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CasRx-based Wnt activation promotes alveolar regeneration while ameliorating pulmonary fibrosis in a mouse model of lung injury

Shengxi Shen, Ping Wang, Pei-Hsun Wu, Pengyu Huang, Tian Chi, Wenqing Xu, Ying Xi

2024Molecular Therapy11 citationsDOIOpen Access PDF

Abstract

Wnt/β-catenin signaling is an attractive target for regenerative medicine. A powerful driver of stem cell activity and hence tissue regeneration, Wnt signaling can promote fibroblast proliferation and activation, leading to fibrosis, while prolonged Wnt signaling is potentially carcinogenic. Thus, to harness its therapeutic potential, the activation of Wnt signaling must be transient, reversible, and tissue specific. In the lung, Wnt signaling is essential for alveolar stem cell activity and alveolar regeneration, which is impaired in lung fibrosis. Activation of Wnt/β-catenin signaling in lung epithelium may have anti-fibrotic effects. Here, we used intratracheal adeno-associated virus 6 injection to selectively deliver CasRx into the lung epithelium, where it reversibly activates Wnt signaling by simultaneously degrading mRNAs encoding Axin1 and Axin2, negative regulators of Wnt/β-catenin signaling. Interestingly, CasRx-mediated Wnt activation specifically in lung epithelium not only promotes alveolar type II cell proliferation and alveolar regeneration but also inhibits lung fibrosis resulted from bleomycin-induced injury, relevant in both preventive and therapeutic settings. Our study offers an attractive strategy for treating pulmonary fibrosis, with general implications for regenerative medicine.

Topics & Concepts

Regeneration (biology)Pulmonary fibrosisWnt signaling pathwayLungPulmonary InjuryFibrosisMedicineDiffuse alveolar damagePathologyCancer researchBiologyCell biologySignal transductionInternal medicineAcute respiratory distressNeonatal Respiratory Health ResearchTissue Engineering and Regenerative MedicineWnt/β-catenin signaling in development and cancer