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Complex Compound Inheritance of Lethal Lung Developmental Disorders Due to Disruption of the TBX-FGF Pathway.


ABSTRACT: Primary defects in lung branching morphogenesis, resulting in neonatal lethal pulmonary hypoplasias, are incompletely understood. To elucidate the pathogenetics of human lung development, we studied a unique collection of samples obtained from deceased individuals with clinically and histopathologically diagnosed interstitial neonatal lung disorders: acinar dysplasia (n = 14), congenital alveolar dysplasia (n = 2), and other lethal lung hypoplasias (n = 10). We identified rare heterozygous copy-number variant deletions or single-nucleotide variants (SNVs) involving TBX4 (n = 8 and n = 2, respectively) or FGF10 (n = 2 and n = 2, respectively) in 16/26 (61%) individuals. In addition to TBX4, the overlapping ?2 Mb recurrent and nonrecurrent deletions at 17q23.1q23.2 identified in seven individuals with lung hypoplasia also remove a lung-specific enhancer region. Individuals with coding variants involving either TBX4 or FGF10 also harbored at least one non-coding SNV in the predicted lung-specific enhancer region, which was absent in 13 control individuals with the overlapping deletions but without any structural lung anomalies. The occurrence of rare coding variants involving TBX4 or FGF10 with the putative hypomorphic non-coding SNVs implies a complex compound inheritance of these pulmonary hypoplasias. Moreover, they support the importance of TBX4-FGF10-FGFR2 epithelial-mesenchymal signaling in human lung organogenesis and help to explain the histopathological continuum observed in these rare lethal developmental disorders of the lung.

SUBMITTER: Karolak JA 

PROVIDER: S-EPMC6369446 | biostudies-literature | 2019 Feb

REPOSITORIES: biostudies-literature

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Complex Compound Inheritance of Lethal Lung Developmental Disorders Due to Disruption of the TBX-FGF Pathway.

Karolak Justyna A JA   Vincent Marie M   Deutsch Gail G   Gambin Tomasz T   Cogné Benjamin B   Pichon Olivier O   Vetrini Francesco F   Mefford Heather C HC   Dines Jennifer N JN   Golden-Grant Katie K   Dipple Katrina K   Freed Amanda S AS   Leppig Kathleen A KA   Dishop Megan M   Mowat David D   Bennetts Bruce B   Gifford Andrew J AJ   Weber Martin A MA   Lee Anna F AF   Boerkoel Cornelius F CF   Bartell Tina M TM   Ward-Melver Catherine C   Besnard Thomas T   Petit Florence F   Bache Iben I   Tümer Zeynep Z   Denis-Musquer Marie M   Joubert Madeleine M   Martinovic Jelena J   Bénéteau Claire C   Molin Arnaud A   Carles Dominique D   André Gwenaelle G   Bieth Eric E   Chassaing Nicolas N   Devisme Louise L   Chalabreysse Lara L   Pasquier Laurent L   Secq Véronique V   Don Massimiliano M   Orsaria Maria M   Missirian Chantal C   Mortreux Jérémie J   Sanlaville Damien D   Pons Linda L   Küry Sébastien S   Bézieau Stéphane S   Liet Jean-Michel JM   Joram Nicolas N   Bihouée Tiphaine T   Scott Daryl A DA   Brown Chester W CW   Scaglia Fernando F   Tsai Anne Chun-Hui AC   Grange Dorothy K DK   Phillips John A JA   Pfotenhauer Jean P JP   Jhangiani Shalini N SN   Gonzaga-Jauregui Claudia G CG   Chung Wendy K WK   Schauer Galen M GM   Lipson Mark H MH   Mercer Catherine L CL   van Haeringen Arie A   Liu Qian Q   Popek Edwina E   Coban Akdemir Zeynep H ZH   Lupski James R JR   Szafranski Przemyslaw P   Isidor Bertrand B   Le Caignec Cedric C   Stankiewicz Paweł P  

American journal of human genetics 20190110 2


Primary defects in lung branching morphogenesis, resulting in neonatal lethal pulmonary hypoplasias, are incompletely understood. To elucidate the pathogenetics of human lung development, we studied a unique collection of samples obtained from deceased individuals with clinically and histopathologically diagnosed interstitial neonatal lung disorders: acinar dysplasia (n = 14), congenital alveolar dysplasia (n = 2), and other lethal lung hypoplasias (n = 10). We identified rare heterozygous copy-  ...[more]

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