3′UTR Deletion of NONO Leads to Corpus Callosum Anomaly, Left Ventricular Non-Compaction and Ebstein’s Anomaly in a Male Fetus

Giuffrida, Maria Grazia; Goldoni, Marina; Genovesi, Maria Luce; Carpentieri, Giovanna; Torres, Bárbara; Deac, Anca Daniela; Cecchetti, Serena; Martinelli, Anna; Vaisfeld, Alessandro; Flex, Elisabetta; Bernardini, Laura

doi:10.3390/diagnostics12102354

Cited by 3 publications

(2 citation statements)

References 17 publications

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“…Notably, if minor cardiac developmental aberrations are encompassed, such as patent foramen ovale and aortic bicuspid valve, the prevalence of CHD rises to around 5% of all live births [4][5][6]. As an array of cardiovascular developmental deformations, CHD is clinically categorized into > 30 distinct isoforms, encompassing double-outlet right ventricle (DORV) and ventricular septal defect (VSD) [2,[7][8][9][10][11][12][13][14]. Though certain mild/minor forms of CHD may resolve spontaneously [2], severe/complex forms of CHD usually lead to worse quality of life [15][16][17], reduced exercise performance [18][19][20][21], neurodevelopmental delay and structural brain anomaly [22][23][24][25][26], ischemic/thromboembolic stroke [27,28], acute renal injury/chronic kidney disease [29][30][31][32], hepatic fibrosis [33,34], pulmonary dysplasia/ pulmonary arterial hypertension [35][36][37], bacte-Am J Transl Res 2024;16 (5):2034-2048 rial endocarditis [38][39][40][41][42], chronic heart failure …”

Section: Introductionmentioning

confidence: 99%

Discovery and functional investigation of BMP4 as a new causative gene for human congenital heart disease

Wang

2024

Am J Transl Res

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Objective: Aggregating evidence highlights the strong genetic basis underpinning congenital heart disease (CHD). Here BMP4 was chosen as a prime candidate gene causative of human CHD predominantly because BMP4 was amply expressed in the embryonic hearts and knockout of Bmp4 in mice led to embryonic demise mainly from multiple cardiovascular developmental malformations. The aim of this retrospective investigation was to discover a novel BMP4 mutation underlying human CHD and explore its functional impact. Methods: A sequencing examination of BMP4 was implemented in 212 index patients suffering from CHD and 236 unrelated non-CHD individuals as well as the family members available from the proband carrying a discovered BMP4 mutation. The impacts of the discovered CHD-causing mutation on the expression of NKX2-5 and TBX20 induced by BMP4 were measured by employing a dual-luciferase analysis system. Results: A new heterozygous BMP4 mutation, NM_001202.6:c.318T>G;p. (Tyr106*), was found in a female proband affected with familial CHD. Genetic research of the mutation carrier's relatives unveiled that the truncating mutation was in co-segregation with CHD in the pedigree. The nonsense mutation was absent from 236 unrelated non-CHD control persons. Quantitative biologic measurement revealed that Tyr106*-mutant BMP4 failed to induce the expression of NKX2-5 and TBX20, two genes whose expression is lost in CHD. Conclusion: The current findings indicate BMP4 as a new gene predisposing to human CHD, allowing for improved prenatal genetic counseling along with personalized treatment of CHD patients.

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Section: Introductionmentioning

confidence: 99%

Discovery and functional investigation of BMP4 as a new causative gene for human congenital heart disease

Wang

2024

Am J Transl Res

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“…Besides, when minor cardiovascular developmental deformities are encompassed, such as atrial septal aneurysm, patent foramen ovale, right aortic arch, and aortic bicuspid valve (the most common form of congenital cardiovascular abnormalities, occurring in 1% to 2% of people), the prevalence of CHD is as high as ~5% among live births [3][4][5]. As a vast collection of cardiovascular developmental anomalies, CHD is clinically assorted to >26 diverse isoforms, including patent ductus arteriosus (PDA), aortic/pulmonary atresia, aortic/pulmonary stenosis, aortic coarctation, aortopulmonary window, atrial/ ventricular septal defect, tetralogy of Fallot (the Am J Transl Res 2024;16(1):109-125 commonest cyanotic CHD), atrioventricular septal defect, single ventricle, endocardial cushion defect, transposition of the major arteries, double outlet right ventricle, aortic arch interruption, abnormal coronary artery connection, cor triatriatum, and left heart hypoplasia/left ventricular noncompaction/spongy myocardium [2,[6][7][8][9][10][11]. Though some minor types of CHD do resolve spontaneously [2], severe types of CHD may give rise to degraded health-correlated quality of life [12][13][14][15], impaired exercise capacity [16][17][18], pulmonary arterial hypertension [19][20][21], acute brain injury and delayed neurodevelopment [22][23][24][25], thromboembolic/ischemic cerebral stroke [26][27][28], acute renal injury and chronic kidney disease [29][30][31], liver fibrosis and dysfunction [32], infective endocarditis [33][34][35]…”

Section: Introductionmentioning

confidence: 99%

Discovery of BMP10 as a new gene underpinning congenital heart defects

Dong

2024

Am J Transl Res

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Objective: Aggregating evidence convincingly establishes the predominant genetic basis underlying congenital heart defects (CHD), though the heritable determinants contributing to CHD in the majority of cases remain elusive. In the current investigation, BMP10 was selected as a prime candidate gene for human CHD mainly due to cardiovascular developmental abnormalities in Bmp10-knockout animals. The objective of this retrospective study was to identify a new BMP10 mutation responsible for CHD and characterize the functional effect of the identified CHD-causing BMP10 mutation. Methods: Sequencing assay of BMP10 was fulfilled in a cohort of 276 probands with various CHD and a total of 288 non-CHD volunteers. The available family members from the proband harboring an identified BMP10 mutation were also BMP10-genotyped. The effect of the identified CHD-causative BMP10 mutation on the transactivation of TBX20 and NKX2.5 by BMP10 was quantitatively analyzed in maintained HeLa cells utilizing a dual-luciferase reporter assay system. Results: A novel heterozygous BMP10 mutation, NM_014482.3:c.247G>T;p.(Glu83*), was identified in one proband with patent ductus arteriosus (PDA), which was confirmed to co-segregate with the PDA phenotype in the mutation carrier's family. The nonsense mutation was not observed in 288 non-CHD volunteers. Functional analysis unveiled that Glu83*-mutant BMP10 had no transactivation on its two representative target genes TBX20 and NKX2.5, which were both reported to cause CHD. Conclusion: These findings provide strong evidence indicating that genetically compromised BMP10 predisposes human beings to CHD, which sheds light on the new molecular mechanism that underlies CHD and allows for antenatal genetic counseling and individualized precise management of CHD.

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NONO-related X-linked intellectual disability syndrome: Further clinical and molecular delineation

Planté-Bordeneuve,

Boussion,

Caumes

et al. 2025

European Journal of Medical Genetics

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3′UTR Deletion of NONO Leads to Corpus Callosum Anomaly, Left Ventricular Non-Compaction and Ebstein’s Anomaly in a Male Fetus

Cited by 3 publications

References 17 publications

Discovery and functional investigation of BMP4 as a new causative gene for human congenital heart disease

Discovery and functional investigation of BMP4 as a new causative gene for human congenital heart disease

Discovery of BMP10 as a new gene underpinning congenital heart defects

NONO-related X-linked intellectual disability syndrome: Further clinical and molecular delineation

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