospun poly-l/dl lactic acid (PLA70/30) nanofibers release l-lactate and reproduce the 3D organization and supportive function of radial glia embryonic neural stem cells. The topology of PLA nanofibers supports neuronal migration while l-lactate released during PLA degradation acts as an alternative fuel for neurons and is required for progenitor maintenance. Radial scaffolds implanted into cavities made in the postnatal mouse brain fostered complete implant vascularization, sustained neurogenesis, and allowed the long-term survival and integration of the newly generated neurons. Our results suggest that the endogenous central nervous system is capable of regeneration through the in聽vivo dedifferentiation induced by biophysical and metabolic cues, with no need for exogenous cells, growth factors, or genetic manipulation.