WHAMM Inhibits Type II Alveolar Epithelial Cell EMT by Mediating Autophagic Degradation of TGF-β1 in Bronchopulmonary Dysplasia.

IF 4.5 2区 生物学 Q2 CELL BIOLOGY Journal of Cellular Physiology Pub Date : 2024-11-20 DOI:10.1002/jcp.31486
Shaodong Hua, Jinghan Chi, Ning Zhang, Xiao Yang, Pan Zhang, Chenyang Jiang, Yao Feng, Xiaoyang Hong, Zhichun Feng, Yurou Yan
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Abstract

Bronchopulmonary dysplasia (BPD) is one of the most prevalent complication in preterm infants, primarily characterized by arrested alveolar growth. The involvement of epithelial-mesenchymal transition (EMT) of AECII cells is proposed to have a crucial role in the pathogenesis of BPD; however, the underlying mechanism remains unclear. The present study reveals a significant reduction of WHAMM (WASP homolog associated with actin, membranes, and microtubules) in hyperoxia-induced BPD mice, highlighting its crucial role in suppressing the progression of BPD through the inhibition of EMT in AECIIs. We demonstrated that hyperoxia-induced downregulation of WHAMM leads to the accumulation of TGF-β1 primarily through its mediation of the autophagic degradation pathway. Mechanistically, WHAMM enhanced the autophagosomal localization of TGF-β1 and concurrently promoted the process of autophagy, thereby comprehensively facilitating the autophagic degradation of TGF-β1. These findings reveal the important role of WHAMM in the development of BPD, and the proposed WHAMM/autophagy/TGF-β1/EMT pathway may represent a potential therapeutic strategy for BPD treatment.

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WHAMM 在支气管肺发育不良中通过介导 TGF-β1 的自噬降解抑制 II 型肺泡上皮细胞的 EMT
支气管肺发育不良(BPD)是早产儿最常见的并发症之一,主要表现为肺泡生长停滞。AECII细胞的上皮-间质转化(EMT)被认为在BPD的发病机制中起着至关重要的作用,但其潜在机制仍不清楚。本研究揭示了在高氧诱导的BPD小鼠中WHAMM(与肌动蛋白、膜和微管相关的WASP同源物)的显著减少,突出了它在通过抑制AECIIs的EMT来抑制BPD进展中的关键作用。我们证实,高氧诱导的WHAMM下调主要通过自噬降解途径导致TGF-β1的积累。从机制上讲,WHAMM增强了TGF-β1的自噬体定位,同时促进了自噬过程,从而全面促进了TGF-β1的自噬降解。这些发现揭示了WHAMM在BPD发病过程中的重要作用,提出的WHAMM/自噬/TGF-β1/EMT通路可能是治疗BPD的一种潜在治疗策略。
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来源期刊
CiteScore
14.70
自引率
0.00%
发文量
256
审稿时长
1 months
期刊介绍: The Journal of Cellular Physiology publishes reports of high biological significance in areas of eukaryotic cell biology and physiology, focusing on those articles that adopt a molecular mechanistic approach to investigate cell structure and function. There is appreciation for the application of cellular, biochemical, molecular and in vivo genetic approaches, as well as the power of genomics, proteomics, bioinformatics and systems biology. In particular, the Journal encourages submission of high-interest papers investigating the genetic and epigenetic regulation of proliferation and phenotype as well as cell fate and lineage commitment by growth factors, cytokines and their cognate receptors and signal transduction pathways that influence the expression, integration and activities of these physiological mediators. Similarly, the Journal encourages submission of manuscripts exploring the regulation of growth and differentiation by cell adhesion molecules in addition to the interplay between these processes and those induced by growth factors and cytokines. Studies on the genes and processes that regulate cell cycle progression and phase transition in eukaryotic cells, and the mechanisms that determine whether cells enter quiescence, proliferate or undergo apoptosis are also welcomed. Submission of papers that address contributions of the extracellular matrix to cellular phenotypes and physiological control as well as regulatory mechanisms governing fertilization, embryogenesis, gametogenesis, cell fate, lineage commitment, differentiation, development and dynamic parameters of cell motility are encouraged. Finally, the investigation of stem cells and changes that differentiate cancer cells from normal cells including studies on the properties and functions of oncogenes and tumor suppressor genes will remain as one of the major interests of the Journal.
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