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University of Nebraska Medical Center

COVID-19- and Flu-Ravaged Lungs Could Be Repaired with mRNA Therapy

Genetic Engineering and Biotech News

Respiratory infections, such as those caused by SARS-CoV-2 or influenza, can damage the lungs’ delicate network of capillary blood vessels, compromising oxygen delivery and carbon dioxide removal. To overcome this damage, the lungs depend on the regenerative capacities of vascular endothelial cells. As valuable as these cells are, they can, according to University of Pennsylvania scientists, benefit from a little help.

The scientists, led by Andrew Vaughan, PhD, focused on a repair pathway involving vascular endothelial growth factor α (Vegfa) and the TGF-β receptor 2 (TGF-βR2). Using animal models and human tissue samples, the scientists showed that delivering Vegfa via lipid nanoparticles (LNPs) greatly enhances modes of repair for damaged blood vessels.

Details were published recently in Science Translational Medicine, in an article titled, “TGF-βR2 signaling coordinates pulmonary vascular repair after viral injury in mice and human tissue.”

“Mice deficient in endothelial Tgfbr2 exhibited prolonged injury and diminished vascular repair,” the article’s authors wrote. “Loss of endothelial Tgfbr2 prevented autocrine Vegfa expression, reduced endothelial proliferation, and impaired renewal of aerocytes thought to be critical for alveolar gas exchange.”

“We developed a lipid nanoparticle that targets the pulmonary endothelium, Lung-LNP (LuLNP),” the authors continued. “Delivery of Vegfa mRNA, a critical TGF-βR2 downstream effector, by LuLNPs improved the impaired regeneration phenotype of endothelial cell Tgfbr2 deficiency during influenza injury.”

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