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Query: UMLS:C0344329 (
collapse
)
28,634
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Nuclear
collapse
is a key feature of apoptosis, reflecting the DNA and protein fragmentation observed biochemically. We have compared nuclear events during spontaneous and heat-induced (42 degrees C for 30 min) apoptosis at the level of individual cells, monitoring overall chromatin organization by staining with 4,6'-diamidino-2-phenylindole (DAPI), DNA cleavage by terminal deoxynucleotidyl transferase-mediated dUTP-biotin nick end labelling (TUNEL), and the nuclear antigens
NuMA
, PI2, and lamin B by immunofluorescence microscopy. The data were correlated with analyses at the population level by flow cytometry and immunoblotting. We show that heat treatment doubles the level of apoptotic splenocytes with respect to the spontaneous apoptosis in controls within 6 honThe organization and disassembly of nuclear envelope antigens is identical during spontaneous and heat-induced apoptosis and proceeds in a temporally and spatially ordered manner relative to DNA fragmentation and chromatin
collapse
. In contrast,
NuMA
organization is affected by heat treatment, with about half of the cells containing many bright spots in addition to the usual diffuse labelling. The spots were still visible in many fully collapsed apoptotic nuclei. Further, this novel reorganization of
NuMA
and the hyperinduction of apoptosis by heat are correlated, suggesting that lymphocytes with reorganized
NuMA
are destined to undergo apoptosis. The data also indicate that DNA fragmentation precedes extensive remodelling of the nucleoplasm in these cells, and that chromatin begins to
collapse
before disassembly of nuclear envelope components.
...
PMID:Unique behaviour of NuMA during heat-induced apoptosis of lymphocytes. 949 63
Using quantitative immunoelectron microscopy we show here that when the nuclear matrix is isolated from rat hepatocytes in the presence of an inhibitor of RNase activity both lamins and the
nuclear mitotic apparatus protein
(
NuMA
) preferentially localize within the electron-dense domains of the internal nuclear matrix (INM). After RNA digestion
NuMA
undergoes a sharp depletion, while labeling by an antibody against lamins A and C within the electron-transparent regions increases, suggesting that a subset of lamin epitopes is masked by the interaction with RNA. We were able to explain this result by visualizing for the first time a thin web of lamin protofibrils which connects the electron-dense regions. Confirmation of these changes has been obtained by immunoblot analysis and confocal microscopy. As RNA digestion results both in the release of
NuMA
and in the
collapse
of the INM, we propose that a fraction of nuclear RNA brings about the association of
NuMA
islands with a lamin scaffold and that this interaction is required to maintain the latter in a state of high molecular dispersion.
...
PMID:Unraveling the organization of the internal nuclear matrix: RNA-dependent anchoring of NuMA to a lamin scaffold. 1224 46
Recent ultrastructural, immunoelectron, and confocal microscopy observations done in our laboratory [Barboro et al. [2002] Exp. Cell. Res. 279:202-218] have confirmed that lamins and the
nuclear mitotic apparatus protein
(
NuMA
) are localized inside the interphase nucleus in a polymerized form. This provided evidence of the existence of a RNA stabilized lamin/
NuMA
frame, consisting of a web of thin ( approximately 3 and approximately 5 nm) lamin filaments to which
NuMA
is anchored mainly in the form of discrete islands, which might correspond to the minilattices described by Harborth et al. [1999] (EMBO. J. 18:1689-1700). In this article we propose that this scaffold is involved in the compartmentalization of both chromatin and functional domains and further determines the higher-order nuclear organization. This hypothesis is strongly supported by the scrutiny of different structural transitions which occur inside the nucleus, such as chromatin displacement and rearrangements, the
collapse
of the internal nuclear matrix after RNA digestion and the disruption of chromosome territories induced by RNase A and high salt treatment. All of these destructive events directly depend on the loss of the stabilizing effect exerted on the different levels of structural organization by the interaction of RNA with lamins and/or
NuMA
. Therefore, the integrity of nuclear RNA must be safeguarded as far as possible to isolate the matrix in the native form. This material will allow for the first time the unambiguous ultrastructural localization inside the INM of the components of the functional domains, so opening new avenues of investigation on the mechanisms of gene expression in eukaryotes.
...
PMID:An intranuclear frame for chromatin compartmentalization and higher-order folding. 1246 80
The abundant coiled-coil protein
NuMA
is located in the nucleus during interphase, but when the nuclear envelope disassembles in prometaphase it rapidly redistributes to the developing spindle poles. Microinjection of antibodies to
NuMA
at or before metaphase can block spindle assembly or cause spindle
collapse
, indicating a role for
NuMA
in spindle function.
NuMA
must also play a key role in telophase, as
NuMA
antibodies or truncations of
NuMA
cause aberrant nuclear reassembly despite apparently normal chromosome segregation. Consistent with a structural role for
NuMA
in the nucleus, immunoelectron microscopy reveals
NuMA
to be a component of nuclear filaments.
...
PMID:NuMA: a protein involved in nuclear structure, spindle assembly, and nuclear re-formation. 1473 13
