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Survival extended in animal model of spinal muscular atrophy through gene therapy

To make up for insufficient amounts of SMN protein, the cause of the inherited neuromuscular disease (SMA), researchers have successfully delivered a replacement SMN1 gene directly to the spinal cords of animal models of SMA. A new study demonstrating that enough copies of the SMN1 gene can be delivered to the spinal cord motor neurons to extend the survival of the treated animals is published in Human , a peer-reviewed journal from , , publishers. The article is available free on the website.

Marco Passini and coauthors from Genzyme (Framingham, MA), , Emory University School of Medicine (Atlanta, GA), and Georgetown University Medical Center (Washington, DC) used an adeno-associated viral vector as the delivery vehicle to transport copies of the SMN1 gene into motor neurons in the spinal cord via intrathecal delivery. They report on the effectiveness of restoring the levels of functional SMN protein in normal pig and non-human primate SMA models that would predict efficacy based on gene transfer with the same vector in an authentic mouse model of SMA in the article “Translational Fidelity of Intrathecal Delivery of Self-Complementary AAV9-Survival Motor Neuron 1 for Spinal Muscular Atrophy.”

“This is a very promising and thorough set of preclinical studies that supports rapid translation to the clinic,” says James M. Wilson, MD, PhD, Editor-in-Chief of Human Gene Therapy, and Director of the Gene Therapy Program, Department of Pathology and Laboratory Medicine, University of Pennsylvania Perelman School of Medicine, Philadelphia.

Source

Mary Ann Liebert, Inc./Genetic Engineering News