Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0018799 (heart disease)
34,133 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The left ventricle (LV) plays a central role in the maintenance of health of children and adults due to its role as the major pump of the heart. In cases of LV dysfunction, a significant percentage of affected individuals develop signs and symptoms of congestive heart failure, leading to the need for therapeutic intervention. Therapy for these patients include anticongestive medications and, in some, placement of devices such as aortic balloon pump or left ventricular assist device, or cardiac transplantation. In the majority of patients the origin is unknown, leading to the term idiopathic dilated cardiomyopathy. During the past decade, the basis of LV dysfunction has begun to unravel. In approximately 30% to 40% of cases, the disorder is inherited; autosomal dominant inheritance is most common (although X-linked, autosomal recessive and mitochondrial inheritance occurs). In the remaining patients, the disorder is presumed to be acquired, with inflammatory heart disease playing an important role. In the case of familial dilated cardiomyopathy, the genetic basis is beginning to unfold. To date, 2 genes for X-linked familial dilated cardiomyopathy (dystrophin, G4.5) have been identified and 4 genes for the autosomal dominant form (actin, desmin, lamin A/C, delta-sarcoglycan) have been described. In 1 form of inflammatory heart disease, coxsackievirus myocarditis, inflammatory mediators, and dystrophin cleavage play a role in the development of LV dysfunction. This review describes the molecular genetics of LV dysfunction and provide evidence for a "final common pathway" responsible for the phenotype.
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PMID:Arrhythmogenic inherited heart muscle diseases in children. 1178 50

The left ventricle (LV) plays a central role in the maintenance of health of children and adults due to its role as the major pump of the heart. In cases of LV dysfunction, a significant percentage of affected individuals develop signs and symptoms of congestive heart failure (CHF), leading to the need for therapeutic intervention. Therapy for these patients include anticongestive medications and, in some, placement of devices such as aortic balloon pump or left ventricular assist device (LVAD), or cardiac transplantation. In the majority of patients the etiology is unknown, leading to the term idiopathic dilated cardiomyopathy (IDC). During the past decade, the basis of LV dysfunction has begun to unravel. In approximately 30-40% of cases, the disorder is inherited; autosomal dominant inheritance is most common (although X-linked, autosomal recessive and mitochondrial inheritance occurs). In the remaining patients, the disorder is presumed to be acquired, with inflammatory heart disease playing an important role. In the case of familial dilated cardiomyopathy (FDCM), the genetic basis is beginning to unfold. To date, two genes for X-linked FDCM (dystrophin, G4.5) have been identified and four genes for the autosomal dominant form (actin, desmin, lamin A/C, delta-sarcoglycan) have been described. In one form of inflammatory heart disease, coxsackievirus myocarditis, inflammatory mediators and dystrophin cleavage play a role in the development of LV dysfunction. In this review, we will describe the molecular genetics of LV dysfunction and provide evidence for a "final common pathway" responsible for the phenotype.
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PMID:Molecular genetics of left ventricular dysfunction. 1189 44

Cardiopathy is an expected finding in X-linked Duchenne and Becker muscular dystrophies. This holds true for some other forms such as autosomal recessive limb-girdle dystrophies. However, data on early-onset and usually severe congenital muscular dystrophies are limited. The purpose of this study was to investigate the presence of cardiac involvement in children with merosin-positive congenital muscular dystrophy. A total of 42 patients and 22 healthy subjects were evaluated by M-mode, 2D, and Doppler echocardiography. Cardiac anatomy, left ventricular dimensions, wall thickness and systolic and diastolic functions were investigated in patients and compared with those of healthy control subjects. Mean left ventricular ejection fraction and shortening fraction were significantly lower in the patient group (P<0.05 and P<0.001, respectively) and in three patients ejection fraction was below 55%. Although some impairments in left ventricular inflow indexes which were suggestive of left ventricular diastolic dysfunction were detected in patients with merosin-positive congenital muscular dystrophy they were not statistically significant. Our results suggest that left ventricular systolic abnormalities may occur in children with merosin-positive congenital muscular dystrophy.
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PMID:Assessment of left ventricular systolic and diastolic functions in children with merosin-positive congenital muscular dystrophy. 1255 29

ZIC3 is a C2H2 zinc finger transcription factor that is involved in early patterning of the vertebrate embryo. Human patients with mutations in the X-linked ZIC3 gene have a complex developmental phenotype that includes laterality defects, congenital heart disease, and lumbosacral and anal anomalies, including neural tube defects. Similar phenotypes are found in the bent tail (BN) mouse, a spontaneous mutation that is associated with a submicroscopic deletion of the ZIC3 locus, as well as in a ZIC3 null allele generated through homologous recombination. These findings suggest that ZIC3 plays important roles during development in establishing a proper left-right axis and in midline neural patterning. This review will summarize our current understanding of the role of ZIC3 in patterning of the vertebrate embryo, based on studies in model organisms such as Xenopus and the mouse. In addition, a comparison of ZIC3 with other vertebrate ZIC family members will be provided.
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PMID:The role of ZIC3 in vertebrate development. 1290 May 69

Mutations in the zinc finger transcription factor ZIC3 cause X-linked heterotaxy and have also been identified in patients with isolated congenital heart disease (CHD). To determine the relative contribution of ZIC3 mutations to both heterotaxy and isolated CHD, we screened the coding region of ZIC3 in 194 unrelated patients, including 61 patients with classic heterotaxy, 93 patients with heart defects characteristic of heterotaxy, and 11 patients with situs inversus totalis. Five novel ZIC3 mutations in three classic heterotaxy kindreds and two sporadic CHD cases were identified. None of these alleles was found in 97 ethnically matched control samples. On the basis of these analyses, we conclude that the phenotypic spectrum of ZIC3 mutations should be expanded to include affected females and CHD not typical for heterotaxy. This screening of a cohort of patients with sporadic heterotaxy indicates that ZIC3 mutations account for approximately 1% of affected individuals. Missense and nonsense mutations were found in the highly conserved zinc finger-binding domain and in the N-terminal protein domain. Functional analysis of all currently known ZIC3 point mutations indicates that mutations in the putative zinc finger DNA binding domain and in the N-terminal domain result in loss of reporter gene transactivation. It is surprising that transfection studies demonstrate aberrant cytoplasmic localization resulting from mutations between amino acids 253-323 of the ZIC3 protein, indicating that the pathogenesis of a subset of ZIC3 mutations results at least in part from failure of appropriate nuclear localization. These results further expand the phenotypic and genotypic spectrum of ZIC3 mutations and provide initial mechanistic insight into their functional consequences.
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PMID:Identification and functional analysis of ZIC3 mutations in heterotaxy and related congenital heart defects. 1468 28

The X-linked form of Opitz syndrome (OS) affects midline structures and produces a characteristic, but heterogeneous, phenotype that may include severe mental retardation, hypertelorism, broad nasal bridge, widow's peak, cleft lip/cleft palate, congenital heart disease, laryngotracheal defects, and hypospadias. The MID1 gene was implicated in OS by linkage to Xp22. It encodes a 667 amino acid protein that contains a RING finger motif, two B-box zinc fingers, a coiled-coil, a fibronectin type III (FNIII) domain, and a B30.2 domain. Several mutations in MID1 are associated with severe OS. Here, we describe an intelligent male with a milder phenotype characterized by hypertelorism, broad nasal bridge, widow's peak, mild hypospadias, pectus excavatum, and a surgically corrected tracheo-esophageal fistula. He has an above average intelligence and no cleft lip/palate or heart disease. We identified a novel mutation in MID1 (P441L) which is in exon 8 and functionally associated with the FNIII domain. While OS phenotypes have been attributed to mutations in the C-terminal part of MID1, little is currently known about the structure-function relationships of MID1 mutations, and how they affect phenotype. We find from a literature review that missense mutations within the FNIII domain of MID1 are associated with a milder presentation of OS than missense mutations elsewhere in MID1. All truncating mutations (frameshift, insertions/deletions) lead to severe OS. We used homology analysis of the MID1 FNIII domain to investigate structure-function changes caused by our missense mutation. This and other missense mutations probably cause disruption of protein-protein interactions, either within MID1 or between MID1 and other proteins. We correlate these protein structure-function findings to the absence of CNS or palatal changes and conclude that the FNIII domain of the MID1 protein may be involved in midline differentiation after neural tube and palatal structures are completed.
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PMID:A structure-function study of MID1 mutations associated with a mild Opitz phenotype. 1637 42

Anderson--Fabry's disease is an hereditary disease with an X-linked genetic transmission, caused by the congenital deficiency of the lysosomial enzyme alpha-galactosidase A. It is a rare disease, but the estimated 1 patient every 117.000 male population is increasing and this can be demonstrated by simplifying the dosage techniques for the enzyme. The clinical picture comes from the accumulation of glycosphingolipids in many organs, mainly vessels, heart, nervous tissue, kidney and sight. The histological lesion appears as damage to the lysosomial membrane with subsequent migration of the lipid corpuscles into the cytoplasm and the breakdown of metabolic cellular activities. Prior to the advent of enzyme replacement therapy, which is based on the administration of the recombinant enzyme, the course of the disease was certainly fatal (early death by ictus or ischemic cardiopathy, terminal kidney failure). Despite the positive results achieved, information obtained from the present observation research should be help to verify the validity of the enzyme replacement therapy.
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PMID:[Fabry disease]. 1641 4

Oculo-facio-cardio-dental (OFCD) syndrome is a rare X-linked dominant syndrome characterized by canine teeth with extremely large roots (radiculomegaly), congenital cataract, dysmorphic facial features and congenital heart disease. A case of mother-daughter vertical transmission of OFCD is reported. Dental findings were important in confirming the diagnosis in the mother.
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PMID:Oculo-facio-cardio-dental syndrome in a mother and daughter. 1682 40

Fetal dysrhythmias are usually transient. Abnormal fetal rates and rhythms during labor are "functional." Fetal dysrhythmias may be associated with congenital heart disease and fetal hydrops. Bradycardia is usually related to fetal distress; supraventricular tachycardia, atrial flutter, and atrial fibrillation may be associated with severe congestive heart failure. Ventricular fibrillation is rare in the fetus and infant and is usually associated with myocardial necrosis with perimembranous septal defect; the nonbranching atrioventricular (AV) bundle may have an aberrant position and result in cardiac arrhythmia. Wolff-Parkinson-White syndrome with conduction abnormalities and left ventricular hypertrophy (LVH) is due to an accessory pathway that bypasses the AV sulcus and results in faster conduction. Carnitine deficiency may be primary or secondary and may result in cardiac arrhythmia. Histiocytoid cardiomyopathy is characterized by cardiomegaly, incessant ventricular tachycardia, and frequently sudden death. Arrhythmogenic right ventricular dysplasia (ARVD) results in ventricular tachycardia and left bundle branch block. Noncompaction of the left ventricle predisposes to potentially fatal arrhythmias. Long Q-T syndromes (LQTS) are a heterogeneous group of disorders with many genetic mutations. Brugada syndrome is an autosomal dominant trait with right bundle branch block and ST elevation. Barth syndrome is an X-linked disorder with dilated cardiomyopathy, cyclic neutropenia and skeletal myopathy. Hypertrophic cardiomyopathy in infancy may be related to metabolic diseases, particularly glycogen storage diseases; the familial form predisposes to sudden death. Arrhythmias following cardiac surgery may occur after closure of a ventricular septal defect (VSD) or damage to the conduction system.
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PMID:Pathogenesis of cardiac conduction disorders in children genetic and histopathologic aspects. 1696 59

Emery-Dreifuss muscular dystrophy (EDMD) is an inherited disorder characterized by slowly progressive skeletal muscle weakness in a humero-peroneal distribution, early contractures and prominent cardiomyopathy with conduction block. Mutations in EMD, encoding emerin, and LMNA, encoding A-type lamins, respectively, cause X-linked and autosomal dominant EDMD. Emerin and A-type lamins are proteins of the inner membrane of the nuclear envelope. Whereas the genetic cause of EDMD has been described and the proteins well characterized, little is known on how abnormalities in nuclear envelope proteins cause striated muscle disease. In this study, we analyzed genome-wide expression profiles in hearts from Emd knockout mice, a model of X-linked EDMD, using Affymetrix GeneChips. This analysis showed a molecular signature similar to that we previously described in hearts from Lmna H222P knock-in mice, a model of autosomal dominant EDMD. There was a common activation of the ERK1/2 branch of the mitogen-activated protein kinase (MAPK) pathway in both murine models, as well as activation of downstream targets implicated in the pathogenesis of cardiomyopathy. Activation of MAPK signaling appears to be a cornerstone in the development of heart disease in both X-linked and autosomal dominant EDMD.
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PMID:Activation of MAPK in hearts of EMD null mice: similarities between mouse models of X-linked and autosomal dominant Emery Dreifuss muscular dystrophy. 1756 79


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