Genetic Drivers of Kidney Defects in the DiGeorge Syndrome

Esther López-Rivera(MACOM (United States)), Yangfan P. Liu(MACOM (United States)), Miguel Verbitsky(MACOM (United States)), Blair R. Anderson(MACOM (United States)), Valentina Capone(MACOM (United States)), Edgar A. Otto(MACOM (United States)), Zhonghai Yan(MACOM (United States)), Adele Mitrotti(MACOM (United States)), Jeremiah Martino(MACOM (United States)), Nicholas J. Steers(MACOM (United States)), David Fasel(MACOM (United States)), Katarina Vukojević(MACOM (United States)), Rong Deng(MACOM (United States)), Silvia E. Racedo(Albert Einstein College of Medicine), Qingxue Liu(MACOM (United States)), Max Werth(MACOM (United States)), Rik Westland(MACOM (United States)), Asaf Vivante(MACOM (United States)), Gabriel S. Makar(MACOM (United States)), Monica Bodria(University of Parma), Matthew G. Sampson(MACOM (United States)), Christopher E. Gillies(MACOM (United States)), Virginia Vega-Warner(MACOM (United States)), Mariarosa Maiorana(University of Parma), Donald Petrey(MACOM (United States)), Barry Honig(MACOM (United States)), Vladimir J. Lozanovski(MACOM (United States)), Rémi Salomon(Délégation Paris 5), Laurence Heidet(MACOM (United States)), Wassila Carpentier(MACOM (United States)), Dominique Gaillard(MACOM (United States)), Alba Carrea(MACOM (United States)), Loreto Gesualdo(MACOM (United States)), Daniele Cusi(MACOM (United States)), Claudia Izzi(MACOM (United States)), Francesco Scolari(MACOM (United States)), J. A. E. van Wijk(MACOM (United States)), Adela Arapović(MACOM (United States)), Mirna Saraga‐Babić(MACOM (United States)), Marijan Saraga(MACOM (United States)), Nenad Kunac(MACOM (United States)), Ali Samii(MACOM (United States)), Donna M. McDonald‐McGinn(MACOM (United States)), T. Blaine Crowley(MACOM (United States)), Elaine H. Zackai(MACOM (United States)), Dorota Drożdż(Jagiellonian University), Monika Miklaszewska(Jagiellonian University), Marcin Tkaczyk(MACOM (United States)), Przemysław Sikora(Medical University of Lublin), Maria Szczepańska(MACOM (United States)), Małgorzata Mizerska-Wasiak(MACOM (United States)), Grażyna Krzemień(MACOM (United States)), Agnieszka Szmigielska(MACOM (United States)), Marcin Zaniew(MACOM (United States)), John M. Darlow(MACOM (United States)), Prem Puri(MACOM (United States)), David Barton(University College Dublin), E Casolari(MACOM (United States)), Susan L. Furth(MACOM (United States)), Bradley A. Warady(Children's Mercy Hospital), Zoran Gucev(MACOM (United States)), Håkon Håkonarson(MACOM (United States)), Hana Flögelová(MACOM (United States)), Velibor Tasić(MACOM (United States)), Anna Latos‐Bieleńska(Poznan University of Medical Sciences), Anna Materna‐Kiryluk(Poznan University of Medical Sciences), Landino Allegri(University of Parma), Craig S. Wong(MACOM (United States)), Iain A. Drummond(MACOM (United States)), Vivette D. D’Agati, Akira Imamoto(MACOM (United States)), Jonathan Barasch(MACOM (United States)), Friedhelm Hildebrandt(MACOM (United States)), Krzysztof Kiryluk(MACOM (United States)), Richard P. Lifton(MACOM (United States)), Bernice E. Morrow(Albert Einstein College of Medicine), Marc Jeanpierre(MACOM (United States)), Virginia E. Papaioannou(MACOM (United States)), Gian Marco Ghiggeri(MACOM (United States)), Ali G. Gharavi(MACOM (United States)), Nicholas Katsanis(MACOM (United States)), Simone Sanna‐Cherchi(MACOM (United States))
New England Journal of Medicine
January 25, 2017
10.1056/nejmoa1609009
Cited by 154Open Access
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Abstract

BACKGROUND: The DiGeorge syndrome, the most common of the microdeletion syndromes, affects multiple organs, including the heart, the nervous system, and the kidney. It is caused by deletions on chromosome 22q11.2; the genetic driver of the kidney defects is unknown. METHODS: We conducted a genomewide search for structural variants in two cohorts: 2080 patients with congenital kidney and urinary tract anomalies and 22,094 controls. We performed exome and targeted resequencing in samples obtained from 586 additional patients with congenital kidney anomalies. We also carried out functional studies using zebrafish and mice. RESULTS: ). We localized the main drivers of renal disease in the DiGeorge syndrome to a 370-kb region containing nine genes. In zebrafish embryos, an induced loss of function in snap29, aifm3, and crkl resulted in renal defects; the loss of crkl alone was sufficient to induce defects. Five of 586 patients with congenital urinary anomalies had newly identified, heterozygous protein-altering variants, including a premature termination codon, in CRKL. The inactivation of Crkl in the mouse model induced developmental defects similar to those observed in patients with congenital urinary anomalies. CONCLUSIONS: We identified a recurrent 370-kb deletion at the 22q11.2 locus as a driver of kidney defects in the DiGeorge syndrome and in sporadic congenital kidney and urinary tract anomalies. Of the nine genes at this locus, SNAP29, AIFM3, and CRKL appear to be critical to the phenotype, with haploinsufficiency of CRKL emerging as the main genetic driver. (Funded by the National Institutes of Health and others.).

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