Cell Reports
(Feb 2017)
Citron Kinase Deficiency Leads to Chromosomal Instability and TP53-Sensitive Microcephaly
Federico Tommaso Bianchi,
Chiara Tocco,
Gianmarco Pallavicini,
Yifan Liu,
Fiammetta Vernì,
Chiara Merigliano,
Silvia Bonaccorsi,
Nadia El-Assawy,
Lorenzo Priano,
Marta Gai,
Gaia Elena Berto,
Alessandra Maria Adelaide Chiotto,
Francesco Sgrò,
Alessia Caramello,
Laura Tasca,
Ugo Ala,
Francesco Neri,
Salvatore Oliviero,
Alessandro Mauro,
Stephan Geley,
Maurizio Gatti,
Ferdinando Di Cunto
Affiliations
Federico Tommaso Bianchi
Department of Molecular Biotechnology and Health Sciences, University of Turin, 10126 Turin, Italy
Chiara Tocco
Department of Molecular Biotechnology and Health Sciences, University of Turin, 10126 Turin, Italy
Gianmarco Pallavicini
Department of Molecular Biotechnology and Health Sciences, University of Turin, 10126 Turin, Italy
Yifan Liu
Department of Molecular Biotechnology and Health Sciences, University of Turin, 10126 Turin, Italy
Fiammetta Vernì
Department of Biology and Biotechnology “Charles Darwin,” Sapienza University, 00185 Rome, Italy
Chiara Merigliano
Department of Biology and Biotechnology “Charles Darwin,” Sapienza University, 00185 Rome, Italy
Silvia Bonaccorsi
Department of Biology and Biotechnology “Charles Darwin,” Sapienza University, 00185 Rome, Italy
Nadia El-Assawy
Department of Neurology and Neurorehabilitation, San Giuseppe Hospital, Istituto Auxologico Italiano IRCCS, 28824 Piancavallo (VB), Italy
Lorenzo Priano
Department of Neurology and Neurorehabilitation, San Giuseppe Hospital, Istituto Auxologico Italiano IRCCS, 28824 Piancavallo (VB), Italy
Marta Gai
Department of Molecular Biotechnology and Health Sciences, University of Turin, 10126 Turin, Italy
Gaia Elena Berto
Department of Molecular Biotechnology and Health Sciences, University of Turin, 10126 Turin, Italy
Alessandra Maria Adelaide Chiotto
Department of Molecular Biotechnology and Health Sciences, University of Turin, 10126 Turin, Italy
Francesco Sgrò
Department of Molecular Biotechnology and Health Sciences, University of Turin, 10126 Turin, Italy
Alessia Caramello
Department of Molecular Biotechnology and Health Sciences, University of Turin, 10126 Turin, Italy
Laura Tasca
Department of Molecular Biotechnology and Health Sciences, University of Turin, 10126 Turin, Italy
Ugo Ala
Department of Molecular Biotechnology and Health Sciences, University of Turin, 10126 Turin, Italy
Francesco Neri
Human Genetics Foundation (HuGeF), via Nizza 52, 10126 Torino, Italy
Salvatore Oliviero
Human Genetics Foundation (HuGeF), via Nizza 52, 10126 Torino, Italy
Alessandro Mauro
Department of Neurology and Neurorehabilitation, San Giuseppe Hospital, Istituto Auxologico Italiano IRCCS, 28824 Piancavallo (VB), Italy
Stephan Geley
Division of Molecular Pathophysiology, Biocenter, Medical University of Innsbruck, 6020 Innsbruck, Austria
Maurizio Gatti
Department of Biology and Biotechnology “Charles Darwin,” Sapienza University, 00185 Rome, Italy
Ferdinando Di Cunto
Department of Molecular Biotechnology and Health Sciences, University of Turin, 10126 Turin, Italy
DOI
https://doi.org/10.1016/j.celrep.2017.01.054
Journal volume & issue
Vol. 18,
no. 7
pp.
1674
– 1686
Abstract
Read online
Mutations in citron (CIT), leading to loss or inactivation of the citron kinase protein (CITK), cause primary microcephaly in humans and rodents, associated with cytokinesis failure and apoptosis in neural progenitors. We show that CITK loss induces DNA damage accumulation and chromosomal instability in both mammals and Drosophila. CITK-deficient cells display “spontaneous” DNA damage, increased sensitivity to ionizing radiation, and defective recovery from radiation-induced DNA lesions. In CITK-deficient cells, DNA double-strand breaks increase independently of cytokinesis failure. Recruitment of RAD51 to DNA damage foci is compromised by CITK loss, and CITK physically interacts with RAD51, suggesting an involvement of CITK in homologous recombination. Consistent with this scenario, in doubly CitK and Trp53 mutant mice, neural progenitor cell death is dramatically reduced; moreover, clinical and neuroanatomical phenotypes are remarkably improved. Our results underscore a crucial role of CIT in the maintenance of genomic integrity during brain development.
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