Abstract
The nuclear matrix (NM) is considered a proteinaceous scaffold spatially organizing the interphase nucleus, the integrity of which is affected during apoptosis. Caspase-mediated degradation of NM proteins, such as nuclear lamins, precedes apoptotic chromatin condensation (ACC). Nevertheless, other NM proteins remain unaffected, which most likely maintain a remaining nuclear structure devoid of chromatin. We, therefore, screened various types of apoptotic cells for changes of the nuclear matrix proteome during the process of apoptotic ACC. Expectedly, we observed fundamental alterations of known chromatin-associated proteins, comprising both degradation and translocation to the cytosol. Importantly, a consistent set of abundant NM proteins, some (e.g. hNMP 200) of which displaying structural features, remained unaffected during apoptosis and might therefore represent constituents of an elementary scaffold. In addition, proteins involved in DNA replication and DNA repair were found accumulated in the NM fraction before cells became irreversibly committed to ACC, a time point characterized in detail by inhibitor studies with orthovanadate. In general, protein alterations of a consistent set of NM proteins (67 of which were identified), were reproducibly detectable in Fas-induced Jurkat cells, in UV-light treated U937 cells and also in staurosporine-treated HeLa cells. Our data indicate that substantial alterations of proteins linking chromatin to an elementary nuclear protein scaffold might play an intriguing role for the process of ACC.
Highlights
The highly insoluble non-chromatin proteins of the nucleus, termed nuclear matrix proteins (NMPs), have been implicated in vital processes, such as DNA replication and transcription, RNA processing and transport as well as ribosomal biogenesis.[1,2] In our systematic proteome studies on human NMPs from various cellular sources cell type-specific, cell state-specific and common NMPs ubiquitously occurring in various cell types, have been differentiated and some identified.3 ± 6 A subgroup of common NMPs was described that exerted an enhanced capability of reassembling, representing a source for potential structural nuclear proteins.7 ± 9 Investigation of proteome alterations accompanying well-defined physiologic processes may help to further characterize and understand functional implications of affected proteins
Whether specific proteins would contribute to this potential scaffold, we analyzed the subcellular localization of one prominent nuclear matrix protein member with structural functions, hNMP 200.9 HeLa cells expressing a hNMP 200-GFP fusion protein were induced to undergo apoptosis by treatment with 2.5 mM staurosporine
HNMP 200 might structurally contribute to a residual core nuclear scaffold, visualized under the electron microscope (Figure 1B)
Summary
The highly insoluble non-chromatin proteins of the nucleus, termed nuclear matrix proteins (NMPs), have been implicated in vital processes, such as DNA replication and transcription, RNA processing and transport as well as ribosomal biogenesis.[1,2] In our systematic proteome studies on human NMPs from various cellular sources cell type-specific, cell state-specific and common NMPs ubiquitously occurring in various cell types, have been differentiated and some identified.3 ± 6 A subgroup of common NMPs was described that exerted an enhanced capability of reassembling, representing a source for potential structural nuclear proteins.7 ± 9 Investigation of proteome alterations accompanying well-defined physiologic processes may help to further characterize and understand functional implications of affected proteins. It plays a role in various normal and pathological biological processes.[10,11] Apoptosis is morphologically signified by cytoplasmic shrinkage, active membrane blebbing and condensation of chromatin close to the inner linings of the nuclear envelope. Endonuclease-induced chromatin cleavage at internucleosomal sites,[24,25] histone deacetylation modifying protein ± DNA interactions[26] and the action of the caspase-3-activated protein acinus[27] have been implicated
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