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Neuronal Replenishment via Hydrogel-Rationed Delivery of Reprogramming Factors.

Negar MahmoudiYi WangNiamh MoriartyNoorya Y AhmedNathalie DehorterLeszek LisowskiAlan R HarveyClare L ParishRichard J WilliamsDavid R Nisbet
Published in: ACS nano (2024)
The central nervous system's limited capacity for regeneration often leads to permanent neuronal loss following injury. Reprogramming resident reactive astrocytes into induced neurons at the site of injury is a promising strategy for neural repair, but challenges persist in stabilizing and accurately targeting viral vectors for transgene expression. In this study, we employed a bioinspired self-assembling peptide (SAP) hydrogel for the precise and controlled release of a hybrid adeno-associated virus (AAV) vector, AAVDJ, carrying the NeuroD1 neural reprogramming transgene. This method effectively mitigates the issues of high viral dosage at the target site, off-target delivery, and immunogenic reactions, enhancing the vector's targeting and reprogramming efficiency. In vitro , this vector successfully induced neuron formation, as confirmed by morphological, histochemical, and electrophysiological analyses. In vivo , SAP-mediated delivery of AAVDJ-NeuroD1 facilitated the trans-differentiation of reactive host astrocytes into induced neurons, concurrently reducing glial scarring. Our findings introduce a safe and effective method for treating central nervous system injuries, marking a significant advancement in regenerative neuroscience.
Keyphrases
  • high glucose
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  • drug induced
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  • cancer therapy
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  • mesenchymal stem cells
  • tissue engineering
  • binding protein