TAp73是气道多纤毛发生的核心转录调节因子。

TAp73 is a central transcriptional regulator of airway multiciliogenesis.

作者信息

Nemajerova Alice, Kramer Daniela, Siller Saul S, Herr Christian, Shomroni Orr, Pena Tonatiuh, Gallinas Suazo Cristina, Glaser Katharina, Wildung Merit, Steffen Henrik, Sriraman Anusha, Oberle Fabian, Wienken Magdalena, Hennion Magali, Vidal Ramon, Royen Bettina, Alevra Mihai, Schild Detlev, Bals Robert, Dönitz Jürgen, Riedel Dietmar, Bonn Stefan, Takemaru Ken-Ichi, Moll Ute M, Lizé Muriel

机构信息

Department of Pathology, Stony Brook University, Stony Brook, New York 11794, USA;

Institute of Molecular Oncology, Göttingen University, 37077 Göttingen, Germany;

出版信息

Genes Dev. 2016 Jun 1;30(11):1300-12. doi: 10.1101/gad.279836.116. Epub 2016 Jun 2.

DOI:10.1101/gad.279836.116

PMID:27257214

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4911929/

Abstract

Motile multiciliated cells (MCCs) have critical roles in respiratory health and disease and are essential for cleaning inhaled pollutants and pathogens from airways. Despite their significance for human disease, the transcriptional control that governs multiciliogenesis remains poorly understood. Here we identify TP73, a p53 homolog, as governing the program for airway multiciliogenesis. Mice with TP73 deficiency suffer from chronic respiratory tract infections due to profound defects in ciliogenesis and complete loss of mucociliary clearance. Organotypic airway cultures pinpoint TAp73 as necessary and sufficient for basal body docking, axonemal extension, and motility during the differentiation of MCC progenitors. Mechanistically, cross-species genomic analyses and complete ciliary rescue of knockout MCCs identify TAp73 as the conserved central transcriptional integrator of multiciliogenesis. TAp73 directly activates the key regulators FoxJ1, Rfx2, Rfx3, and miR34bc plus nearly 50 structural and functional ciliary genes, some of which are associated with human ciliopathies. Our results position TAp73 as a novel central regulator of MCC differentiation.

摘要

运动性多纤毛细胞（MCCs）在呼吸道健康和疾病中发挥着关键作用，对于清除气道中吸入的污染物和病原体至关重要。尽管它们对人类疾病具有重要意义，但控制多纤毛发生的转录调控仍知之甚少。在这里，我们确定了p53同源物TP73在控制气道多纤毛发生程序中的作用。TP73缺陷的小鼠由于纤毛发生的严重缺陷和黏液纤毛清除功能的完全丧失而患有慢性呼吸道感染。器官型气道培养表明，TAp73对于MCC祖细胞分化过程中的基体对接、轴丝延伸和运动是必要且充分的。从机制上讲，跨物种基因组分析和敲除MCCs的完全纤毛拯救确定TAp73是多纤毛发生保守的中央转录整合因子。TAp73直接激活关键调节因子FoxJ1、Rfx2、Rfx3和miR34bc以及近50个结构和功能纤毛基因，其中一些与人类纤毛病相关。我们的结果将TAp73定位为MCC分化的新型中央调节因子。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/24c4/4911929/bb6b8f7a77ae/1300f01.jpg

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TAp73是气道多纤毛发生的核心转录调节因子。

TAp73 is a central transcriptional regulator of airway multiciliogenesis.

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