Susan Keefe scite author profile

Adult mammalian brains have largely lost neuroregeneration capability except for a few niches. Previous studies have converted glial cells into neurons, but the total number of neurons generated is limited and the therapeutic potential is unclear. Here, we demonstrate that NeuroD1-mediated in situ astrocyte-to-neuron conversion can regenerate a large number of functional new neurons after ischemic injury. Specifically, using NeuroD1 adeno-associated virus (AAV)-based gene therapy, we were able to regenerate one third of the total lost neurons caused by ischemic injury and simultaneously protect another one third of injured neurons, leading to a significant neuronal recovery. RNA sequencing and immunostaining confirmed neuronal recovery after cell conversion at both the mRNA level and protein level. Brain slice recordings found that the astrocyte-converted neurons showed robust action potentials and synaptic responses at 2 months after NeuroD1 expression. Anterograde and retrograde tracing revealed long-range axonal projections from astrocyte-converted neurons to their target regions in a time-dependent manner. Behavioral analyses showed a significant improvement of both motor and cognitive functions after cell conversion. Together, these results demonstrate that in vivo cell conversion technology through NeuroD1-based gene therapy can regenerate a large number of functional new neurons to restore lost neuronal functions after injury.

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Aquatic Activity-Related Craniofacial Injuries Presenting to United States Emergency Departments, 2010 to 2019

Yang

Johnson

Keefe

et al. 2021

Journal of Oral and Maxillofacial Surgery

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KrasP34R and KrasT58I mutations induce distinct RASopathy phenotypes in mice

Wong¹,

Pérez–Mancera²,

Huang³

et al. 2020

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Susan Keefe

A NeuroD1 AAV-Based Gene Therapy for Functional Brain Repair after Ischemic Injury through In Vivo Astrocyte-to-Neuron Conversion

Aquatic Activity-Related Craniofacial Injuries Presenting to United States Emergency Departments, 2010 to 2019

KrasP34R and KrasT58I mutations induce distinct RASopathy phenotypes in mice

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