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Query: UMLS:C0265264 (
HOS
)
1,119
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Septation defects and patent ductus arteriosus are the most common human cardiovascular malformations (CVMs). Genetic factors play a major part in the origin of these malformations. Recent molecular analyses have shed light on several mendelian forms. In the autosomal dominant
Holt-Oram syndrome
, both atrial and ventricular septal defects are inherited in association with limb deformity as a result of mutations in the gene encoding the TBX5 transcription factor. Mutations in the
NKX2.5
transcription factor gene cause autosomal dominant familial atrial septal defects in association with progressive atrioventricular block as well as complex congenital heart disease. Common atrial syndromes in autosomal dominant Ellis-van Creveld syndrome arise in the context of axial skeletal and limb malformation as a result of mutations in the EVC gene, whose function is unknown. Patent ductus arteriosus occurs in several syndromic forms of congenital heart disease, including
Holt-Oram syndrome
. Recent analyses of autosomal dominant Char syndrome, which includes, with variable penetrance, patent ductus arteriosus as well as craniofacial and hand malformations, have shown that the syndrome is caused by mutations in the TFAP2B transcription factor gene. Ongoing analyses are poised to determine the contribution of these genes as well as others yet to be identified to common, sporadic forms of congenital heart disease.
...
PMID:Molecular determinants of atrial and ventricular septal defects and patent ductus arteriosus. 1137 42
Congenital heart disease is a significant cause of morbidity and mortality in humans, and gene mutations that underlie some of these anomalies are now being described. The
NKX2.5
gene, which encodes a homeobox transcription factor, was initially discovered in mice through its similarity to the tinman gene of the fruitfly Drosophila. Tinman is required for formation of the dorsal pulsatile vessel or 'heart' of the fly. Tinman and
NKX2.5
share structural and functional features, and in mice the gene is required for normal cardiac looping and differentiation of chamber myocardium. Humans with heterozygous mutations in the
NKX2.5
gene generally have a disorder involving progressive atrio-ventricular conduction block and atrial septal defect, although sometimes other abnormalities including tetralogy of Fallot. The TBX5 gene, which encodes another cardiac transcription factor that collaborates with
NKX2.5
, is also an important cardiac disease gene, with heterozygous mutations responsible for
Holt-Oram
(hand/heart) syndrome. These contributions to human pathology underscore the relevance of studying biological phenomena in lower organisms, and examination of other genes acting in this and associated pathways will expand our knowledge of congenital abnormalities and disease predisposition, and improve genetic counseling.
...
PMID:Developmental paradigms in heart disease: insights from tinman. 1217 84
TBX5 is a T-box transcription factor that plays a critical role in organogenesis. Seven missense mutations in TBX5 have been identified in patients with
Holt-Oram syndrome
characterized by congenital heart defects and upper limb abnormalities. However, the functional significance and molecular pathogenic mechanisms of these mutations are not clear. In this study we describe functional defects in DNA binding, transcriptional activity, protein-protein interaction, and cellular localization of mutant TBX5 with these missense mutations (Q49K, I54T, G80R, G169R, R237Q, R237W, and S252I). Mutations G80R, R237Q, and R237W represent a group of mutations that dramatically reduce DNA-binding activity of TBX5, leading to reduced transcription activation by TBX5 and the loss of synergy in transcriptional activation between TBX5 and
NKX2.5
. The second group of mutations includes Q49K, I54T, G169R, and S252I, which have no or moderate effect on DNA-binding activity and the function of transcription activation of TBX5 but cause the complete loss of synergistic transcription activity between TBX5 and
NKX2.5
. All seven missense mutations greatly reduced the interaction of TBX5 with
NKX2.5
in vivo and in vitro. Immunofluorescent staining showed that wild type TBX5 was localized completely into the nucleus, but mutants were localized in both nucleus and cytoplasm. These results demonstrate that all seven missense mutations studied here are functional mutations with a spectrum of defects ranging from decreases in DNA-binding activity and transcriptional activation to the dramatic reduction of interaction between TBX5 and
NKX2.5
, and loss of synergy in transcriptional activation between these two proteins, as well as impairment in the nuclear localization of TBX5. These defects are likely central to the pathogenesis of
Holt-Oram syndrome
.
...
PMID:Functional analysis of TBX5 missense mutations associated with Holt-Oram syndrome. 1249 78
TBX5 is a member of the T-box gene family and encodes a transcription factor that regulates the expression of other gene(s) in the developing heart and limbs. Mutations of TBX5 cause
Holt-Oram syndrome
(
HOS
), an autosomal dominant condition characterized by congenital heart defects and limb anomalies. How TBX5 gene expression is regulated is still largely unknown. In order to identify transcription factors regulating TBX5 expression, we examined the 5'-flanking region of the human TBX5 gene. We determined that up to 300 bp of the 5'-flanking region of the TBX5 gene was necessary for promoter activity in mouse cardiomyocyte ECL2 cells. One GC box, three potential T-box-like binding elements (TBE-A, -B, and -C), and one
NKX2.5
binding site were identified. Site-directed mutagenesis of the potential binding sites revealed that the GC box, TBE-B, TBE-C, and
NKX2.5
are functionally positive for the expression of TBX5. DNA footprint analysis showed that these binding regions are resistant to DNaseI digestion. Electrophoretic mobility shift assays (EMSAs) further demonstrated the protein-DNA interactions at the GC box and the potential TBE-B, TBE-C, and
NKX2.5
sites in a sequence-specific manner. The ability of TBX5 to regulate its own promoter was demonstrated by the ability of ectopically expressed human TBX5 to increase reporter expression. We conclude that the GC box, T-box-like binding elements, and
NKX2.5
binding site play important roles in the regulation of TBX5 expression, and that TBX5 is likely to be autoregulated as part of the mechanism of its transcription.
...
PMID:TBX5, a gene mutated in Holt-Oram syndrome, is regulated through a GC box and T-box binding elements (TBEs). 1509 14
Congenital heart defects (CHDs) are the most common birth defects in humans and over the last 20 years significant progress has been made in the understanding of the molecular and genetic determinants of an increasing number of CHDs. Fundamental to this progress has been the contribution of five fields of research: the epidemiological results of the Baltimore-Washington Infant Study (BWIS); the pathogenetic classification introduced by Clark; the Human Genome Project; genotype-phenotype correlation and familial recurrence studies; and transgenic animals. The recently advanced cytogenetic techniques can now detect subtle rearrangements in chromosomes, which may be overlooked by standard methods and, more recently, molecular instruments such as linkage analysis and positional cloning are being used to identify genes causing Mendelian monogenic syndromes with CHDs, such as
Holt-Oram
, Ellis-van Creveld and Noonan/LEOPARD syndromes. Finally, useful information is yet available with regard to genes causing isolated CHDs in individuals who do not have a genetic syndrome (an example is the mutation of
NKX2.5
and GATA4 genes causing atrial septal defect). The future perspectives for the genetics of CHDs will involve three fields of interest: diagnosis; therapy; and prognosis.
...
PMID:Genetics of congenital heart diseases in syndromic and non-syndromic patients: new advances and clinical implications. 1725 9
The
Holt-Oram syndrome
(
HOS
) is an autosomal dominant condition characterized by upper limb and cardiac malformations. Mutations in the TBX5 gene cause
HOS
and have also been associated with isolated heart and arm defects. Interactions between the TBX5, GATA4 and
NKX2.5
proteins have been reported in humans. We screened the TBX5, GATA4, and
NKX2.5
genes for mutations, by direct sequencing, in 32 unrelated patients presenting classical (8) or atypical
HOS
(1), isolated congenital heart defects (16) or isolated upper-limb malformations (7). Pathogenic mutations in the TBX5 gene were found in four
HOS
patients, including two new mutations (c.374delG; c.678G > T) in typical patients, and the hotspot mutation c.835C > T in two patients, one of them with an atypical
HOS
phenotype involving lower-limb malformations. Two new mutations in the GATA4 gene were found in association with isolated upper-limb malformations, but their clinical significance remains to be established. A previously described possibly pathogenic mutation in the
NKX2.5
gene (c.73C > 7) was detected in a patient with isolated heart malformations and also in his clinically normal father.
...
PMID:Novel mutations in the TBX5 gene in patients with Holt-Oram Syndrome. 2163 75
Tetralogy of Fallot (TOF) (OMIM #187500) is the most frequent conotruncal congenital heart defect (CHD) with a range of intra- and extracardiac phenotypes. TBX5 is a transcription factor with well-defined roles in heart and forelimb development, and mutations in TBX5 are associated with
Holt-Oram syndrome
(
HOS
) (OMIM#142900). Here we report on the screening of 94 TOF patients for mutations in TBX5,
NKX2.5
and GATA4 genes. We identified two heterozygous mutations in TBX5. One mutation was detected in a Moroccan patient with TOF, a large ostium secundum atrial septal defect and complete atrioventricular block, and features of
HOS
including bilateral triphalangeal thumbs and fifth finger clinodactyly. This patient carried a previously described de novo, stop codon mutation (p.R279X) located in exon 8 causing a premature truncated protein. In a second patient from Italy with TOF, ostium secundum atrial septal defect and progressive arrhythmic changes on ECG, we identified a maternally inherited novel mutation in exon 9, which caused a substitution of a serine with a leucine at amino acid position 372 (p.S372L, c.1115C>T). The mother's clinical evaluation demonstrated frequent ventricular extrasystoles and an atrial septal aneurysm. Physical examination and radiographs of the hands showed no apparent skeletal defects in either child or mother. Molecular evaluation of the p.S372L mutation demonstrated a gain-of-function phenotype. We also review the literature on the co-occurrence of TOF and
HOS
, highlighting its relevance. This is the first systematic screening for TBX5 mutations in TOF patients which detected mutations in two of 94 (2.1%) patients.
...
PMID:Identification of TBX5 mutations in a series of 94 patients with Tetralogy of Fallot. 2526 69
