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Your search keyword '"Stefan Holland-Cunz"' showing total 5 results
Start Over Author "Stefan Holland-Cunz" Publisher public library of science (plos)
5 results on '"Stefan Holland-Cunz"'

1. A complementary study approach unravels novel players in the pathoetiology of Hirschsprung disease.

Author

Tanja Mederer, Stefanie Schmitteckert, Julia Volz, Cristina Martínez, Ralph Röth, Thomas Thumberger, Volker Eckstein, Jutta Scheuerer, Cornelia Thöni, Felix Lasitschka, Leonie Carstensen, Patrick Günther, Stefan Holland-Cunz, Robert Hofstra, Erwin Brosens, Jill A Rosenfeld, Christian P Schaaf, Duco Schriemer, Isabella Ceccherini, Marta Rusmini, Joseph Tilghman, Berta Luzón-Toro, Ana Torroglosa, Salud Borrego, Clara Sze-Man Tang, Mercè Garcia-Barceló, Paul Tam, Nagarajan Paramasivam, Melanie Bewerunge-Hudler, Carolina De La Torre, Norbert Gretz, Gudrun A Rappold, Philipp Romero, and Beate Niesler

Subjects
Genetics, QH426-470
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.

Published
2020
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2. Human exome and mouse embryonic expression data implicate ZFHX3, TRPS1, and CHD7 in human esophageal atresia.

Author

Rong Zhang, Jan Gehlen, Amit Kawalia, Maria-Theodora Melissari, Tikam Chand Dakal, Athira M Menon, Julia Höfele, Korbinian Riedhammer, Lea Waffenschmidt, Julia Fabian, Katinka Breuer, Jeshurun Kalanithy, Alina Christine Hilger, Amit Sharma, Alice Hölscher, Thomas M Boemers, Markus Pauly, Andreas Leutner, Jörg Fuchs, Guido Seitz, Barbara M Ludwikowski, Barbara Gomez, Jochen Hubertus, Andreas Heydweiller, Ralf Kurz, Johannes Leonhardt, Ferdinand Kosch, Stefan Holland-Cunz, Oliver Münsterer, Beno Ure, Eberhard Schmiedeke, Jörg Neser, Petra Degenhardt, Stefanie Märzheuser, Katharina Kleine, Mattias Schäfer, Nicole Spychalski, Oliver J Deffaa, Jan-Hendrik Gosemann, Martin Lacher, Stefanie Heilmann-Heimbach, Nadine Zwink, Ekkehart Jenetzky, Michael Ludwig, Phillip Grote, Johannes Schumacher, Holger Thiele, and Heiko Reutter

Subjects
Medicine, Science
Abstract

INTRODUCTION:Esophageal atresia with or without tracheoesophageal fistula (EA/TEF) occurs approximately 1 in 3.500 live births representing the most common malformation of the upper digestive tract. Only half a century ago, EA/TEF was fatal among affected newborns suggesting that the steady birth prevalence might in parts be due to mutational de novo events in genes involved in foregut development. METHODS:To identify mutational de novo events in EA/TEF patients, we surveyed the exome of 30 case-parent trios. Identified and confirmed de novo variants were prioritized using in silico prediction tools. To investigate the embryonic role of genes harboring prioritized de novo variants we performed targeted analysis of mouse transcriptome data of esophageal tissue obtained at the embryonic day (E) E8.5, E12.5, and postnatal. RESULTS:In total we prioritized 14 novel de novo variants in 14 different genes (APOL2, EEF1D, CHD7, FANCB, GGT6, KIAA0556, NFX1, NPR2, PIGC, SLC5A2, TANC2, TRPS1, UBA3, and ZFHX3) and eight rare de novo variants in eight additional genes (CELSR1, CLP1, GPR133, HPS3, MTA3, PLEC, STAB1, and PPIP5K2). Through personal communication during the project, we identified an additional EA/TEF case-parent trio with a rare de novo variant in ZFHX3. In silico prediction analysis of the identified variants and comparative analysis of mouse transcriptome data of esophageal tissue obtained at E8.5, E12.5, and postnatal prioritized CHD7, TRPS1, and ZFHX3 as EA/TEF candidate genes. Re-sequencing of ZFHX3 in additional 192 EA/TEF patients did not identify further putative EA/TEF-associated variants. CONCLUSION:Our study suggests that rare mutational de novo events in genes involved in foregut development contribute to the development of EA/TEF.

Published
2020
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4. Stathmin regulates keratinocyte proliferation and migration during cutaneous regeneration.

Author

Sabrina Schmitt, Kai Safferling, Kathi Westphal, Manuel Hrabowski, Ute Müller, Peter Angel, Lars Wiechert, Volker Ehemann, Benedikt Müller, Stefan Holland-Cunz, Damian Stichel, Nathalie Harder, Karl Rohr, Günter Germann, Franziska Matthäus, Peter Schirmacher, Niels Grabe, and Kai Breuhahn

Subjects
Medicine, Science
Abstract

Cutaneous regeneration utilizes paracrine feedback mechanisms to fine-tune the regulation of epidermal keratinocyte proliferation and migration. However, it is unknown how fibroblast-derived hepatocyte growth factor (HGF) affects these mutually exclusive processes in distinct cell populations. We here show that HGF stimulates the expression and phosphorylation of the microtubule-destabilizing factor stathmin in primary human keratinocytes. Quantitative single cell- and cell population-based analyses revealed that basal stathmin levels are important for the migratory ability of keratinocytes in vitro; however, its expression is moderately induced in the migration tongue of mouse skin or organotypic multi-layered keratinocyte 3D cultures after full-thickness wounding. In contrast, clearly elevated stathmin expression is detectable in hyperproliferative epidermal areas. In vitro, stathmin silencing significantly reduced keratinocyte proliferation. Automated quantitative and time-resolved analyses in organotypic cocultures demonstrated a high correlation between Stathmin/phospho-Stathmin and Ki67 positivity in epidermal regions with proliferative activity. Thus, activation of stathmin may stimulate keratinocyte proliferation, while basal stathmin levels are sufficient for keratinocyte migration during cutaneous regeneration.

Published
2013
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5. Stathmin Regulates Keratinocyte Proliferation and Migration during Cutaneous Regeneration

Author

Damian Stichel, Volker Ehemann, Franziska Matthäus, Ute Müller, Nathalie Harder, Peter Angel, Karl Rohr, Niels Grabe, Günter Germann, Kai Breuhahn, Sabrina Schmitt, Kathi Westphal, Kai Safferling, Peter Schirmacher, Benedikt Müller, Stefan Holland-Cunz, Lars Wiechert, and Manuel Hrabowski

Subjects
Keratinocytes, Population, lcsh:Medicine, Stathmin, macromolecular substances, Paracrine signalling, Cell Movement, medicine, Humans, Keratinocyte migration, lcsh:Science, education, Cells, Cultured, Cell Proliferation, education.field_of_study, Multidisciplinary, biology, Cell growth, lcsh:R, Cell migration, Cell biology, Ki-67 Antigen, medicine.anatomical_structure, biology.protein, lcsh:Q, Hepatocyte growth factor, Keratinocyte, Research Article, medicine.drug
Abstract

Cutaneous regeneration utilizes paracrine feedback mechanisms to fine-tune the regulation of epidermal keratinocyte proliferation and migration. However, it is unknown how fibroblast-derived hepatocyte growth factor (HGF) affects these mutually exclusive processes in distinct cell populations. We here show that HGF stimulates the expression and phosphorylation of the microtubule-destabilizing factor stathmin in primary human keratinocytes. Quantitative single cell- and cell population-based analyses revealed that basal stathmin levels are important for the migratory ability of keratinocytes in vitro; however, its expression is moderately induced in the migration tongue of mouse skin or organotypic multi-layered keratinocyte 3D cultures after full-thickness wounding. In contrast, clearly elevated stathmin expression is detectable in hyperproliferative epidermal areas. In vitro, stathmin silencing significantly reduced keratinocyte proliferation. Automated quantitative and time-resolved analyses in organotypic cocultures demonstrated a high correlation between Stathmin/phospho-Stathmin and Ki67 positivity in epidermal regions with proliferative activity. Thus, activation of stathmin may stimulate keratinocyte proliferation, while basal stathmin levels are sufficient for keratinocyte migration during cutaneous regeneration.

Published
2013

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