Stabilization of CXCL12 (SDF-1α) via silk fibroin films enhances stem cell migration/retention and functional recovery after stroke
Amira Lekouaghet, Marta Sánchez-Díez, José Pérez-Rigueiro, Francisco J Rojo, Carmen Ramírez-Castillejo, Yolanda Ruiz-León, Fivos Panetsos, Gustavo V Guinea, Daniel González-Nieto

TL;DR
Silk fibroin films that release CXCL12 improve stem cell migration and recovery after stroke.
Contribution
A tunable silk fibroin film that stabilizes and sustains CXCL12 for stem cell recruitment in stroke.
Findings
Silk fibroin films sustained SDF-1α release for 7 days, promoting stem cell migration in vitro.
Implanted films guided stem cells to the cortex and enhanced cell retention.
SDF-1α-SF films reduced stroke lesion volume and preserved neuronal function in animal models.
Abstract
Brain pathologies such as ischemic stroke or traumatic brain injury (TBI) are among the most impactful diseases worldwide. In ischemic stroke, we currently lack truly effective treatments capable of delaying infarct progression, limiting lesion size or stimulating endogenous brain repair mechanisms to promote neurovascular remodeling and functional recovery. Two main barriers continue to limit the clinical translation of therapeutic molecules: the highly restrictive nature of the blood–brain barrier and that many bioactive molecules exhibit low stability at the target site, with half-lives shorter than the therapeutic window. In this study, we developed tunable silk fibroin (SF) films of variable concentration, fabricated via water annealing, that effectively preserve the functional activity of the chemokine CXCL12 (SDF-1α). The 2% SF formulation provided sustained release of SDF-1α for…
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Taxonomy
TopicsSilk-based biomaterials and applications · Mesenchymal stem cell research · Neurogenesis and neuroplasticity mechanisms
