Genetically alike Syrian hamsters display both bifoliate and trifoliate aortic valves

Sans‐Coma, V.; Fernández, M.C.; Fernández, Borja; Durán, Ana C.; Anderson, Robert H.; Arqué, Josep M.

doi:10.1111/j.1469-7580.2011.01440.x

Cited by 24 publications

(41 citation statements)

References 60 publications

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“…This suggests that a single underlying genotype may predispose to BAV and account for the whole range of valve morphology, and implies that nongenetic factors are acting during embryonic life, creating "developmental noise," to influence the definitive anatomic configuration of the valve. 87 This finding supports a complex inheritance pattern, as seen in human BAV, and may explain the relatively low recurrence rate of BAV in first-degree relatives, despite its common prevalence within the general population. 87 The findings also provide a potential explanation regarding aortic valve anatomy in monozygotic twins where BAV was present in 1 twin, but tricuspid aortic valve in the other.…”

supporting

confidence: 58%

“…87 This finding supports a complex inheritance pattern, as seen in human BAV, and may explain the relatively low recurrence rate of BAV in first-degree relatives, despite its common prevalence within the general population. 87 The findings also provide a potential explanation regarding aortic valve anatomy in monozygotic twins where BAV was present in 1 twin, but tricuspid aortic valve in the other. 88 Although specific gene mutations can cause BAV in mice and humans, the variability in BAV morphology and its disease manifestations cannot be entirely explained.…”

supporting

confidence: 58%

“…62 This anomalous behavior of the cardiac neural crest is believed to explain the association of the right and left coronary leaflet fusion BAV morphology with coarctation of the aorta and the more pronounced aortic wall degeneration, compared with BAV with fusion of the right and noncoronary leaflets. 62 It is interesting that Sans-Coma et al 87 recently demonstrated that BAV in Syrian hamsters express a quantitative trait, subject to polygenic inheritance, with reduced penetrance and variable expressivity. Furthermore, examination of aortic valve morphology in virtually isogenic Syrian hamsters produced by systematic inbreeding through fullsib mating, with the probability of homozygosity being 0.999 or higher, demonstrated the presence of BAV in up to five sixths of the hamsters studied, whereas the remaining one sixth had a trileaflet aortic valve.…”

mentioning

confidence: 99%

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Genetic Basis of Familial Valvular Heart Disease

Padang

Bagnall

Semsarian

2012

Circ Cardiovasc Genet

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supporting

confidence: 58%

supporting

confidence: 58%

mentioning

confidence: 99%

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Genetic Basis of Familial Valvular Heart Disease

Padang

Bagnall

Semsarian

2012

Circ Cardiovasc Genet

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“…Further research using genetic sequencing in humans has also suggested this because human BAV patients harboring rare GATA5 mutations have a higher incidence of right–left and right–noncoronary BAVs 36. Nevertheless, a study of 1849 inbred Syrian hamsters with a high probability of homozygosity found variable aortic valve morphology and suggested that environmental factors, rather than genetics, account for BAV morphology 37, 38. Gene–environment interactions may also play a role in the development of BAV because mutations in the Notch signaling pathway combined with environmental effectors have been demonstrated to increase the penetrance of disease states 39.…”

Section: Discussionmentioning

confidence: 99%

Endothelial Notch1 Is Required for Proper Development of the Semilunar Valves and Cardiac Outflow Tract

Koenig

Bosse

Majumdar

et al. 2016

JAHA

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BackgroundCongenital heart disease is the most common type of birth defect, affecting ≈2% of the population. Malformations involving the cardiac outflow tract and semilunar valves account for >50% of these cases predominantly because of a bicuspid aortic valve, which has an estimated prevalence of 1% in the population. We previously reported that mutations in NOTCH1 were a cause of bicuspid aortic valve in nonsyndromic autosomal‐dominant human pedigrees. Subsequently, we described a highly penetrant mouse model of aortic valve disease, consisting of a bicuspid aortic valve with thickened cusps and associated stenosis and regurgitation, in Notch1‐haploinsufficient adult mice backcrossed into a Nos3‐null background.Methods and ResultsHere, we described the congenital cardiac abnormalities in Notch1 +/− ;Nos3 −/− embryos that led to ≈65% lethality by postnatal day 10. Although expected Mendelian ratios of Notch1 +/− ;Nos3 −/− embryos were found at embryonic day 18.5, histological examination revealed thickened, malformed semilunar valve leaflets accompanied by additional anomalies of the cardiac outflow tract including ventricular septal defects and overriding aorta. The aortic valve leaflets of Notch1 +/− ;Nos3 −/− embryos at embryonic day 15.5 were significantly thicker than controls, consistent with a defect in remodeling of the semilunar valve cushions. In addition, we generated mice haploinsufficient for Notch1 specifically in endothelial and endothelial‐derived cells in a Nos3‐null background and found that Notch1 fl/+;Tie2‐Cre +/− ;Nos3 −/− mice recapitulate the congenital cardiac phenotype of Notch1 +/− ;Nos3 −/− embryos.ConclusionsOur data demonstrate the role of endothelial Notch1 in the proper development of the semilunar valves and cardiac outflow tract.

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“…It develops spontaneously in an inbred strain of Syrian hamsters but without valve or aortic complications typical of human BAV, and the underlying genetic defect is unknown (32,33). Targeted deletions of fibroblast growth factor, bone morphogenetic protein, and Notch pathway genes in mice produced BAV with incomplete penetrance, as well as various malformations of the LVOT and aorta (Table 2).…”

Section: Features Of Bicuspid Aortic Valve That Influence Gene Discoverymentioning

confidence: 99%

A Roadmap to Investigate the Genetic Basis of Bicuspid Aortic Valve and its Complications

Prakash

Bossé

Muehlschlegel

et al. 2014

Journal of the American College of Cardiology

169

141

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Bicuspid aortic valve (BAV) is the most common adult congenital heart defect and is found in 0.5% to 2.0% of the general population. The term “BAV” refers to a heterogeneous group of disorders characterized by diverse aortic valve malformations with associated aortopathy, congenital heart defects, and genetic syndromes. Even after decades of investigation, the genetic determinants of BAV and its complications remain largely undefined. Just as BAV phenotypes are highly variable, the genetic etiologies of BAV are equally diverse and vary from complex inheritance in families to sporadic cases without any evidence of inheritance. In this paper, the authors discuss current concepts in BAV genetics and propose a roadmap for unraveling unanswered questions about BAV through the integrated analysis of genetic and clinical data.

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Genetically alike Syrian hamsters display both bifoliate and trifoliate aortic valves

Cited by 24 publications

References 60 publications

Genetic Basis of Familial Valvular Heart Disease

Genetic Basis of Familial Valvular Heart Disease

Endothelial Notch1 Is Required for Proper Development of the Semilunar Valves and Cardiac Outflow Tract

A Roadmap to Investigate the Genetic Basis of Bicuspid Aortic Valve and its Complications

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