ITGFBR1/I Variants Can Associate with Non-Syndromic Congenital Heart Disease without Aortopathy

Background: Congenital heart diseases (CHD) are the most common congenital malformations in newborns and remain the leading cause of mortality among infants under one year old. Molecular diagnosis is crucial to evaluate the recurrence risk and to address future prenatal diagnosis. Here, we describe...

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Veröffentlicht in:	Journal of cardiovascular development and disease 2023-11, Vol.10 (11)
Hauptverfasser:	Alaamery, Manal, Albesher, Nour, Alhabshan, Fahad, Barnett, Phil, Salim Kabbani, Mohamed, Chaikhouni, Farah, Ilgun, Aho, Mook, Olaf R. F, Alsaif, Hessa, Christoffels, Vincent M, van Tintelen, Peter, Wilde, Arthur A. M, Houweling, Arjan C, Massadeh, Salam, Postma, Alex V
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Sprache:	eng
Schlagworte:	Amino acids Analysis Congenital heart disease Genetic disorders Germany Health aspects Heart diseases Mortality Netherlands Protein kinases Saudi Arabia
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creator	Alaamery, Manal Albesher, Nour Alhabshan, Fahad Barnett, Phil Salim Kabbani, Mohamed Chaikhouni, Farah Ilgun, Aho Mook, Olaf R. F Alsaif, Hessa Christoffels, Vincent M van Tintelen, Peter Wilde, Arthur A. M Houweling, Arjan C Massadeh, Salam Postma, Alex V
description	Background: Congenital heart diseases (CHD) are the most common congenital malformations in newborns and remain the leading cause of mortality among infants under one year old. Molecular diagnosis is crucial to evaluate the recurrence risk and to address future prenatal diagnosis. Here, we describe two families with various forms of inherited non-syndromic CHD and the genetic work-up and resultant findings. Methods: Next-generation sequencing (NGS) was employed in both families to uncover the genetic cause. In addition, we performed functional analysis to investigate the consequences of the identified variants in vitro. Results: NGS identified possible causative variants in both families in the protein kinase domain of the TGFBR1 gene. These variants occurred on the same amino acid, but resulted in differently substituted amino acids (p.R398C/p.R398H). Both variants co-segregate with the disease, are extremely rare or unique, and occur in an evolutionary highly conserved domain of the protein. Furthermore, both variants demonstrated a significantly altered TGFBR1-smad signaling activity. Clinical investigation revealed that none of the carriers had (signs of) aortopathy. Conclusion: In conclusion, we describe two families, with various forms of inherited non-syndromic CHD without aortopathies, associated with unique/rare variants in TGFBR1 that display altered TGF-beta signaling. These findings highlight involvement of TGFBR1 in CHD, and warrant consideration of potential causative TGFBR1 variants also in CHD patients without aortopathies.
doi_str_mv	10.3390/jcdd10110455
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F ; Alsaif, Hessa ; Christoffels, Vincent M ; van Tintelen, Peter ; Wilde, Arthur A. M ; Houweling, Arjan C ; Massadeh, Salam ; Postma, Alex V</creator><creatorcontrib>Alaamery, Manal ; Albesher, Nour ; Alhabshan, Fahad ; Barnett, Phil ; Salim Kabbani, Mohamed ; Chaikhouni, Farah ; Ilgun, Aho ; Mook, Olaf R. F ; Alsaif, Hessa ; Christoffels, Vincent M ; van Tintelen, Peter ; Wilde, Arthur A. M ; Houweling, Arjan C ; Massadeh, Salam ; Postma, Alex V</creatorcontrib><description>Background: Congenital heart diseases (CHD) are the most common congenital malformations in newborns and remain the leading cause of mortality among infants under one year old. Molecular diagnosis is crucial to evaluate the recurrence risk and to address future prenatal diagnosis. Here, we describe two families with various forms of inherited non-syndromic CHD and the genetic work-up and resultant findings. Methods: Next-generation sequencing (NGS) was employed in both families to uncover the genetic cause. In addition, we performed functional analysis to investigate the consequences of the identified variants in vitro. Results: NGS identified possible causative variants in both families in the protein kinase domain of the TGFBR1 gene. These variants occurred on the same amino acid, but resulted in differently substituted amino acids (p.R398C/p.R398H). Both variants co-segregate with the disease, are extremely rare or unique, and occur in an evolutionary highly conserved domain of the protein. Furthermore, both variants demonstrated a significantly altered TGFBR1-smad signaling activity. Clinical investigation revealed that none of the carriers had (signs of) aortopathy. Conclusion: In conclusion, we describe two families, with various forms of inherited non-syndromic CHD without aortopathies, associated with unique/rare variants in TGFBR1 that display altered TGF-beta signaling. 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Methods: Next-generation sequencing (NGS) was employed in both families to uncover the genetic cause. In addition, we performed functional analysis to investigate the consequences of the identified variants in vitro. Results: NGS identified possible causative variants in both families in the protein kinase domain of the TGFBR1 gene. These variants occurred on the same amino acid, but resulted in differently substituted amino acids (p.R398C/p.R398H). Both variants co-segregate with the disease, are extremely rare or unique, and occur in an evolutionary highly conserved domain of the protein. Furthermore, both variants demonstrated a significantly altered TGFBR1-smad signaling activity. Clinical investigation revealed that none of the carriers had (signs of) aortopathy. Conclusion: In conclusion, we describe two families, with various forms of inherited non-syndromic CHD without aortopathies, associated with unique/rare variants in TGFBR1 that display altered TGF-beta signaling. These findings highlight involvement of TGFBR1 in CHD, and warrant consideration of potential causative TGFBR1 variants also in CHD patients without aortopathies.</description><subject>Amino acids</subject><subject>Analysis</subject><subject>Congenital heart disease</subject><subject>Genetic disorders</subject><subject>Germany</subject><subject>Health aspects</subject><subject>Heart diseases</subject><subject>Mortality</subject><subject>Netherlands</subject><subject>Protein kinases</subject><subject>Saudi Arabia</subject><issn>2308-3425</issn><issn>2308-3425</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2023</creationdate><recordtype>article</recordtype><sourceid/><recordid>eNptj01LAzEQhoMoWGpv_oCA522Tze4mOa6r_YCioMVrmeajTWkT2USk_76BeuhB5vDODM-8zIvQIyVjxiSZ7JXWlFBKqrq-QYOSEVGwqqxvr_p7NIpxTwiheSK0HKD1YjWbPn_QyQJ_Qe_Ap4g78LiNMSgHyeBfl3b4Lfji8-R1H45O4S74rfEuwQHPDfQJv7hoIF7Y8JNwG_oUviHtTg_ozsIhmtGfDtFq-rrq5sXyfbbo2mWxbbgoGt1YXikpwFjGSyC0AWsY0UzKHAoUsPywIlLajaKMC8oobURdCQK1lhs2RE8X2y0czNp5G1IP6uiiWrecV6ykvBKZGv9D5dImxwreWJf3VwdnAKpkrQ</recordid><startdate>20231101</startdate><enddate>20231101</enddate><creator>Alaamery, Manal</creator><creator>Albesher, Nour</creator><creator>Alhabshan, Fahad</creator><creator>Barnett, Phil</creator><creator>Salim Kabbani, Mohamed</creator><creator>Chaikhouni, Farah</creator><creator>Ilgun, Aho</creator><creator>Mook, Olaf R. 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M</au><au>Houweling, Arjan C</au><au>Massadeh, Salam</au><au>Postma, Alex V</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>ITGFBR1/I Variants Can Associate with Non-Syndromic Congenital Heart Disease without Aortopathy</atitle><jtitle>Journal of cardiovascular development and disease</jtitle><date>2023-11-01</date><risdate>2023</risdate><volume>10</volume><issue>11</issue><issn>2308-3425</issn><eissn>2308-3425</eissn><abstract>Background: Congenital heart diseases (CHD) are the most common congenital malformations in newborns and remain the leading cause of mortality among infants under one year old. Molecular diagnosis is crucial to evaluate the recurrence risk and to address future prenatal diagnosis. Here, we describe two families with various forms of inherited non-syndromic CHD and the genetic work-up and resultant findings. Methods: Next-generation sequencing (NGS) was employed in both families to uncover the genetic cause. In addition, we performed functional analysis to investigate the consequences of the identified variants in vitro. Results: NGS identified possible causative variants in both families in the protein kinase domain of the TGFBR1 gene. These variants occurred on the same amino acid, but resulted in differently substituted amino acids (p.R398C/p.R398H). Both variants co-segregate with the disease, are extremely rare or unique, and occur in an evolutionary highly conserved domain of the protein. Furthermore, both variants demonstrated a significantly altered TGFBR1-smad signaling activity. Clinical investigation revealed that none of the carriers had (signs of) aortopathy. Conclusion: In conclusion, we describe two families, with various forms of inherited non-syndromic CHD without aortopathies, associated with unique/rare variants in TGFBR1 that display altered TGF-beta signaling. These findings highlight involvement of TGFBR1 in CHD, and warrant consideration of potential causative TGFBR1 variants also in CHD patients without aortopathies.</abstract><pub>MDPI AG</pub><doi>10.3390/jcdd10110455</doi></addata></record>
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subjects	Amino acids Analysis Congenital heart disease Genetic disorders Germany Health aspects Heart diseases Mortality Netherlands Protein kinases Saudi Arabia
title	ITGFBR1/I Variants Can Associate with Non-Syndromic Congenital Heart Disease without Aortopathy
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