一个染色体8p23.1缺失所致先天性心脏病家系的遗传学分析

目的明确1个先天性心脏病家系的遗传学病因,并探讨其可能的致病机制。方法联合应用G显带染色体核型、染色体微阵列分析(chromosomal microarray analysis,CMA)及多重连接探针扩增技术(multiplex ligation-dependent probe amplification,MLPA)3种技术对本研究中患左室心肌致密化不全(left ventricular noncompaction,LVNC)的患者及其胎儿行遗传学检测。结果患者的核型结果为mos45,XY,rob(15;21)(q10;q10)[36]/46,XY[64],其胎儿的核型未见异常;患者及其胎儿的CMA检测结果均为arr[hg19]8p23.1(11232919-11935465)×1。MLPA检出患者及其胎儿GATA4基因的7个外显子全部缺失。结论染色体8p23.1缺失是导致患者发生LVNC以及其胎儿发生室间隔缺损的原因,GATA4基因为关键致病基因。     

Coffin-Lowry syndrome and left ventricular noncompaction cardiomyopathy with a restrictive pattern

Coffin-Lowry syndrome (CLS) is an X-linked dominant condition characterized by moderate to severe mental retardation, characteristic facies, and hand and skeletal malformations. The syndrome is due to mutations in the gene that encodes the ribosomal protein S6 kinase-2, a growth factor-regulating protein kinase located on Xp22.2. Cardiac anomalies are known to be associated with CLS. Left ventricular noncompaction (LVNC) is a clinically heterogeneous disorder characterized by left ventricular (LV) myocardial trabeculations and intertrabecular recesses that communicate with the LV cavity. Patients may present with a variety of clinical phenotypes, ranging from a complete absence of symptoms to a rapid, progressive decline in LV systolic and diastolic function, resulting in congestive heart failure, malignant ventricular tachyarrhythmias, and systemic thromboembolic events. Restrictive cardiomyopathy is an uncommon primary cardiomyopathy characterized by biatrial enlargement, normal or decreased biventricular volume, impaired ventricular filling, and normal or near-normal systolic function. We describe a patient with CLS and LVNC with a restrictive pattern, as documented by echocardiography and cardiac catheterization. To our knowledge, there have been no previous reports of concomitant CLS and LVNC. On the basis of our case, we suggest that patients with CLS be screened not only for congenital structural heart defects but also for LVNC cardiomyopathy.     

Two patients with atypical interstitial deletions of 8p23.1: mapping of phenotypical traits

Chromosomal 8p23 deletion syndrome is recognized as a malformation syndrome with clinical symptoms of facial anomalies, microcephaly, mental retardation, and congenital heart defects. The responsible gene for the heart defects in this syndrome has been identified as GATA4 on 8p23.1. Two patients with interstitial deletions of 8p23.1 were investigated; one patient showed moderate developmental delay and Ebstein anomaly, and the other showed mild delay and typical atrioventricular septum defect. The precise deletion sizes, 17 and 2.9 Mb, were determined by FISH analyses using BAC clones as probes. The latter deletion was the smallest deletion including GATA4 in the previously reported patients, and the critical regions and genes for clinical manifestation of 8p23 deletion syndrome, including facial anomalies, microcephaly, behavioral abnormality, and developmental delay, were discussed.     

Left ventricular noncompaction: a pathological study of 14 cases

Left ventricular noncompaction (LVNC) has been recently proposed as a specific form of cardiomyopathy. There have been few pathological series describing gross and microscopic findings of this entity, especially in children. We present findings of 14 hearts (13 autopsy and 1 explant) with LVNC (isolated and associated with congenital heart disease), defined by poorly developed left ventricular (LV) papillary muscles and a noncompact inner LV myocardial layer comprising more than 50% of the LV thickness. The mean age at death/explant was 3.6 years (median, 2.5 months); there were 6 boys and 8 girls. The symptoms were sudden unexpected death (10) and heart failure (4). The diagnosis was suspected before death in only 1 of 13 autopsy cases. Right ventricular involvement (> 75% ventricular thickness comprised of noncompacted area with recess adjacent to tricuspid valve) was seen in 6 of 14 hearts. One patient had a sibling with pulmonary stenosis, but there was no other known familial cardiomyopathy. Endocardial fibroelastosis was a characteristic histological feature, as well as anastomosing or polypoid endocardial trabeculations, which resulted in staghorn-shaped, endocardial-lined recesses. There was a high rate of other cardiac anomalies, which often coexisted and were not clearly related to the LVNC, present in 8 cases (nonisolated LVNC): ventricular septal defect (4/14), anomalous venous pulmonary veins (1/14), coronary ostial stenosis (1/14), histiocytoid cardiomyopathy (1/14), polyvalvar dysplasia (2/14), and pulmonary stenosis (2/14). In the 6 isolated LVNC, there were 2 malformed atrioventricular valves (1 mitral and 1 tricuspid), which appeared part of the ventricular maldevelopment. There were no differences in histological or gross patterns of the noncompacted regions between the isolated and nonisolated LVNC. LVNC is frequently associated with other cardiac defects, especially when causing sudden death in infants and children. A clear-cut morphological distinction between "isolated" and "secondary" LVNC was not apparent. The pathologist should be aware of the entity because the diagnosis is often first established at autopsy.     

5.78 Mb terminal deletion of chromosome 15q in a girl, evaluation of NR2F2 as candidate gene for congenital heart defects

All patients with terminal deletion of chromosome 15q have been reported to show intrauterine growth retardation, postnatal growth retardation, abnormal facial appearance and developmental delay. Haploinsufficiency of IGF1R was considered to be responsible for these symptoms. However, it is difficult to explain other symptoms seen in some of the patients, such as congenital heart defects by the absence of IGF1R alone. Here, we reported a patient with congenital heart defects and a 5.78 Mb terminal deletion of chromosome 15q detected by array-CGH. Among the patients reported to share congenital heart defects and terminal deletion of chromosome 15q, our patient had the smallest deletion. Evaluating the deletion map, NR2F2 was considered a candidate gene contributing to congenital heart defects in patients with terminal deletion of chromosome 15q.     

Distal 8p deletion (8)(p23.1): An easily missed chromosomal abnormality that may be associated with congenital heart defect and mental retardation

We describe the clinical manifestations and molecular cytogenetic analyses of three patients with a similar distal deletion of chromosome 8. Each child had mild developmental delay and subtle minor anomalies. Two had cardiac anomalies but no other major congenital anomalies were present. High resolution G and R banding showed in all three patients del(8)(p23.1), but the breakpoint in case 1 was distal to 8p23.1, in case 2 was in the middle of 8p23.1, and in case 3 proximal to 8p23.1. Fluorescence in situ hybridization (FISH) studies with a chromosome 8 paint probe confirmed that no other rearrangement had occurred. FISH with a chromosome 8-specific telomere probe indicated that two patients had terminal deletions. Chromosome analysis of the parents of case 1 and mother of case 2 were normal; the remaining parents were not available for study. Thirteen individual patients including the three in this study, and three relatives in one family with del(8)(p23.1), have been reported in the past 5 years. Major congenital anomalies, especially congenital heart defects, are most often associated with a breakpoint proximal to 8p23.1. Three patients were found within a 3-year period in this study and five cases were found within 4 years by another group, indicating that distal 8p deletion might be a relatively common chromosomal abnormality. This small deletion is easily overlooked (i.e., cases 1 and 2 were reported as normal at amniocentesis) and can be associated with few or no major congenital anomalies. © 1996 Wiley-Liss, Inc.     

Genotype-phenotype correlations in a new case of 8p23.1 deletion and review of the literature

We describe a 6-year-old boy carrying a de novo 5 Mb interstitial deletion of chromosome 8p23.1 identified by means of oligonucleotide array comparative genomic hybridisation (array CGH), who showed the typical signs of 8p23.1 deletion syndrome, including congenital heart defects, microcephaly, psychomotor delay and behavioural problems. In order to estimate the role of suggested candidate genes, we compared the deletion of our patient with other previously reported and molecularly characterised deletions that have been re-evaluated on the basis of the current genetic map data. The inclusion of TNKS gene in the deletion interval without any phenotypical signs of Cornelia de Lange syndrome (CdLS) invalidates TNKS as a plausible candidate gene for the syndrome itself.     

Submicroscopic 8pter deletion, mild mental retardation, and behavioral problems caused by a familial t(8;20)(p23;p13)

Microscopically visible distal 8p deletions have been associated with growth and mental impairment, minor facial anomalies, congenital heart defects, and behavioral problems. We report two cousins with mild retardation and behavioral problems, including inappropriate sexual behavior and pyromania. Familial learning difficulties on the grandfather's side incompatible with Mendelian inheritance prompted telomere screening, which detected a submicroscopic terminal 8p deletion of < 5.1 Mb. The cousins' mothers both carried a t(8;20)(p23;p13) balanced translocation. The frequently observed microcephaly in patients with microscopically visible deletions of 8pter is lacking in both cousins, suggesting that the gene(s) causing the microcephaly is centromeric to the deleted region. The absence of cardiac defects in the cousins confirms the more proximal location of gene(s) causing these abnormalities in other reported cases with microscopically visible 8pter deletions and supports involvement of the GATA4 gene. Moreover, the current cases predict the presence of a putative gene(s) involved in behavior in the most telomeric 5.1 Mb of the p-arm of chromosome 8. This first clinical report of a submicroscopic subtelomeric 8p deletion gives more insight into the so-called 8p- syndrome and demonstrates the difficulty in making a clinical diagnosis for a submicroscopic 8pter deletion in an individual patient with mental retardation.     

Left-ventricular non-compaction in a patient with monosomy 1p36

We report on a new-born girl with left ventricular non-compaction (LVNC), dysmorphism and epilepsy. Array-CGH at 1 Mb resolution revealed a deletion of the terminal 4.6 to 5.9 Mb of the short arm of chromosome 1. Cardiac abnormalities such as dilated cardiomyopathy and structural cardiac defects are common findings in patients with monosomy 1p36. This is however the first report describing LVNC in association with the 1p36 deletion syndrome, broadening the spectrum of cardiac anomalies found in association with this syndrome.     

Case report: Left ventricular noncompaction cardiomyopathy and RASopathies

The following is a case report of 6 patients with Noonan syndrome (NS) and/or a related RASsopathy that also have evidence of left ventricular noncompaction cardiomyopathy (LVNC). Noonan syndrome,a type of RASopathy, is an autosomal dominant disorder that is typically associated with congenital heart defects and hypertrophic cardiomyopathy. There have been minimal reports of Noonan syndrome or other RASopathy and the association of LVNC. This report promulgates 6 nonrelated cases of Noonan syndrome or unspecified RASopathy and LVNC.     

2q34-qter duplication and 4q34.2-qter deletion in a patient with developmental delay

The 2q3 duplication and 4q3 deletion syndromes are two conditions with variable phenotypes including Pierre-Robin sequence (PRS), limb anomalies, congenital heart defects (CHD), developmental delays and intellectual disabilities. We describe a patient born to a mother with a balanced t(2; 4) translocation who combines both a 2q34-qter duplication and a 4q34.2-qter deletion through inheritance of the derivative chromosome 4 (der(4)). He showed developmental delay, growth retardation, hearing problems, minor facial and non-facial anomalies, such as bilateral fifth finger shortness and clinodactyly, but no PRS or CHD. The comparison of his features with those of 46 and 65 published cases of 2q3 duplication and 4q3 deletion, respectively, allows us to further restrict the size of the proposed critical intervals for PRS and CHD on chromosome 4.     

Homozygous PKP2 deletion associated with neonatal left ventricle noncompaction

Left ventricular noncompaction cardiomyopathy (LVNC) is a clinically heterogeneous disorder characterized by a trabecular meshwork and deep intertrabecular myocardial recesses that communicate with the left ventricular cavity. Several genetic causes of LVNC have been reported, with variable modes of inheritance, including autosomal dominant and X‐linked inheritance, but relatively few responsible genes have been identified. A NGS workflow, based on a panel of 95 genes developed for sequencing most prevalent sudden cardiac death‐causing genes, was used to make a rapid and costless molecular diagnosis in two siblings with a severe noncompaction cardiomyopathy starting prenatally and leading to rapid cardiac failure. For the first time, a total homozygous PKP2 deletion was identified. This molecular defect was further confirmed by MLPA and array‐comparative genomic hybridization (CGH). Heterozygous PKP2 mutations are usually reported in a significant proportion of Arrhythmogenic Right Ventricular Cardiomyopathy cases. Our results show, for the first time, the involvement of PKP2 in severe cardiomyopathy with ventricular non compaction.     

Multiplex Ligation-Dependent Probe Amplification Analysis of GATA4 Gene Copy Number Variations in Patients with Isolated Congenital Heart Disease

GATA4 mutations are found in patients with different isolated congenital heart defects (CHDs), mostly cardiac septal defects and tetralogy of Fallot. In addition, GATA4 is supposed to be the responsible gene for the CHDs in the chromosomal 8p23 deletion syndrome, which is recognized as a malformation syndrome with clinical symptoms of facial anomalies, microcephaly, mental retardation, and congenital heart defects. Thus far, no study has been carried out to investigate the role of GATA4 copy number variations (CNVs) in non-syndromic CHDs. To explore the possible occurrence of GATA4 gene CNVs in isolated CHDs, we analyzed by multiplex ligation-dependent probe amplification (MLPA) a cohort of 161 non-syndromic patients with cardiac anomalies previously associated with GATA4 gene mutations. The patients were mutation-negative for GATA4, NKX2.5, and FOG2 genes after screening with denaturing high performance liquid chromatography. MLPA analysis revealed that normalized MLPA signals were all found within the normal range values for all exons in all patients, excluding a major contribution of GATA4 gene CNVs in CHD pathogenesis.     

Clinical and molecular cytogenetic studies in ring chromosome 5: report of a child with congenital abnormalities

We report here a child with a ring chromosome 5 (r(5)) associated with facial dysmorphology and multiple congenital abnormalities. Fluorescent in situ hybridization (FISH) using bacterial artificial chromosome (BAC) clones was performed to determine the breakpoints involved in the r(5). The 5p deletion extended from 5p13.2-3 to 5pter and measured 34.61 Mb (range: 33.7-35.52 Mb) while the 5q deletion extended from 5q35.3 to 5qter and measured 2.44 Mb (range: 2.31-2.57 Mb). The patient presented signs such as microcephaly, hypertelorism, micrognathia and epicanthal folds, partially recalling those of a deletion of the short arm of chromosome 5 and the "cri-du-chat" syndrome. The most striking phenotypic features were the congenital heart abnormalities which have been frequently reported in deletions of the distal part of the long arm of chromosome 5 and in rings leading to a 5q35-5qter deletion. However, the NKX2-5 gene, which has been related to congenital heart defects, was not deleted in our patient, nor presumably to some other patients with 5q35.3-5qter deletion. We propose that VEGFR3, deleted in our patient, could be a candidate gene for the congenital heart abnormalities observed.     

Xp22.3 microdeletion syndrome with microphthalmia, sclerocornea, linear skin defects, and congenital heart defects.

We report on an infant girl with congenital erythematous, linear skin lesions on face and neck, bilateral microphthalmia, sclerocornea, cataracts, and a complex cardiac anomaly including atrial septal and ventricular septal defects. This patient had an Xp22.3 microdeletion and a chromosome satellite on the abnormal X p-arm. The abnormal X chromosome was late replicating in peripheral blood lymphocytes and cultured skin fibroblasts. Four other patients with similar congenital anomalies and Xp deficiency have been reported previously and are compared with this patient. One patient had an interstitial or terminal deletion, but in others the material translocated to Xp22.3 was variable (Yq material in two patients, and Yp material and an unidentifiable satellite in one patient each). Several mechanisms are suggested by which this chromosome abnormality might produce this phenotype in these patients. Our patient is the first with this syndrome to have a congenital heart defect.