Melanie Bewerunge-Hudler, Beate Niesler, Thomas Thumberger, Isabella Ceccherini, Marta Rusmini, Joseph Tilghman, Phillipp Romero, Leonie Carstensen, Ana Torroglosa, Ralph Röth, Erwin Brosens, Patrick Günther, Norbert Gretz, Christian P. Schaaf, Berta Luzón-Toro, Robert M.W. Hofstra, Volker Eckstein, Carolina De La Torre, Jutta Scheuerer, Stefanie Schmitteckert, Jill A. Rosenfeld, Julia Volz, Felix Lasitschka, Duco Schriemer, Merce Garcia-Barcelo, Cornelia Thöni, Clara S. Tang, Tanja Mederer, Cristina Martínez, Paul K.H. Tam, Gudrun A. Rappold, Stefan Holland-Cunz, Nagarajan Paramasivam, Salud Borrego, Heidelberg Stiftung Chirurgie, Heinz and Heide Dürr Stiftung, Heidelberg University Hospital, Heidelberg Biosciences International Graduate School, German Academic Scholarship Foundation, Instituto de Salud Carlos III, Ministerio de Ciencia, Innovación y Universidades (España), European Commission, and Clinical Genetics
[Abstract] Hirschsprung disease (HSCR, OMIM 142623) involves congenital intestinal obstruction caused by dysfunction of neural crest cells and their progeny during enteric nervous system (ENS) development. HSCR is a multifactorial disorder; pathogenetic variants accounting for disease phenotype are identified only in a minority of cases, and the identification of novel disease-relevant genes remains challenging. In order to identify and to validate a potential disease-causing relevance of novel HSCR candidate genes, we established a complementary study approach, combining whole exome sequencing (WES) with transcriptome analysis of murine embryonic ENS-related tissues, literature and database searches, in silico network analyses, and functional readouts using candidate gene-specific genome-edited cell clones. WES datasets of two patients with HSCR and their non-affected parents were analysed, and four novel HSCR candidate genes could be identified: ATP7A, SREBF1, ABCD1 and PIAS2. Further rare variants in these genes were identified in additional HSCR patients, suggesting disease relevance. Transcriptomics revealed that these genes are expressed in embryonic and fetal gastrointestinal tissues. Knockout of these genes in neuronal cells demonstrated impaired cell differentiation, proliferation and/or survival. Our approach identified and validated candidate HSCR genes and provided further insight into the underlying pathomechanisms of HSCR., [Author summary] Hirschsprung disease (HSCR) is a rare developmental disorder. It leads to the absence of enteric nerve cells (aganglionosis) in the large intestine and is caused by functional defects of neuronal precursor cells during embryonic development of the gut nervous system. The aganglionosis manifests as a variety of symptoms including impaired peristalsis and the formation of a pathogenic dilatation of the intestine (megacolon). The etiology of HSCR is considered to be multifactorial. Variants in more than 20 genes have been reported to be overrepresented in HSCR and replicated in independent cohorts. However, variants in those risk genes account for only 30% of all cases, suggesting that many more genes have to be implicated in the development of HSCR. As the identification and the subsequent validation of novel gene variants to be disease-causing or not, still remains a major challenge, we established and applied a complementary study pipeline. This enabled us to identify four novel candidate genes in two HSCR patients and to validate their potential disease relevance. Our approach represents a suitable way to dissect the complex genetic architecture underlying HSCR., This study was supported by the Heidelberg Stiftung Chirurgie (https://www.stiftung-chirurgie.de) (P. Romero and B. Niesler), the Heinz and Heide Dürr Stiftung (https://www.heinzundheideduerrstiftung.de) (B. Niesler and P. Romero; 2017/2.2.1/04), the Heidelberg University Hospital (https://www.heidelberg-university-hospital.com) (G. Rappold), and the Dres. Majic/Majic Schlez Stiftung (T. Mederer). Tanja Mederer is a PhD fellow of HBIGS (http://www.hbigs.uni-heidelberg.de) and was funded by the Studienstiftung des Deutschen Volkes (https://www.studienstiftung.de). Cristina Martínez is supported by Instituto de Salud Carlos III, Subdirección General de Investigación Sanitaria, Ministerio de Ciencia, Innovación y Universidades (https://www.isciii.es) (CP18/00116). Salud Borrego was supported by Instituto de Salud Carlos III (https://www.isciii.es) through the project "PI16/0142" and "PI19/01550" (Co-funded by European Regional Development Fund/European Social Fund "A way to make Europe"/"Investing in your future").