Large proportion of low frequency microsatellite-instability and loss of heterozygosity in pheochromocytoma and endocrine tumors detected with an extended marker panel.

PURPOSE: Pheochromocytoma (PCC) is a usually benign tumor originated in the majority of patients from the adrenal medulla. Regarding sporadic forms of PCC, mechanisms of pathogenesis are largely unknown. Recently, microsatellite-instability (MSI) was discussed as genetic factor contributing to PCC development. Since microsatellite markers used for MSI detection have only been recommended for colorectal carcinoma (CRC), we established an extended marker set for MSI detection in PCC. METHODS: Twenty-two PCC patients were analyzed applying 11 microsatellite markers. Our marker set comprised the reference panel for CRC and six additional markers, which have already been described to detect MSI in tumors other than CRC. Moreover, 23 endocrine tumors with gastrointestinal origin were examined in order to test the applicability of this marker panel. RESULTS: Microsatellite-instability was detected in 41% of PCCs. Twenty-seven percent showed loss of heterozygosity (LOH) events affecting different chromosomal regions. Among the 23 patients with endocrine tumors, only three (one pancreatic endocrine tumor, one duodenal neuro-endocrine tumor, one hepatic metastasis of a primary tumor with unknown origin) demonstrated MSI. CONCLUSIONS: The extended microsatellite panel is qualified to detect MSI in PCC. Nine percent of MSI-positive cases would have not been noticed by the use of the reference panel alone. PCCs are characterized by low frequency MSI pointing to failures in factors involved in DNA replication.

Coincidence of mutations in different connexin genes in Hungarian patients.

Mutations in the GJB2 gene are the most common cause of hereditary prelingual sensorineural hearing impairment in Europe. Several studies indicate that different members of the connexin protein family interact to form gap junctions in the inner ear. Mutations in different connexin genes may accumulate and, consequently lead to hearing impairment. Therefore, we screened 47 Hungarian GJB2- heterozygous (one mutation in coding exon of the GJB2 gene) patients with hearing impairment for DNA changes in two further connexin genes (GJB6 and GJB3) and in the 5' non-coding region of GJB2 including the splice sites. Eleven out of 47 GJB2-heterozygous patients analyzed carried the splice site mutation -3170G>A in the 5'UTR region of GJB2. One out of these 11 patients showed homozygous -3170G>A genotype in combination with p.R127H. Next to the GJB2 mutations we noted 2 cases of deletion in GJB6 [Delta(GJB6-D13S1830)] and 3 (2 new and 1 described) base substitutions in GJB3 [c.357C>T, c.798C>T and c.94C>T (p.R32W)] which are unlikely disease-causing. Our results suggest the importance of routine screening for the rather frequent -3170G>A mutation (in addition to c.35delG) in patients with hearing impairment.

Sudden death after pancreatic head resection: rupture of hepatic artery caused by clostridial infection.

BACKGROUND: Rupture of the hepatic artery caused by clostridial infection has not been reported before. METHODS: Case report and literature review. RESULTS: A 75 year-old man was admitted to the hospital for resection of a cystic tumor of the head of the pancreas. A pylorus-preserving radical pancreaticoduodenectomy was performed. On the fifth postoperative day, he developed fever (38.2 degrees C), and computed tomography scanning revealed free air in the subhepatic area near the pancreaticojejunal anastomosis. On the ninth postoperative day, the patient died suddenly. Autopsy revealed a ruptured hepatic artery secondary to clostridial infection. CONCLUSIONS: Close monitoring and early recourse to invasive diagnostic and therapeutic procedures may be advisable in the presence of suspect findings after pancreatic surgery to prevent this fatal complication.

Analysis of candidate genes for genotypic diagnosis in the long QT syndrome.

Patients with the long QT syndrome (LQTS) suffer from cardiac arrhythmias that can lead to abrupt loss of consciousness and sudden death, already in young individuals. Thus, an early diagnosis of LQTS is essential for patients and their family members. So far, six genes (KCNQ1, HERG, SCN5A, ANK2, KCNE1, KCNE2) have been demonstrated to be involved in the development of LQTS. Since this syndrome is genetically heterogeneous and large-sized families are often not available for linkage analysis, alternative tools are required for a genetic diagnosis. To investigate genes with numerous exons, like KCNQ1, HERG, SCN5A and ANK2, segregation analysis of a Polish Romano-Ward family with eight members was performed as a reliable method faster than linkage analysis or direct sequencing. To test these four LQT loci, an appropriate selection of microsatellite markers covering different chromosomal regions was applied. Furthermore, two small genes KCNE1 and KCNE2 (at the LQT5 and LQT6 loci), and the SGK1 gene (encoding a kinase regulating KCNE1 and SCN5A channels) were sequenced. All six LQT loci and the SGK1 gene were excluded by these analyses, thus a different pathogenic mechanism of LQT syndromes can be presumed.

GJB2 mutations in patients with non-syndromic hearing loss from Northeastern Hungary.

Mutations in the GJB2 gene encoding the gap-junction protein connexin 26 have been identified in many patients with childhood hearing impairment (HI). One single mutation, c.35delG, accounts for the majority of mutations in Caucasian patients with HI. In the present study we screened 500 healthy control individuals and a group of patients with HI from Northeastern Hungary for GJB2 mutations. The patients' group consisted of 102 familial from 28 families and 92 non-familial cases. The most common mutation in the Hungarian population is the c.35delG, followed by the c.71G>A (p.W24X) mutation. 34.3% of the patients in the familial group were homozygous, and 17.6% heterozygous for 35delG. In the non-familial group the respective values were 37% and 18% (allele frequency: 46.2%). In the general population an allele frequency of 2.4% was determined. Several patients were identified with additional, already described or new GJB2 mutations, mostly in heterozygous state. The mutation c.380G>A (p.R127H) was formerly found only in heterozygous state and its disease relation was controversial. We demonstrated the presence of this mutation in a family with three homozygous patients and 4 heterozygous unaffected family members, a clear indication of recessively inherited HI. Furthermore, we provided evidence for the pathogenic role of two new mutations, c.51C>A (p.S17Y) and c.177G>T (p.G59V), detected in the present study. In the latter case the pattern of inheritance might be dominant. Our results confirm the importance of GJB2 mutations in the Hungarian population displaying mutation frequencies that are comparable with those in the Mediterranean area.

A 4-bp insertion in the eya-homologous region (eyaHR) of EYA4 causes hearing impairment in a Hungarian family linked to DFNA10.

BACKGROUND: Hereditary hearing impairment (HHI) is a heterogeneous class of disorders that shows various patterns of inheritance and involves a multitude of different genes. Mutations in the EYA4 gene are responsible for postlingual, progressive, autosomal dominant hearing loss at the DFNA10 locus. EYA4 is orthologous to the Drosophila gene eya ("eyes absent"), a key regulator of eye formation. EYA4 plays an important role in several developmental processes. MATERIAL AND METHODS: Here we report a Hungarian family displaying sensorineural, progressive hearing impairment. The family comprising four generations with 11 affected and 8 unaffected members was subjected to genome-wide linkage analysis and candidate gene sequencing. RESULTS: By linkage analysis, the chromosomal region 6q22.3 was shown to segregate with the disease. Mutation analysis of the EYA4 gene, which maps to 6q22.3, revealed an insertion of 4 bp (1558insTTTG) in all affected family members. This insertion creates a frameshift and results in a stop codon at position 379. Hence, nearly the complete "eya homologous region" (eyaHR), which is essential for the protein function, would be deleted in the mutant EYA4 protein if the transcription were found to be stable. CONCLUSIONS: This family is the third one linked to DFNA10 and revealing a mutation in the EYA4 gene. In all three families, the mutations are localized in different regions of the eyaHR, suggesting that this protein contains several functional subregions with different tissue-specific importance.

Frequencies of GJB2 mutations in German control individuals and patients showing sporadic non-syndromic hearing impairment.

Mutations in the GJB2 gene encoding the gap-junction protein connexin 26 have been identified in many patients with childhood hearing impairment (HI). One single mutation, 35delG (30delG), accounts for up to 70% of all analyzed European patients with autosomal recessive inherited HI and 10% of patients with HI of unknown origin, respectively. We screened 188 control individuals and 342 German patients with non-syndromic sporadic HI for the 35delG, compound heterozygosity and other GJB2 mutations by PCR, restriction enzyme based screening, SSCP and sequencing. In all patients, non-progressive hearing impairment varied from moderate to profound involving all frequencies. This study revealed one novel silent mutation (438C/T), three novel gene variants resulting in amino acid substitutions (K112E, T123S, K223R) and two novel HI-related mutations (I82M, 313del14).