Delivery of MiRNA Induces Epigenetic Alterations and Corrects Pulmonary Pathology in Congenital Diaphragmatic Hernia

Overview

Journal Mol Ther Nucleic Acids

Publisher Cell Press

Date 2023 May 18

PMID 37200861

Authors

Sarah J Ullrich

Nicholas K Yung

Tory J Bauer-Pisani

Nathan L Maassel

Mary Elizabeth Guerra

Mollie Freedman-Weiss

Samantha L Ahle

Adele S Ricciardi

Maor Sauler

W Mark Saltzman

Alexandra S Piotrowski-Daspit

David H Stitelman

Affiliations

Soon will be listed here.

Abstract

Structural fetal diseases, such as congenital diaphragmatic hernia (CDH) can be diagnosed prenatally. Neonates with CDH are healthy as gas exchange is managed by the placenta, but impaired lung function results in critical illness from the time a baby takes its first breath. MicroRNA (miR) 200b and its downstream targets in the TGF-β pathway are critically involved in lung branching morphogenesis. Here, we characterize the expression of miR200b and the TGF-β pathway at different gestational times using a rat model of CDH. Fetal rats with CDH are deficient in miR200b at gestational day 18. We demonstrate that novel polymeric nanoparticles loaded with miR200b, delivered via vitelline vein injection to fetal rats with CDH results in changes in the TGF-β pathway as measured by qRT-PCR; these epigenetic changes improve lung size and lung morphology, and lead to favorable pulmonary vascular remodeling on histology. This is the first demonstration of epigenetic therapy to improve lung growth and development in a pre-clinical model. With refinement, this technique could be applied to fetal cases of CDH or other forms of impaired lung development in a minimally invasive fashion.

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