4.6 Article

Complete lung agenesis caused by complex genomic rearrangements with neo-TAD formation at the SHH locus

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HUMAN GENETICS
卷 140, 期 10, 页码 1459-1469

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SPRINGER
DOI: 10.1007/s00439-021-02344-6

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  1. Deutsche Forschungsgemeinschaft (DFG) [SP1532/3-1, SP1532/4-1, SP1532/5-1, MU 880/16-1, KU 1240/10-1]
  2. Max Planck Foundation
  3. Research Promotion Fund of the Faculty of Medicine (FFM) of the University Medical Center Hamburg-Eppendorf
  4. Charite-Universitatsmedizin Berlin
  5. Berlin Institute of Health

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This study investigated the molecular basis of bilateral isolated lung agenesis in three fetuses, revealing a complex genomic rearrangement involving regulatory elements for lung development. The rearrangement led to the formation of new 3D chromatin structures, potentially causing the observed lung malformations.
During human organogenesis, lung development is a timely and tightly regulated developmental process under the control of a large number of signaling molecules. Understanding how genetic variants can disturb normal lung development causing different lung malformations is a major goal for dissecting molecular mechanisms during embryogenesis. Here, through exome sequencing (ES), array CGH, genome sequencing (GS) and Hi-C, we aimed at elucidating the molecular basis of bilateral isolated lung agenesis in three fetuses born to a non-consanguineous family. We detected a complex genomic rearrangement containing duplicated, triplicated and deleted fragments involving the SHH locus in fetuses presenting complete agenesis of both lungs and near-complete agenesis of the trachea, diagnosed by ultrasound screening and confirmed at autopsy following termination. The rearrangement did not include SHH itself, but several regulatory elements for lung development, such as MACS1, a major SHH lung enhancer, and the neighboring genes MNX1 and NOM1. The rearrangement incorporated parts of two topologically associating domains (TADs) including their boundaries. Hi-C of cells from one of the affected fetuses showed the formation of two novel TADs each containing SHH enhancers and the MNX1 and NOM1 genes. Hi-C together with GS indicate that the new 3D conformation is likely causative for this condition by an inappropriate activation of MNX1 included in the neo-TADs by MACS1 enhancer, further highlighting the importance of the 3D chromatin conformation in human disease.

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