-
[show abstract]
[hide abstract]
ABSTRACT: Myotonic dystrophy type 1 (DM1) is the most common muscle dystrophy in adults. The disease is caused by a triplet expansion in the 3'end of the myotonic dystrophy protein kinase (DMPK) gene. In order to develop a human cell model for investigation of possible effects of antisense and RNAi effector molecules we have used lentiviral mediated myoD-forced myogenesis of DM1 patient fibroblasts.
Transduced fibroblasts show a multinuclear phenotype and express the differentiation marker myogenin. Furthermore, fluorescence in situ hybridization (FISH) analysis revealed a statistical significant increase in the amount of nuclear foci in DM1 patient fibroblasts after myogenesis. Finally, no nuclear foci were found after treatment with oligonucleotides targeting the repeat expansions.
The abundance of nuclear foci in DM1 patient fibroblasts increase following myogenesis, as visualized by FISH analysis. Foci were eradicated after treatment with antisense oligonucleotides. Thus, we propose that the current cell model is suitable for testing of novel treatment modalities.
BMC Research Notes 11/2011; 4:490.
-
[show abstract]
[hide abstract]
ABSTRACT: The Boyden chamber assay has been developed for various cell migration and invasion protocols. One variant of the Boyden chamber assay is the pseudopodium isolation assay, which has been developed to identify RNA and proteins localized in pseudopodia cell protrusions. Astrocytes are the most abundant cell type in the CNS and typically extend long cellular protrusions. Increasing interest emerges concerning for example the growth mechanisms and functions of astrocytes in respect to brain development, re-uptake of neurotransmitters in the synaptic cleft and glial scar formation. Protein and RNA localization mechanisms have been extensively examined in neurons and shown to play pivotal roles for the functional presence of specific protein components in neuronal protrusions. Here we present a simple Boyden chamber based method to isolate astrocyte cell protrusions for biochemical analysis. We have succeeded in isolating protrusion localized RNA and protein from the mouse astrocyte cell line, C8-S, and mouse primary astrocytes. This is exemplified in biochemical analyses showing specific localization of the mRNA for Ras-related protein (Rab13), Plakophilin-4 (Pkp4), Ankyrin Repeat Domain 25 (Ankrd25), and inositol polyphosphate-1-phosphatase (Inpp1) in the protrusions of both C8-S cells and primary astrocytes. Concordant, the Pkp4 protein was also predominantly localized in the protrusions of C8-S and primary astrocytes. The described methodology can be the basis for both genome wide and specific descriptive and functional studies of RNA and protein localization in the protrusions of astrocytes which could contribute considerably to the existing knowledge of astrocyte functions in the CNS.
Glia 08/2011; 59(11):1782-92. · 4.82 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: The three mammalian HP1 proteins, HP1α/CBX5, HP1β/CBX1, and HPγ/CBX3, are involved in chromatin packing and gene regulation. The HP1α protein is down-regulated in invasive compared to non-invasive breast cancer cells and HP1α is a suppressor of cell migration and invasion. In this report, we examined the background for HP1α protein down-regulation in invasive breast cancer cells. We identified a strict correlation between HP1α down-regulation at the protein level and the mRNA level. The HP1α mRNA down-regulation in invasive cancer cells was not caused by mRNA destabilization. Chromatin immunoprecipitation analysis of the HP1α gene showed a decrease in the histone mark for transcriptional activity H3-K36 tri-methylation and RNA polymerase II in invasive breast cancer cells which correlated with a decreased abundance of basal transcription factors at the HP1α promoter. E2F transcription factors regulate HP1α transcription and we identified that E2F5 depletion increased HP1α expression in invasive breast cancer cells. Finally, we have characterized two HP1α mRNA isoforms and both HP1α mRNA isoforms were down-regulated to a similar extend at the transcriptional level in invasive breast cancer cells. Collectively the presented results show that HP1α down-regulation in invasive breast cancer cells is primary a transcriptional effect and demonstrates a novel set of mechanisms involved in HP1α transcriptional regulation. The finding that HP1α is down-regulated primarily at the transcriptional level provides a new insight for the further elucidation of the detailed molecular mechanisms causing the HP1α down-regulation in invasive breast cancer cells.
Molecular Carcinogenesis 03/2011; 50(8):601-13. · 3.16 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: A common method for calculating results from qPCR experiments is the comparative Ct method, also called the 2(-ΔΔCt) method. However, several assumptions are included in the 2(-ΔΔCt) method and standard statistical analyses are not directly applicable. Here, we describe a different method, the X(0) method, for result calculations and statistical analysis from qPCR experiments. The X(0) method differs from the 2(-ΔΔCt) method by introducing a conversion of the exponentially related Ct values into linearly related X(0) values, which represent the amount of starting material in a qPCR experiment. Results calculated by the X(0) method are illustrated for qPCR experiments with technical and biological replicates, including procedures to calculate standard deviations. Incorporation of primer efficiencies in calculations by the X(0) method is also described. Altogether, the X(0) method constitutes a very simple and accurate alternative to the 2(-ΔΔCt) method for result calculations from qPCR data.
Journal of Bioinformatics and Computational Biology 10/2010; 8(5):885-900.
-
[show abstract]
[hide abstract]
ABSTRACT: NSD3/WHSC1L1 histone methyltransferase gene aberrations are observed in leukemia and in breast and lung carcinomas, suggesting that NSD3 is implicated in carcinogenesis. In this study we examined in human breast cancer cells the NSD3L isoform which contains the catalytic histone methyltransferase SET-domain. siRNA directed depletion of NSD3L followed by genome-wide microarray analysis identified NSD3L regulated genes which could be functionally linked to cellular signaling pathways such as cell growth, cell cycle, cell motility, transcription, and apoptosis. Notably up-regulated genes are the cell cycle regulators E2F2 and Arl2. In accordance with a function of NSD3L in cell cycle regulation NSD3L depletion resulted in an increase in the number of cells in the S and G2/M cell cycle phases. Moreover, NSD3L depletion increased the invasiveness of MDA-MB-231 breast cancer cells indicating that NSD3L normally restrain cellular metastatic potential. Together the presented data indicates that NSD3L is a candidate tumor suppressor.
Biochemical and Biophysical Research Communications 07/2010; 398(3):565-70. · 2.48 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: In the yeast Saccharomyces cerevisiae, mutation of some effectors of mRNA nuclear export leads to the rapid accumulation of HSP104 RNA in transcription site-associated foci. We have screened the S. cerevisiae complement of viable gene deletion mutants for their inability to export HSP104 RNA. The 15 strains identified comprise deletions of components of the THO, Thp1p/Sac3p, and nuclear pore complexes. In all three mutant classes, retained RNA overlaps the HSP104 transcription site. Thus, an early block to HSP104 RNA export is general. Incubation of the identified deletion strains, as well as seven additional mutants, under conditions where mRNA export is blocked results in rapid dissipation of nucleolar protein and RNA constituents. Time course experiments show that dissipation of nucleolar antigens succeeds mRNA retention and is reversed when the load of nuclear mRNA ceases. Consistent with a causal role of excess nuclear mRNA, nucleolar morphology in an mRNA export mutant environment remains intact when transcription by RNA polymerase II is inhibited.
RNA 05/2008; 14(4):706-16. · 5.09 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: The nuclear exosome is involved in numerous RNA metabolic processes. Exosome degradation of rRNA, snoRNA, snRNA and tRNA in Saccharomyces cerevisiae is activated by TRAMP complexes, containing either the Trf4p or Trf5p poly(A) polymerase. These enzymes are presumed to facilitate exosome access by appending oligo(A)-tails onto structured substrates. Another role of the nuclear exosome is that of mRNA surveillance. In strains harboring a mutated THO/Sub2p system, involved in messenger ribonucleoprotein particle biogenesis and nuclear export, the exosome-associated 3' --> 5' exonuclease Rrp6p is required for both retention and degradation of nuclear restricted mRNAs. We show here that Trf4p, in the context of TRAMP, is an mRNA surveillance factor. However, unlike Rrp6p, Trf4p only partakes in RNA degradation and not in transcript retention. Surprisingly, a polyadenylation-defective Trf4p protein is fully active, suggesting polyadenylation-independent mRNA degradation. Transcription pulse-chase experiments show that HSP104 molecules undergoing quality control in THO/sub2 mutant strains fall into two distinct populations: One that is quickly degraded after transcription induction and another that escapes rapid decay and accumulates in foci associated with the HSP104 transcription site.
The EMBO Journal 05/2007; 26(9):2317-26. · 9.20 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: In situ detection of RNA by hybridization with complementary probes is a powerful technique. Probe design is a critical parameter in successful target detection. We have evaluated the efficiency of fluorescent DNA oligonucleotides modified to contain locked nucleic acid (LNA) residues. This increases the thermal stability of hybrids formed with RNA. The LNA-based probes detect specific RNAs in fixed yeast cells with an efficiency far better than conventional DNA oligonucleotide probes of the same sequence. Using this probe design, we were also able to detect poly(A)(+) RNA accumulation within the nucleus/ nucleolus of wild-type cells. LNA-based probes should be readily applicable to a diverse array of cells and tissue samples.
RNA 12/2005; 11(11):1745-8. · 5.09 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: In the yeast Saccharomyces cerevisiae, a common conditional phenotype associated with deletion or mutation of genes encoding mRNA export factors is the rapid accumulation of mRNAs in intranuclear foci, suggested to be near transcription sites. The nuclear RNA exosome has been implicated in retaining RNAs in these foci; on deletion of the exosome component Rrp6p, the RNA is released. To determine the exact nuclear location of retained as well as released mRNAs, we have used mRNA export mutant strains to analyze the spatial relationship between newly synthesized heat shock mRNA, the chromosomal site of transcription, and known S. cerevisiae nuclear structures such as the nucleolus and the nucleolar body. Our results show that retained SSA4 RNA localizes to an area in close proximity to the SSA4 locus. On deletion of Rrp6p and release from the genomic locus, heat shock mRNAs produced in the rat7-1 strain colocalize predominantly with nucleolar antigens. Bulk poly(A)(+) RNA, on the other hand, is localized primarily to the nuclear rim. Interestingly, the RNA binding nucleocytoplasmic shuttle protein Npl3p shows strong colocalization with bulk poly(A)(+) RNA, regardless of its nuclear location. Taken together, our data show that retention occurs close to the gene and indicate distinct nuclear fates of different mRNAs.
RNA 10/2003; 9(9):1049-57. · 5.09 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Several aspects of eukaryotic mRNA processing are linked to transcription. In Saccharomyces cerevisiae, overexpression of the mRNA export factor Sub2p suppresses the growth defect of hpr1 null cells, yet the protein Hpr1p and the associated THO protein complex are implicated in transcriptional elongation. Indeed, we find that a pool of heat shock HSP104 transcripts are 3'-end truncated in THO complex mutant as well as sub2 mutant backgrounds. Surprisingly, however, this defect can be suppressed by deletion of the 3'-5' exonuclease Rrp6p. This indicates that incomplete RNAs result from nuclear degradation rather than from a failure to efficiently elongate transcription. RNAs that are not degraded are retained at the transcription site in a Rrp6p-dependent manner. Interestingly, the addition of a RRP6 deletion to sub2 or to THO complex mutants shows a strong synthetic growth phenotype, suggesting that the failure to retain and/or degrade defective mRNAs is deleterious. mRNAs produced in the 3'-end processing mutants rna14-3 and rna15-2, as well as an RNA harboring a 3' end generated by a self-cleaving hammerhead ribozyme, are also retained in Rrp6p-dependent transcription site foci. Taken together, our results show that several classes of defective RNPs are subject to a quality control step that impedes release from transcription site foci and suggest that suboptimal messenger ribonucleoprotein assembly leads to RNA degradation by Rrp6p.
Molecular and Cellular Biology 01/2003; 22(23):8254-66. · 5.53 Impact Factor
