-
[show abstract]
[hide abstract]
ABSTRACT: We have investigated the spatial relationship between sites containing newly synthesized RNA and domains containing proteins involved in transcription, such as RNA polymerase II and the transcription factors TFIIH, Oct1, BRG1, E2F-1 and glucocorticoid receptors, using dual immunofluorescence labelling followed by confocal microscopy on cultured cells. As expected, a high degree of colocalisation between the RNA polymerase II and sites containing newly synthesised RNA was observed. Like the newly synthesised RNA and the RNA polymerase II, we found that all the transcription factors that we studied are distributed more or less homogeneously throughout the nucleoplasm, occupying numerous small domains. In addition to these small domains, TFIIH was found concentrated in coiled bodies and Oct1 in a single large domain of about 1.5 microm in 30% of the cells in an asynchronous HeLa cell culture. Remarkably, we found little or no relationship between the spatial distribution of the glucocorticoid receptor, Oct1 and E2F-1 on the one hand and RNA polymerase II and transcription sites on the other hand. In contrast, a significant but incomplete overlap was observed between the spatial distributions of transcription sites and BRG1 and TFIIH. These results indicate that many of the transcription factor-rich nuclear domains are not actively involved in transcription. They may represent incomplete transcription initiation complexes, inhibitory complexes, or storage sites.
Journal of Cell Science 09/1997; 110 ( Pt 15):1781-91. · 6.11 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: The PML protein is a human growth suppressor concentrated in 10 to 20 nuclear bodies per nucleus (PML bodies). Disruption of the PML gene has been shown to be related to acute promyelocytic leukaemia (APL). To obtain information about the function of PML bodies we have investigated the 3D-distribution of PML bodies in the nucleus of T24 cells and compared it with the spatial distribution of a variety of other nuclear components, using fluorescence dual-labeling immunocytochemistry and confocal microscopy. Results show that PML bodies are not enriched in nascent RNA, the splicing component U2-snRNP, or transcription factors (glucocorticoid receptor, TFIIH, and E2F). These results show that PML bodies are not prominent sites of RNA synthesis or RNA splicing. We found that a large fraction of PML bodies (50 to 80%) is closely associated with DNA replication domains during exclusively middle-late S-phase. Furthermore, in most cells that we analysed we found at least one PML body was tightly associated with a coiled body. In the APL cell line NB4, the PML gene is fused with the RAR alpha gene due to a chromosomal rearrangement. PML bodies have disappeared and the PML antigen, i.e., PML and the PML-RAR fusion protein, is dispersed in a punctated pattern throughout the nucleoplasm. We showed that in NB4 cells the sites that are rich in PML antigen significantly colocalize with sites at which nascent RNA accumulates. This suggests that, in contrast to non-APL cells, in NB4 cells the PML antigen is associated with sites of transcription. The implications of these findings for the function of PML bodies are consistent with the idea that PML bodies are associated with specific genomic loci.
Journal of Cellular Biochemistry 01/1997; 63(3):280-91. · 2.87 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Two main principles of nuclear organization have been outlined on the basis of contributions by many research groups in recent years. The first principle is that interphase chromosomes occupy discrete territories in the nucleus, with no intermingling of the DNA from different chromosomes. Within a chromosome territory the DNA is organized in chromatin fibers at several levels of folding, that meander through the territory. Transcription and replication take place at the surface of these higher order chromatin fibers, probably on locally unfolded DNA templates. The second principle is that different types of nuclear domains are associated with several specific gene loci. This holds for clusters of interchromatin granules, coiled bodies, RNA 3'-cleavage factor-containing nuclear bodies (cleavage bodies) and probably PML-containing nuclear bodies. These domains may play an important role in the spatial arrangement of genes in the interphase nucleus. Despite these new insights, our knowledge of the function of many nuclear compartments and the molecular interactions responsible for the dynamic organization of a compartmentalized nucleus is still in its infancy.
Critical Reviews in Eukaryotic Gene Expression 02/1996; 6(2-3):215-46. · 3.08 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: This overview describes the spatial distribution of several enzymatic machineries and functions in the interphase nucleus. Three general observations can be made. First, many components of the different nuclear machineries are distributed in the nucleus in a characteristic way for each component. They are often found concentrated in specific domains. Second, nuclear machineries for the synthesis and processing of RNA and DNA are associated with an insoluble nuclear structure, called nuclear matrix. Evidently, handling of DNA and RNA is done by immobilized enzyme systems. Finally, the nucleus seems to be divided in two major compartments. One is occupied by compact chromosomes, the other compartment is the space between the chromosomes. In the latter, transcription takes place at the surface of chromosomal domains and it houses the splicing machinery. The relevance of nuclear organization for efficient gene expression is discussed.
International Review of Cytology 02/1995; 162A:151-89. · 6.09 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Eukaryotic chromatin is organized into topologically constrained loops that are attached to the nuclear matrix. The regions of DNA that interact with the matrix are called matrix attachment regions (MARs). We studied the spatial distribution of MAR-binding sites in the nuclear matrix from rat liver cells, following a combined biochemical and ultrastructural approach. We found that MAR-binding sites are distributed equally over the internal fibrogranular network and the peripheral nuclear lamina. Internal and peripheral binding sites have similar binding characteristics: both sets of binding sites show specific and saturable binding of MARs from different organisms. By means of a DNA-binding protein blot assay and in vitro binding studies, we identified lamin B1 as a MAR-binding protein, which provides evidence for a specific interaction of DNA with the nuclear lamina.
Cell 10/1992; 70(6):949-59. · 32.40 Impact Factor
-
Revista de neurologia 30(7):700. · 0.65 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: We show the effectiveness of treatment with continuous intrathecal baclofen infusion in a case of hereditary generalized dystonia refractory to anticholinergics, tetrabenazine, pimozide, L-dopa, benzodiazepines and thalamotomy.
A 26 years old female patient, when she was 11 years old began with torsion dystonia in her left feet, that progressively worsened to involve her entire body. She had painful spasms. She had four brothers, three of them with dystonia and one healthy. Her uncle grandfather had similar symptoms. Complementary explorations to reject secondary origin was negatives. She was treated with high and progressive dosages of anticholinergics, pimozide, tetrabenazine, benzodiazepines, L-dopa and thalamotomy without improvement. Underwent intrathecal baclofen test dosing, we used 25, 50, 100 micrograms/day, the last one with improvement during 10 hours. A pump was inserted with an initial dose of 220 micrograms/day. After pump insertion, baclofen dosage was gradually increased to 450 micrograms/day. She had a great improvement in right part of her body and less in her left body. Painful spasms had disappeared.
We propose continuous baclofen intrathecal infusion pump for patients with severe torsion dystonia that not response to ordinal treatment.
Revista de neurologia 30(2):138-40. · 0.65 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Sotos syndrome is a form of infantile gigantism characterized by excessive body size from the time of birth, particular facies, acromegalic changes and signs of non-progressive cerebral involvement. The etiology is unknown. Diagnosis is based on somatometric data and the particular phenotype traits. Biochemical and endocrine studies are normal. Torticollis is a focal dystonia and therefore more common in adults.
A 20 year old woman with macrosomic features since birth presented with: weight 104 kg, height 182 cm; prognathism, hypertelorism, a broad over hanging forehead with a high hair line; large ears, hands and feet; torticollis towards the right with elevation and anteroversion of the right shoulder which caused symptomatic scoliosis. She was bradypsychic and rather slow in speech. The complementary tests done (cerebral and cervical CT and MR, bone gammography, evoked potentials, EMG-ENG, sural nerve biopsy, biopsy of skin and muscle, EEG and hormone and biochemistry studies) were normal. The torticollis was treated with botulinus toxin and improved considerably, as did the scoliosis.
To date, dystonia has not been described in association with Sotos syndrome. This may be a causal association, or even perhaps hereditary, since the patient's mother had dystonia (in the form of blepharospasm).
Revista de neurologia 28(10):971-2. · 0.65 Impact Factor
