Matthew‐Wood syndrome: Report of two new cases supporting autosomal recessive inheritance and exclusion of <i>FGF10</i> and <i>FGFR2</i>

Martinovic-Bouriel, Jelena; Bernabé-Dupont, C.; Golzio, Christelle; Grattagliano-Bessières, Bettina; Malan, Valérie; Bonnière, Maryse; Esculpavit, Chantal; Fallet-Bianco, Catherine; Mirlesse, V.; Bidois, J. Le; Aubry, M. C.; Vekemans, Michel; Morichon, Nicole; Etchevers, Heather C.; Attié‐Bitach, Tania; Encha‐Razavi, Férechté; Benachi, Alexandra

doi:10.1002/ajmg.a.31599

Cited by 13 publications

(16 citation statements)

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“…Recent results from our and other groups have demonstrated the expression of both FGF10 and ISL1 in a region probably corresponding to a second heart field in human embryos at appropriate and similar stages of morphogenesis [11], [37]. A non-exhaustive bioinformatics analysis of the FGF10 locus to search for putative highly conserved ISL1 consensus binding sites with the sequence YTAATGR, using rVista 2.0 (http://rvista.dcode.org) [39] and the ECR browser (http://ecrbrowser.dcode.org) [40], identified two candidate regions conserved among therian mammals (Fig.…”

Section: Resultsmentioning

confidence: 82%

“…Based on the murine phenotypes of Fgf10 and Fgfr2-IIIb knockouts and their expression patterns [3], [19], we had previously found very similar expression during normal human embryonic development; however, sequencing of both FGF10 and FGFR2-IIIb in human fetuses exhibiting great vessel defects that resembled those in knockout mice, among other symptoms, did not demonstrate coding mutations [37]. The responsible gene turned out to encode a protein, STRA6, necessary to bring vitamin A into cells, a first step in transcriptional regulation through retinoic acid receptor binding [63], [64].…”

Section: Discussionmentioning

confidence: 99%

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ISL1 Directly Regulates FGF10 Transcription during Human Cardiac Outflow Formation

et al. 2012

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The LIM homeodomain gene Islet-1 (ISL1) encodes a transcription factor that has been associated with the multipotency of human cardiac progenitors, and in mice enables the correct deployment of second heart field (SHF) cells to become the myocardium of atria, right ventricle and outflow tract. Other markers have been identified that characterize subdomains of the SHF, such as the fibroblast growth factor Fgf10 in its anterior region. While functional evidence of its essential contribution has been demonstrated in many vertebrate species, SHF expression of Isl1 has been shown in only some models. We examined the relationship between human ISL1 and FGF10 within the embryonic time window during which the linear heart tube remodels into four chambers. ISL1 transcription demarcated an anatomical region supporting the conserved existence of a SHF in humans, and transcription factors of the GATA family were co-expressed therein. In conjunction, we identified a novel enhancer containing a highly conserved ISL1 consensus binding site within the FGF10 first intron. ChIP and EMSA demonstrated its direct occupation by ISL1. Transcription mediated by ISL1 from this FGF10 intronic element was enhanced by the presence of GATA4 and TBX20 cardiac transcription factors. Finally, transgenic mice confirmed that endogenous factors bound the human FGF10 intronic enhancer to drive reporter expression in the developing cardiac outflow tract. These findings highlight the interest of examining developmental regulatory networks directly in human tissues, when possible, to assess candidate non-coding regions that may be responsible for congenital malformations.

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Section: Resultsmentioning

confidence: 82%

Section: Discussionmentioning

confidence: 99%

ISL1 Directly Regulates FGF10 Transcription during Human Cardiac Outflow Formation

et al. 2012

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“…Encouragingly, work in humans has demonstrated that mutations in the Fgfr2 coding region are associated with duodenal stenosis. 65 Work in mice has demonstrated that mutations in a number of members of the Hedgehog signaling pathway genes ( Gli-1, Gli-2, Gli-3, Ihh , and Foxf1 ) do not result in intestinal atresias but in some cases can cause variations in imperforate anus. 63,66 These results suggest that formation of atresias may require disruptions of other signaling cascades in addition to the Hedgehog pathway.…”

Section: A New Round Of Questionsmentioning

confidence: 99%

Humans, Mice, and Mechanisms of Intestinal Atresias: A Window into Understanding Early Intestinal Development

Nichol

Reeder

Botham

2011

Journal of Gastrointestinal Surgery

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Introduction Intestinal atresias have long been hypothesized to result from either failure of recanalization of the intestinal lumen or in utero vascular accidents. Recent work in animal models is now calling for a reassessment of these widely held paradigms. Purpose In this review, we will examine the data that led to the original hypotheses and then evaluate more recent work challenging these hypotheses. Furthermore, we will discuss how defining the mechanism of atresia formation in animal models may provide insight into early intestinal development and the mechanism of lengthwise intestinal growth. Conclusion Such insight will be critical in developing regenerative therapies for patients with intestinal failure.

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“…These two malformations have been described together with pulmonary agenesis in the Matthew-Wood syndrome [MWS; OMIM 601186; Berkenstadt et al, 1999]. P ulmonary hypoplasia/agenesis, D iaphragmatic hernia/eventration, A nophthalmia/microphthalmia, and C ardiac defects, or PDAC syndrome, overlaps with MWS [for selected recent reports, see Ceylaner et al, 2006; Li et al, 2006; Chitayat et al, 2007; Martinovic-Bouriel et al, 2007]. Recently mutations in the STRA6 gene were identified in a phenotype that overlaps with both MWS and PDAC [Golzio et al, 2007; Pasutto et al, 2007], with clinical features of affected families comprising pulmonary agenesis, diaphragmatic defects, anophthalmia or severe microphthalmia, cardiac defects, pancreatic malformations and intrauterine growth retardation.…”

Section: To the Editormentioning

confidence: 99%

Two novel STRA6 mutations in a patient with anophthalmia and diaphragmatic eventration

West

Bove

Slavotinek

2009

American J of Med Genetics Pt A

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Matthew‐Wood syndrome: Report of two new cases supporting autosomal recessive inheritance and exclusion of FGF10 and FGFR2

Cited by 13 publications

References 30 publications

ISL1 Directly Regulates FGF10 Transcription during Human Cardiac Outflow Formation

ISL1 Directly Regulates FGF10 Transcription during Human Cardiac Outflow Formation

Humans, Mice, and Mechanisms of Intestinal Atresias: A Window into Understanding Early Intestinal Development

Two novel STRA6 mutations in a patient with anophthalmia and diaphragmatic eventration

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