Klara Weipoltshammer

c-erbB-3: a nuclear protein in mammary epithelial cells

c-erbB receptors are usually located in cell membranes and are activated by extracellular binding of EGF-like growth factors. Unexpectedly, using immunofluorescence we found high levels of c-erbB-3 within the nuclei of MTSV1-7 immortalized nonmalignant human mammary epithelial cells. Nuclear localization was mediated by the COOH terminus of c-erbB-3, and a nuclear localization signal was identified by site-directed mutagenesis and by transfer of the signal to chicken pyruvate kinase. A nuclear export inhibitor caused accumulation of c-erbB-3 in the nuclei of other mammary epithelial cell lines as demonstrated by immunofluorescence and biochemical cell fractionation, suggesting that c-erbB-3 shuttles between nuclear and nonnuclear compartments in these cells. Growth of MTSV1-7 on permeable filters induced epithelial polarity and concentration of c-erbB-3 within the nucleoli. However, the c-erbB-3 ligand heregulin β1 shifted c-erbB-3 from the nucleolus into the nucleoplasm and then into the cytoplasm. The subcellular localization of c-erbB-3 obviously depends on exogenous stimuli and on the stage of epithelial polarity and challenges the specific function of c-erbB-3 as a transmembrane receptor protein arguing for additional, as yet unidentified, roles of c-erbB-3 within the nucle(ol)us of mammary epithelial cells.

Connexin 26 mutations in cases of sensorineural deafness in eastern Austria

Mutations in the connexin 26 (Cx26) gene (GJB2) are associated with autosomal nonsyndromic sensorineural hearing loss. This study describes mutations in the Cx26 gene in cases of familial and sporadic hearing loss (HL) by gene sequencing and identifies the allelic frequency of the most common mutation leading to HL (35delG) in the population of eastern Austria. For this purpose we have developed and applied a molecular beacon based real-time mutation detection assay. Mutation frequencies in the Cx26 gene of individuals from affected families (14 out of 46) and sporadic cases (11 out of 40) were 30.4% and 27.5%, respectively. In addition to known disease related alterations, a novel mutation 262 G→T (A88S) was also identified. 35delG accounted for almost 77% of all Cx26 mutations detected and displayed an allelic frequency in the normal hearing population of 1.7% (2 out of 120). The high prevalence of the 35delG mutation in eastern Austria would therefore allow screening of individuals and family members with Cx26 dependent deafness by a highly specific and semi-automated method.

Signal amplification at the ultrastructural level using biotinylated tyramides and immunogold detection

Abstract The tyramide amplification technique has recently been developed for signal enhancement in enzyme-linked immunosorbent assays and western blots. This method relies on using labelled tyramides as substrates for peroxidase, resulting in an immobilization of the labelled tyramide residues (tyramide reaction). We succeeded in establishing reliable protocols for the use of the tyramide reaction at the electron microscopic (EM) level. As model systems we chose the visualization of DNA in late spermatocytes, of actin in skeletal muscle, and the visualization of an rDNA probe after DNA-DNA in situ hybridization. We observed a significant increase in signal density after performing the tyramide reaction at the EM level. The tyramide amplification technique at the ultrastructural level therefore appears to be a useful tool to detect even a few epitopes present at the surface of a section as shown after in situ hybridization. It offers advantages over other amplification systems, such as the peroxidase-mediated deposition of diaminobenzidine, because of an increased spatial resolution, whereas specificity and sensitivity are comparable to the conventional immunogold detection method.

GJB2 Mutations in Hearing Impairment: Identification of a Broad Clinical Spectrum for Improved Genetic Counseling†

Objectives/Hypothesis: Hearing impairment has a high prevalence affecting approximately 1 in 1000 newborn children. Alterations in the gap junction protein beta 2 (GJB2) and gap junction protein beta 6 (GJB6) are associated with nonsyndromic hearing impairment and should have a significant impact on genetic counseling.

Redistribution of ribosomal DNA after blocking of transcription induced by actinomycin D

We report on the effect of different doses and times of incubation of the cytostatic drug actinomycin D (AMD) on nucleolar morphology, rRNA gene transcription and rDNA gene localization usingin situ hybridization and the immunocytochemical detection of the human upstream binding factor (UBF) at the electron microscopic level in HeLa cells. Low doses of AMD (0.001 μg/ml, 30 min) selectively block rRNA gene transcription but alter neither nucleolar morphology nor the localization of rDNA with respect to the nucleolar components. Treatment with high doses of AMD (0.05 μg/ml, 1 h) resulted in a retraction of the rDNA out of the nucleolus in addition to the well-known blocking or rDNA transcription, total nuclear transcription and nucleolar segregation. Under these conditions accumulations of rDNA were found in patches of chromatin at the nucleolar periphery. We conclude that the blocking of rRNA gene transcription and the changes in nucleolar morphology, both induced by AMD at different doses, are independent phenomena.

Immunohistochemical expression analysis of Cx43, Cx26, c-KIT and PlAP in contralateral testis biopsies of patients with non-seminomatous testicular germ cell tumor

Non seminomatous testicular germ cell tumors (NSTGCTs) express fetal stem cell markers and display dysregulation of connexin 43 expression. Persistence of fetal spermatogonial characteristics was implicated in the emergence of testicular germ cell tumors. The objective of this study was to analyze the tubular architecture in contralateral testes of patients with NSTGCT. We studied morphologic alterations, expression patterns of markers for the integrity of the germinal epithelium (gap junction proteins connexin 43 and 26), as well as of the embryonic markers c-KIT and placental alkaline phosphatase (PlAP), both established markers to detect carcinoma in situ (CIS). In all samples, tubules showing maturation of germ cells up to spermatozoa were observed. In addition, tubules with alterations in tubular architecture and with impaired spermatogenesis occurred. In tubules showing aberrant spermatogenesis, connexin 43 (Cx43) signal was down-regulated and a shift of signal from gap junctions to the cytoplasm occurred. Concomitantly, Cx26 was found highly up-regulated in tubules with incomplete and aberrant germ cell maturation. All testes exhibited single spermatogonia with positive reaction for c-KIT and a significant positive correlation was found between the mean number of c-KIT positive spermatogonia per tubule and the percentage of tubules presenting severely impaired spermatogenesis. Our data show alterations of the normal architecture of the germinal epithelium and disturbances of spermatogenesis in the contralateral testes of patients with NSTGCT in all cases evaluated. The concomitant occurrence of c-KIT positive spermatogonia and defects in tubular architecture is in line with the hypothesis that patients with NSTGCT suffer from disturbed germ cell development.

High incidence of GJB2 mutations during screening of newborns for hearing loss in Austria.

Objectives: The aim of the present study was to evaluate gap junction protein β2 (GJB2) genetic testing within a national neonate screening program for hearing loss (HL) in a European population. Design: Neonatal cases of nonsyndromic HL (N = 21) were identified by postpartal otoacoustic emissions (OAE) and brain stem electric response audiometry (BERA) analysis. GJB2 testing was performed by direct sequencing. Results: Mutations in GJB2 were found in 15 of 21 children (71.4%) identified by neonatal audiological screening. The 35delG mutation in GJB2 was found homozygous in 10 cases (47.6%) and also as a clear cause of HL as the heterozygous alterations 35delG/del311-324 and 35delG/L90P. In a single case, L90P/R143Q was also identified as a cause of HL. In 3 HL cases that were not identifiable during initial OAE testing, homozygous 35delG and 35delG/R184P defined the genetic basis for HL in 2 cases, whereas one case had wild-type GJB2. Conclusions: Our findings of the high mutation rate in the Austrian population, especially in neonates identified during the newborn screening program, confirm the importance of screening for mutations in GJB2.

A Novel Connexin 26 Mutation Associated with Autosomal Recessive Sensorineural Deafness

Mutations in the connexin 26 (Cx26) gene (GJB2) are a common cause of hereditary hearing impairment which affects approximately 1 in 2000 newborn children. We report the identification of a novel Cx26 point mutation (439 G→A) linked to familial, autosomal recessive, sensorineural hearing loss. This missense mutation (E147K) is located in the highly conserved, putative K+ channel lining sequence of the third transmembrane domain (TM3) of Cx26. Hearing impairment associated with this mutation was congenital, moderate to profound and showed no signs of progressive deterioration.

Morphology of nuclear transcription

Gene expression control is a fundamental determinant of cellular life with transcription being the most important step. The spatial nuclear arrangement of the transcription process driven by RNA polymerases II and III is nonrandomly organized in foci, which is believed to add another regulatory layer on gene expression control. RNA polymerase I transcription takes place within a specialized organelle, the nucleolus. Transcription of ribosomal RNA directly responds to metabolic requirements, which in turn is reflected in the architecture of nucleoli. It differs from that of the other polymerases with respect to the gene template organization, transcription rate, and epigenetic expression control, whereas other features are shared like the formation of DNA loops bringing genes and components of the transcription machinery in close proximity. In recent years, significant advances have been made in the understanding of the structural prerequisites of nuclear transcription, of the arrangement in the nuclear volume, and of the dynamics of these entities. Here, we compare ribosomal RNA and mRNA transcription side by side and review the current understanding focusing on structural aspects of transcription foci, of their constituents, and of the dynamical behavior of these components with respect to foci formation, disassembly, and cell cycle.

Arrangement of individual human ribosomal DNA fragments on stretched DNA fibers

Abstract We studied the arrangement of individual human ribosomal (r)DNA repeats by direct visualization of rDNA sequences. We used high resolution fluorescence in situ hybridization on preparations of DNA fibers released from interphase nuclei of HeLa cells. Probes from both the transcription unit and the intergenic spacer were used, and lengths of signals and of the gaps in between were measured and compared to molecular data. We could visualize the repetitive arrangement of individual rDNA sequences at the single gene level. No inversions or deletions were detected. The intergenic spacer was found to be shorter than expected, indicating a length polymorphism.