2024
CasRx-based Wnt activation promotes alveolar regeneration while ameliorating pulmonary fibrosis in a mouse model of lung injury
Shen S, Wang P, Wu P, Huang P, Chi T, Xu W, Xi Y. CasRx-based Wnt activation promotes alveolar regeneration while ameliorating pulmonary fibrosis in a mouse model of lung injury. Molecular Therapy 2024, 32: 3974-3989. PMID: 39245939, DOI: 10.1016/j.ymthe.2024.09.008.Peer-Reviewed Original ResearchWnt/b-catenin signalingStem cell activityLung epitheliumAlveolar regenerationPulmonary fibrosisLung fibrosisWnt signalingCell activationMouse models of lung injuryModel of lung injuryWnt activityAlveolar type II cell proliferationBleomycin-induced injuryAmeliorated pulmonary fibrosisActivation of Wnt signalingType II cell proliferationInhibit lung fibrosisRegenerative medicineAnti-fibrotic effectsTreating pulmonary fibrosisActivated Wnt signalingLung injuryMouse modelFibrosisWnt/b-catenin
2017
Chapter 15 Mouse Models of Epigenetic Inheritance: Classification, Mechanisms, and Experimental Strategies
Mao S, Li Y, Liu B, Chi T. Chapter 15 Mouse Models of Epigenetic Inheritance: Classification, Mechanisms, and Experimental Strategies. 2017, 231-243. DOI: 10.1016/b978-0-12-805388-1.00015-8.Peer-Reviewed Original ResearchEpigenetic inheritanceChromatin modificationsHeritable chromatin modificationsHeritable epigenetic statesSimple reporter geneEpigenetic stateExperimental strategiesEpigenetic mechanismsMolecular basisReporter geneMouse modelInheritanceInheritance modelEnvironmental factorsCompelling evidenceMechanistic studiesEmbryogenesisExtensive contributionsGenesTraitsMechanismMechanistic problemsModificationInducerOffspring