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Query: EC:5.99.1.2 (
topoisomerase
)
9,166
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Parathyroid hormone (PTH) alters osteoblast morphology. How these changes in cell shape modify nuclear structure and ultimately gene expression is not known. Chronic exposure to rat PTH (1-34) [10 nM] attenuated the expression of 200, 190, and 160 kD proteins in the nuclear matrix-intermediate filament subfraction of the rat osteosarcoma cells, ROS 17/2.8 [Bidwell et al. (1994b): Endocrinology 134:1738-1744]. Here, we determined that these same PTH-responsive proteins were expressed in rat metaphyseal osteoblasts. We identified the 200 kD protein as a non-muscle myosin. Although the molecular weights, subcellular distribution, and half-lives of the 190 and 160 kD proteins were similar to
topoisomerase
II-alpha and -beta, nuclear matrix enzymes that mediate DNA topology, the 190 and 160 kD proteins did not interact with
topoisomerase
antibodies. Nevertheless, the expression of
topoisomerase
II-alpha, and
NuMA
, a component of the nuclear core filaments, was also regulated by PTH in the osteosarcoma cells. The 190 kD protein was selectively expressed in bone cells as it was not observed in OK opossum kidney cells, H4 hepatoma cells, or NIH3T3 cells. PTH attenuated mRNA expression of the PTH receptor in our cell preparations. These results demonstrate that PTH selectively alters the expression of osteoblast membrane, cytoskeletal, and nucleoskeletal proteins. Topoisomerase II-alpha,
NuMA
, and the 190 and 160 kD proteins may direct the nuclear PTH signalling pathways to the target genes and play a structural role in osteoblast gene expression.
...
PMID:Parathyroid hormone regulates the expression of rat osteoblast and osteosarcoma nuclear matrix proteins. 891 89
The parathyroid hormone (PTH) signaling pathways that effect changes in osteoblast gene expression also alter the organization of the cytoskeletal proteins. PTH regulates the expression of nucleoskeletal proteins, such as
nuclear mitotic apparatus protein
(
NuMA
) and
topoisomerase
II-alpha.
NuMA
is a structural component of the interphase nucleus and organizes the microtubules of the mitotic spindle during mitogenesis. We propose that PTH-induced alterations in osteoblast cytoarchitecture are accompanied by changes in osteoblast nuclear structure that contribute to changes in gene expression. We used immunofluorescence and confocal microscopy to determine the effect of PTH on the expression and nuclear distribution of
NuMA
in the rat osteosarcoma cell line, ROS 17/2.8. Cells were treated with PTH or vehicle, then fixed and stained with
NuMA
antibody. Optical sections of interphase naive cells revealed a diffuse distribution of
NuMA
, interspersed with speckles, in the central nuclear planes but not in nucleoli. During the metaphase and anaphase,
NuMA
localized at the mitotic spindle apparatus. The percentage of
NuMA
-immunopositive ROS 17/2.8 cells decreased with increasing confluence, but serum starvation did not attenuate
NuMA
expression. Cell density-dependent changes in cytoskeletal organization were observed in these cells. PTH treatment induced changes in cytoskeletal organization and increased the percentage of
NuMA
-immunopositive ROS 17/2.8 cells. These data suggest that PTH effects changes in osteoblast nuclear architecture by regulating
NuMA
, and that these alterations may be coupled to cytoskeletal organization.
...
PMID:Parathyroid hormone regulates the expression of the nuclear mitotic apparatus protein in the osteoblast-like cells, ROS 17/2.8. 955 30
The higher order of chromatin organization is thought to be determined by the nuclear matrix, a mainly proteinaceous structure that would act as a nucleoskeleton. The matrix is obtained from isolated nuclei by a series of extraction steps involving the use of high salt and nonspecific nucleases, which remove chromatin and other loosely bound components. It is currently under debate whether these structures, isolated in vitro by unphysiological extraction buffers, correspond to a nucleoskeleton existing in vivo. In most cell types investigated, the nuclear matrix does not spontaneously resist these extractions steps; rather, it must be stabilized before the application of extracting agents. In this study nuclei, isolated from K562 human erythroleukemia cells, were stabilized by incubation with different metal ions (Ca2+, Cu2+, Zn2+, Cd2+), and the matrix was obtained by extraction with 2 M NaCl. By means of ultrastructural analysis of the resulting structures, we determined that, except for Ca2+, all the other metals induced a stabilization of the matrix, which retained the inner fibrogranular network and residual nucleoli. The biochemical composition, analyzed by two-dimensional gel electrophoresis separation, exhibited a distinct matrix polypeptide pattern, characteristic of each type of stabilizing ion employed. We also investigated to what extent metal ions could maintain in the final structures the original distribution of three inner matrix components, i.e.
NuMA
,
topoisomerase
IIalpha, and RNP. Confocal microscopy analysis showed that only NuMa, and, to a lesser extent,
topoisomerase
IIalpha, were unaffected by stabilization with divalent ions. On the contrary, the fluorescent RNP patterns detected in the resulting matrices were always disarranged, irrespective of the stabilization procedure. These results indicate that several metal ions are powerful stabilizing agents of the nuclear matrix prepared from K562 erythroleukemia cells and also strengthen the concept that
NuMA
and
topoisomerase
IIalpha may act as structural components of the nuclear matrix.
...
PMID:Influence of different metal ions on the ultrastructure, biochemical properties, and protein localization of the K562 cell nuclear matrix. 1032 34
Bone cells undergo changes in cell structure during phenotypic development. Parathyroid hormone (PTH) induces a change in osteoblast shape, a determinant of collagen expression. We hypothesize that alterations in bone cell shape reflect and direct gene expression as governed, in part, by nuclear organization. In this study, we determined whether the expression of nuclear matrix proteins that mediate nuclear architecture,
NuMA
,
topoisomerase
II (topo II)-alpha, and -beta, were altered during osteoblast development and response to PTH in vivo.
NuMA
forms an interphase nuclear scaffold in some cells, the absence of which may accommodate alterations in nuclear organization necessary for specific functions. Topo II enzymes are expressed in bone cells; the alpha-isoform is specific to proliferating cells. We used immunohistochemistry and flow cytometry to determine whether
NuMA
is expressed in the primary spongiosa of the rat metaphyseal femur and whether expression of
NuMA
, topo II-alpha, and II-beta changes during osteoblast development or with PTH treatment.
NuMA
and topo II-beta were expressed in marrow cells, osteoblasts, osteocytes, and chondrocytes. These proteins were not detected in osteoclasts in vivo, but were observed in cultured cells. Bone marrow cells expressed topo II-alpha. All three proteins were expressed in cultures of rat osteoblast-like UMR-106 cells. PTH treatment downregulated the number of topo II-alpha-immunopositive cells, correlated with a decrease in S-phase cells, in both bone tissue and cell culture. We conclude that, in vivo, nuclear matrix composition is altered during bone cell development and that anabolic doses of PTH attenuate the proliferative capacity of osteogenic cells, in part, by targeting topo II-alpha expression.
...
PMID:The expression of the nuclear matrix proteins NuMA, topoisomerase II-alpha, and -beta in bone and osseous cell culture: regulation by parathyroid hormone. 1070 94
Cell death in eukaryotes can occur by either apoptosis or necrosis. Apoptosis is characterized by well-defined nuclear changes which are thought to be the consequence of both proteolysis and DNA fragmentation. On the other hand, the nuclear modifications that occur during necrosis are largely less known. Here, we have investigated whether or not nuclear modifications occur during ethanol-induced necrotic cell death of HL-60 cells. By means of immunofluorescence staining, we demonstrate that the patterns given by antibodies directed against some nuclear proteins (lamin B1,
NuMA
,
topoisomerase
IIalpha, SC-35, B23/nucleophosmin) changed in necrotic cells. The changes in the spatial distribution of
NuMA
strongly resembled those described to occur during apoptosis. On the contrary, the fluorescent pattern characteristic for other nuclear proteins (C23/nucleolin, UBF, fibrillarin, RNA polymerase I) did not change during necrosis. By immunoblotting analysis, we observed that some nuclear proteins (SAF-A, SATB1,
NuMA
) were cleaved during necrosis, and in the case of SATB1, the apoptotic signature fragment of 70 kDa was also present to the same extent in necrotic samples. Caspase inhibitors did not prevent proteolytic cleavage of the aforementioned polypeptides during necrosis, while they were effective if apoptosis was induced. In contrast, lamin B1 and
topoisomerase
IIalpha were uncleaved in necrotic cells, whereas they were proteolyzed during apoptosis. Transmission electron microscopy analysis revealed that slight morphological changes were present in the nuclear matrix fraction prepared from necrotic cells. However, these modifications (mainly consisting of a rarefaction of the inner fibrogranular network) were not as striking as those we have previously described in apoptotic HL-60 cells. Taken together, our results indicate that during necrosis marked biochemical and morphological changes do occur at the nuclear level. These alterations are quite distinct from those known to take place during apoptosis. Our results identify additional biochemical and morphological criteria that could be used to discriminate between the two types of cell death. J. Cell. Biochem. Suppl. 36: 19-31, 2001.
...
PMID:Nuclear changes in necrotic HL-60 cells. 1145 67
