TAp73 is a central transcriptional regulator of airway multiciliogenesis

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

doi:10.1101/gad.279836.116

TAp73 is a central transcriptional regulator of airway multiciliogenesis

Alice Nemajerova
, Daniela Kramer
, Saul S. Siller
, Christian Herr
, Orr Shomroni
, Tonatiuh Pena
, Cristina Gallinas Suazo
, Katharina Glaser
, Merit Wildung
, Henrik Steffen
, Anusha Sriraman
, Fabian Oberle
, Magdalena Wienken
, Magali Hennion
, Ramon Vidal
, Bettina Royen
, Mihai Alevra
, Detlev Schild
, Robert Bals
, Jürgen Dönitz

Dietmar Riedel, Stefan Bonn, Ken Ichi Takemaru, Ute M. Moll, Muriel Lizé

Stony Brook University

University of Göttingen
Stony Brook University
Saarland University
German Center for Neurodegenerative Diseases
Max Planck Institute for Biophysical Chemistry (Karl Friedrich Bonhoeffer Institute)

Research output: Contribution to journal › Article › peer-review

100 Scopus citations

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.

Original language	English
Pages (from-to)	1300-1312
Number of pages	13
Journal	Genes and Development
Volume	30
Issue number	11
DOIs	https://doi.org/10.1101/gad.279836.116
State	Published - Jun 1 2016

Keywords

Airways
Central transcriptional regulator
Motile multiciliogenesis
P73
TAp73
TP73

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10.1101/gad.279836.116

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Nemajerova, A., Kramer, D., Siller, S. S., Herr, C., Shomroni, O., Pena, T., Suazo, C. G., Glaser, K., Wildung, M., Steffen, H., Sriraman, A., Oberle, F., Wienken, M., Hennion, M., Vidal, R., Royen, B., Alevra, M., Schild, D., Bals, R., ... Lizé, M. (2016). TAp73 is a central transcriptional regulator of airway multiciliogenesis. Genes and Development, 30(11), 1300-1312. https://doi.org/10.1101/gad.279836.116

@article{9a630e2fb4de405da53c9cc45340f3dd,

title = "TAp73 is a central transcriptional regulator of airway multiciliogenesis",

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.",

keywords = "Airways, Central transcriptional regulator, Motile multiciliogenesis, P73, TAp73, TP73",

author = "Alice Nemajerova and Daniela Kramer and Siller, \{Saul S.\} and Christian Herr and Orr Shomroni and Tonatiuh Pena and Suazo, \{Cristina Gallinas\} and Katharina Glaser and Merit Wildung and Henrik Steffen and Anusha Sriraman and Fabian Oberle and Magdalena Wienken and Magali Hennion and Ramon Vidal and Bettina Royen and Mihai Alevra and Detlev Schild and Robert Bals and J{\"u}rgen D{\"o}nitz and Dietmar Riedel and Stefan Bonn and Takemaru, \{Ken Ichi\} and Moll, \{Ute M.\} and Muriel Liz{\'e}",

note = "Publisher Copyright: {\textcopyright} 2016 Nemajerova et al.",

year = "2016",

month = jun,

day = "1",

doi = "10.1101/gad.279836.116",

language = "English",

volume = "30",

pages = "1300--1312",

journal = "Genes and Development",

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Nemajerova, A, Kramer, D, Siller, SS, Herr, C, Shomroni, O, Pena, T, Suazo, CG, Glaser, K, Wildung, M, Steffen, H, Sriraman, A, Oberle, F, Wienken, M, Hennion, M, Vidal, R, Royen, B, Alevra, M, Schild, D, Bals, R, Dönitz, J, Riedel, D, Bonn, S, Takemaru, KI , Moll, UM & Lizé, M 2016, 'TAp73 is a central transcriptional regulator of airway multiciliogenesis', Genes and Development, vol. 30, no. 11, pp. 1300-1312. https://doi.org/10.1101/gad.279836.116

TY - JOUR

T1 - TAp73 is a central transcriptional regulator of airway multiciliogenesis

AU - Nemajerova, Alice

AU - Kramer, Daniela

AU - Siller, Saul S.

AU - Herr, Christian

AU - Shomroni, Orr

AU - Pena, Tonatiuh

AU - Suazo, Cristina Gallinas

AU - Glaser, Katharina

AU - Wildung, Merit

AU - Steffen, Henrik

AU - Sriraman, Anusha

AU - Oberle, Fabian

AU - Wienken, Magdalena

AU - Hennion, Magali

AU - Vidal, Ramon

AU - Royen, Bettina

AU - Alevra, Mihai

AU - Schild, Detlev

AU - Bals, Robert

AU - Dönitz, Jürgen

AU - Riedel, Dietmar

AU - Bonn, Stefan

AU - Takemaru, Ken Ichi

AU - Moll, Ute M.

AU - Lizé, Muriel

PY - 2016/6/1

Y1 - 2016/6/1

N2 - 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.

AB - 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.

KW - Airways

KW - Central transcriptional regulator

KW - Motile multiciliogenesis

KW - P73

KW - TAp73

KW - TP73

UR - https://www.scopus.com/pages/publications/84974593589

U2 - 10.1101/gad.279836.116

DO - 10.1101/gad.279836.116

M3 - Article

C2 - 27257214

SN - 0890-9369

VL - 30

SP - 1300

EP - 1312

JO - Genes and Development

JF - Genes and Development

IS - 11

ER -

TAp73 is a central transcriptional regulator of airway multiciliogenesis

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Keywords

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