Inhibition of internuclear transport of SV40-induced T antigen in heterokaryons.

Internuclear migration of tumour specific nuclear T antigen has been analysed in SV40-induced H-50 tumour and chick erythrocyte heterokaryons. Thirty hours after cell fusion the incorporated and enlarged erythrocyte nuclei were invariably T antigen-positive. When treated with colchicine at 10(-4) or 10(-7) M concentration, the erythrocyte nuclei incorporated into the heterokaryons did not swell and remained T antigen-negative. The results strongly suggest the involvement of a colchicine sensitive contractile protein matrix in the internuclear transport of T antigen and other proteins.     

Status of the nuclear matrix in mature and embryonic chick erythrocyte nuclei

The adult chicken erythrocyte nucleus was found to lack an internal nuclear matrix: even milder extraction procedures resulted in the production of empty shells of pore complex-lamina together with loose aggregates of core histone. In contrast, rat liver nuclei showed a typical intranuclear salt-resistant skeleton. These results show that an internal matrix is not an obligatory nuclear component, and is not required for the spatial organization of chromatin. 5-day-old embryonic erythrocytes did, however, contain an interchromatinic nuclear matrix, suggesting a correlation between the presence of matrix structures, and nuclear 'activity'.     

Proteolysis of nuclear proteins by mu-calpain and m-calpain.

Purified calpains are capable of proteolyzing several high Mr nuclear proteins and solubilizing a histone H1 kinase activity from rat liver nuclei upon exposure to 10(-6) - 10(-5) M Ca2+. Major nuclear substrates displayed apparent molecular masses of 200, 130, 120, and 60 kDa on Coomassie Blue-stained SDS-PAGE gels. The nuclear proteins and the H1 kinase were released from Triton-treated nuclei following incubation with buffer containing 0.5 M NaCl. They therefore appeared to be internal nuclear matrix proteins. The nuclear H1 kinase activity solubilized by incubation with m-calpain was eluted in the void volume of a Bio-Gel A-1.5m column, indicating an apparent mass greater than 1,500 kDa. Treatment of the calpain-solubilized kinase with 0.5 M NaCl dissociated it to a form having an apparent mass of 300 kDa (Stokes radius = 5.6 nm), suggesting that the 300-kDa (Stokes radius = 5.6 nm), nuclei by calpain treatment as a large complex containing other internal matrix proteins. Purified human erythrocyte mu-calpain was capable of proteolyzing the nuclear matrix proteins at 10(-6) M Ca2+. In contrast, human erythrocyte multicatalytic protease complex produced little cleavage of the nuclear proteins. Proteolysis of nuclear proteins by either mu-calpain or m-calpain was inhibited by calpastatin. These experiments suggest a physiologic role for the calpains in the turnover of nuclear proteins.     

Intracellular antigen migration in interspecific myoblast heterokaryons

Intracellular migration of species-specific nuclear antigens was studied in chick-rat heterokaryons. These cells were produced by virus-induced or spontaneous fusion of different chick cells with rat myoblasts or myotubes. Chick erythrocyte nuclei introduced into rat myogenic cells increased in volume and were reactivated to synthesize RNA. As the chick erythrocyte nuclei enlarged, they rapidly accumulated rat nuclear antigens. Rat nucleolar and nucleoplasmic antigens assumed a distribution in the chick nuclei corresponding to that in rat nuclei. In hybrid myotubes formed by the spontaneous fusion of chick myoblasts and rat myoblasts antigen exchange was at a much lower level. Some exchange of both rat and chick nuclear antigens could, however, be detected also in this system. Thus chick nuclear envelope and nucleolar antigens migrated into the rat myoblast nuclei and assumed an intranuclear localization analogous to that in chick nuclei. On the basis of these results it appears that antigenic nuclear macromolecules are constantly exchanged between the rat and chick nuclear compartments and the cytoplasm of the heterokaryon. During the rapid nuclear swelling which occurs when chick erythrocyte nuclei are activated in rat myoblast heterokaryons, the inward migration of rat nuclear antigens into the chick erythrocyte nucleus is more impressive than the migration of chick antigens into the rat nuclei.     

Characterization of DNA pattern in the site of permanent attachment to the nuclear matrix located in the vicinity of replication origin

The permanent sites of DNA attachment to the nuclear matrix in the domain of chicken alpha-globin genes originally found in erythrocyte nuclei have also been shown to exist in sperm and cultured fibroblast cells. A primary structure of a 1.7 kb fragment located in 5'-upstream region of chicken alpha-globin gene domain and containing both replication origin and permanent nuclear matrix attachment site has been determined. It was found to possess homologies with papovaviral replication origins and contain short internal repeats and GC-rich motifs.     

Reactivation of DNA Replication in Nuclei from Terminally Differentiated Cells: Nuclear Membrane Permeabilization Is Required for Initiation inXenopusEgg Extract

We have usedXenopusegg extract to investigate the requirements for reactivation of DNA replication in nuclei isolated from terminally differentiated chicken erythrocytes. Previous work has shown that reactivation of erythrocyte nuclei in egg extract is accompanied by chromatin decondensation, nuclear envelope reformation, and the accumulation of egg lamin, L_III. However, in those studies, erythrocyte nuclei were prepared by methods that were not designed to maintain the selective permeability of the nuclear membrane, and as such, it is not clear if loss of nuclear membrane integrity played a role in the reactivation process. Therefore, the purpose of this study was to determine if changes in nuclear membrane permeability are required for reactivation of erythrocyte nuclei in egg extract. Nuclei with intact nuclear membranes were prepared from erythrocytes with streptolysin O and permeable nuclei by treatment of intact nuclei with the detergent Nonidet-P40. Like permeable nuclei, most intact nuclei decondensed, imported nuclear protein, and accumulated lamin L_IIIfrom the extract. However, unlike permeable nuclei, which replicated extensively in the extract, few intact nuclei initiated replication under the same conditions. These data demonstrate that permeabilization of the nuclear membrane is required for reactivation of DNA replication in terminally differentiated erythrocyte nuclei by egg extract and suggest that loss of nuclear membrane integrity may be a general requirement for replication of quiescent cell nuclei by this system.     

Spectrin-like proteins in plant nuclei

We analysed the presence and localization of spectrin-like proteins in nuclei of various plant tissues, using several anti-erythrocyte spectrin antibodies on isolated pea nuclei and nuclei in cells. Western blots of extracted purified pea nuclei show a cross-reactive pair of bands at 220-240 kDa, typical for human erythrocyte spectrin, and a prominent 60 kDa band. Immunolocalization by means of confocal laser scanning microscopy reveals spectrin-like proteins in distinct spots equally distributed in the nucleoplasm and over the nuclear periphery, independent of the origin of the anti-spectrin antibodies used. In some nuclei tracks of spectrin-like proteins are also observed. No signal is present in nucleoli. The amount and intensity of signal increases when nuclei were extracted, successively, with detergents, DNase I and RNase A, and high salt, indicating that the spectrin-like protein is associated with the nuclear matrix. The labelling is similar in nuclei of various plant tissues. These data are the first that show the presence and localization of spectrin-like epitopes in plant nuclei, where they may stabilize specific interchromatin domains.     

Characteristics of DNA sequences in the sites of permanent attachment to the nuclear matrix located in the vicinity of replication initiation site

The permanent DNA attachment sites to the nuclear matrix in the domain of chicken alpha-globin genes originally found in erythrocyte nuclei are shown to exist in sperm and cultured fibroblast cells too. Short fragments of permanently attached to the nuclear matrix DNA have been cloned and sequenced. A primary structure of a 1.7 k.b. fragment from 5'-region of chicken alpha-globin gene domain containing both replication origin and permanent attachment site has been determined. A region possessing homologies with papovaviral replication origins and putative mammalian ARS elements has been found on the 1.7 k.b. fragment. A region containing short internal repeats and GC-rich motifs has also been found. Similar motifs were observed in several of the cloned short fragments of DNA permanently attached to the nuclear matrix.     

Comparison of DNA-protein interactions in intact nuclei from avian liver and erythrocytes: A cross-linking study

DNA-protein cross-linkages were formed in intact nuclei of chicken erythrocytes and liver cells by the action of cis-diammine dichloroplatinum (II). Most cross-linked proteins were components of the nuclear matrix, and their heterogeneity reflected the different complexity of liver and erythrocytes matrices, respectively. Some basic proteins, including histones, were also cross-linked, particularly in erythrocyte nuclei. South-Western blotting revealed that a variety of proteins isolated from the cross-linked liver nuclei recognized DNA specifically. In this group of proteins two relatively abundant, acidic, species of 38 and 66 kDa, respectively, might represent novel DNA-binding proteins from the nuclear matrix. In the case of erythrocytes, only the basic proteins showed a DNA-recognition capacity, and among them there were some unidentified species, absent from liver. Lamin B2 was cross-linked but was unable to recognize DNA, and the same was true for other abundant, cross-linked proteins from both types of nuclei. This led to the hypothesis that for some DNA-nuclear matrix interactions the aggregation typical of matrix proteins is essential for the specificity of DNA recognition. Hybridization analysis of the DNA isolated from the cross-linked complexes showed that SARs (scaffold attachment regions) and telomeric sequences were well represented in the cross-linked fragments, that the cross-linked DNA of liver was partially different from that of erythrocytes and that two defined SAR sequences were found to be present only in the cross-linked DNA. These results are in agreement with the present views on DNA-nuclear matrix interactions, which are usually studied on isolated nuclear matrices or purified proteins. Instead, our results provide experimental evidence obtained directly from intact nuclei. © 1996 Wiley-Liss, Inc.     

RNA synthesis in maturing avian erythrocyte nuclei

The rate of RNA synthesis and its inhibition by α-amanitin in the nuclei of mature and immature avian erythrocytes are increased with the increase in ionic strength of incubation medium. Polyacrylamide gel electrophoresis indicates that heterogeneous species of RNAs are synthesised in the mature and immature erythrocyte nuclei. However, a large number of high molecular weight RNAs are synthesised in the nuclei of immature erythrocytes. Elution profiles on poly(U)-sepharose chromatography indicate that the RNAs synthesised in the nuclei of two types of cell contain poly(A) segments. Sixteen per cent of mature erythrocyte nuclear RNA syntbesised are polyadenylated, while it is 13% in immature erythrocyte nuclei. However, the total RNA synthesised is 2–3 fold higher in immature erythrocyte nuclei than that in mature erythrocyte nuclei.     

Reactivation of chick erythrocyte nuclei in heterokaryons with temperature-sensitive Chinese hamster cells.

Chinese hamster cell line K12 is temperature-sensitive for the initiation of DNA synthesis. K12 cells synchronized by serum deprivation were collected in early G1(G0). Heterokaryons were formed by fusing chick erythrocytes with serum-starved K12 cells through the use of UV-irradiated Sendai virus. At the permissive temperature (36.5 degrees C), erythrocyte nuclei in heterokaryons enlarged, the chromatin dispersed, and erythrocyte nuclei synthesized DNA at about the same time as the K12 nuclei. At the restrictive temperature (41 degrees C), erythrocyte nuclei enlarged, but neither erythrocyte nor K12 nuclei initiated DNA synthesis. When erythrocyte nuclei were fused with Wg-1A cells, the wild-type parent for ts K12 cells, both kinds of nuclei synthesized DNA at 36.5 degrees C and 41 degrees C. Activation of erythrocyte nuclei was inefficient in heterokaryons incubated in low-serum medium. The results indicate that serum factors and a cellular function defined by the K12 mutation are required for activation of chick erythrocyte nuclear DNA synthesis.     

Replication of Xenopus erythrocyte nuclei in a homologous egg extract requires prior proteolytic treatment

Reactivation and reinitiation of DNA replication in quiescent frog erythrocyte nuclei has been analyzed following incubation in extracts prepared from activated Xenopus eggs. Nuclear decondensation and DNA synthesis only occurred if nuclei were pretreated with low doses of trypsin. This protease treatment did not digest histones, but did degrade several nonhistone proteins. Activated erythrocyte nuclei swell and begin DNA synthesis by 30 min after being mixed with the egg extract. In some extracts virtually complete genome replication was achieved in all nuclei after 2-3 hr. Addition of several protease inhibitors during sperm nuclear isolation significantly reduced the template efficiency of these preparations. We concluded that proteolytic alteration of nonhistone nuclear structural proteins may be a general mechanism which permits quiescent nuclei to reenter the replication cycle. Erythrocyte nuclei and egg extracts provide an excellent experimental system in which to investigate the processes of nuclear reactivation.     

Nuclear matrix proteins bind very tightly to specific regions of the chicken histone H5 gene.

The nuclear matrix is operationally defined as the structure remaining after nuclease-digested nuclei are extracted with high concentrations of salt. The nuclear matrix is thought to have a role in organizing higher order chromatin into loop domains. We determined whether specific regions of the histone H5 gene were very tightly bound to protein of erythrocyte and liver nuclear matrices in vitro. We demonstrate that DNA fragments spanning sequences 5' to the promoter and the 3' enhancer region of the histone H5 gene, but not DNA fragments spanning the promoter, were very tightly bound to protein of nuclear matrices of erythrocytes and liver. The nuclear matrix consists of internal nuclear matrix and nuclear pore-lamina complex. Recently, we demonstrated that histone deacetylase could be used as a marker enzyme of the internal nuclear matrix. We demonstrate that nuclear pore-lamina complex preparations that were depleted of histone deacetylase activity, and thus of internal nuclear matrix, retained the protein that bound very tightly to the beta-globin and histone H5 enhancers. These results provide evidence that specific regions of the histone H5 gene are very tightly bound to nuclear pore-lamina complex protein.     

Investigations on chromatin condensation of hen erythrocyte nuclei in vitro. An ultrastructural and biochemical study

Hen erythrocyte nuclei, isolated in non-buffered sucrose, (3 mM Mg²⁺, at low ionic strength) have a condensed chromatin to which hemoglobin is bound. Incubation of the isolated nuclei in 0.125 M phosphate-buffer solutions of increasing pH induces a release of the bound hemoglobin and a swelling of the nuclei. Between pH 6.4 and 7.0 both processes reach a plateau and above pH 7.0 a second steep increase in nuclear volume is observable, leading to nuclear disruption above pH 7.4. Titration at low ionic strength shifts the process of hemoglobin release and nuclear swelling to higher pH values. Hemoglobin release and nuclear swelling are fully reversible by backtitration to pH 5.8. The nuclear swelling and shrinking is observed electron-microscopically as decondensation and condensation of the chromatin. The results of these investigations suggest that hemoglobin acts like a cation in the maintenance of nuclear condensation under the conditions used for the isolation of hen erythrocyte nuclei, but that this action is unlikely the physiological mechanism causing chromatin condensation during the maturation of erythroid cells.     

HeLa细胞核和核骨架含有肌动蛋白

提取HeLa细胞核并制备核骨架标本,以抗肌动蛋白抗体为探针,采用SDS－PAGE、免疫荧光和免疫印迹等方法,对HeLa细胞细胞核和核骨架中的肌动蛋白进行了研究,并用鬼笔环肽荧光染色方法研究了其中的F－肌动蛋白。在荧光显微镜下观察到：代表肌动蛋白的特异性荧光分布在细胞核和核骨架中,说明肌支蛋白是细胞核和核骨架的固有成分;代表F－肌动蛋白的特异性荧光存在于细胞和核骨架中,说明细胞核和核骨架含有F－肌动蛋白。免疫印迹结果进一步肯定了细胞核和核骨架中肌动蛋白的存在。     

Suppressive effect of protease inhibitors on heterokaryons containing chick erythrocyte nuclei

Nuclei of active cells (HeLa, mouse fibroblasts) partnered with chick erythrocyte nuclei in heterokaryons are suppressed, as judged by a decreased rate of ³H-uridine incorporation and diminished nuclear binding of ³H-actinomycin D. The extent to which active partner nuclei are suppressed, the extent to which erythrocyte nuclei are reactivated, and the degree of sensitivity of heterokaryons towards certain inhibitors of proteolytic enzymes, all correlate strongly with the ratios of erythrocyte nuclei to active nuclei. Thus, reactivation of individual erythrocyte nuclei is reduced progressively and active nuclei are suppressed progressively as the ratio of erythrocyte nuclei per active nucleus in heterokaryons increases. This erythrocyte nuclear-dose dependent suppression is markedly amplified when heterokaryons are grown in the presence of protease inhibitors. The protease inhibitors found to affect heterokaryons are low molecular weight (<400) inhibitors of trypsin-like enzymes: -1-tosylamide-2-leucyl chloromethyl ketone (TLCK), N-α-tosyl- -arginine methyl ester (TAME) and N-benzoyl- -arginine amide (BAA). They affect heterokaryons at concentrations comparable to the minimal concentrations at which they inhibit trypsin. Nonfused HeLa cells, mouse fibroblasts, or their homokaryons are refractory to protease inhibitors at these concentrations.Reactivation of chick erythrocyte nuclei in a heterokaryon may involve release of suppressors ordinarily confined to the erythrocyte nucleus, with subsequent redistribution of suppressor among all the nuclei of the heterokaryon. Under these circumstances the state of nuclear activity will depend on the quantity of suppressor per individual nucleus; within the erythrocyte nucleus the suppressors will decrease its rate of reactivation, when they migrate into an active nucleus they will suppress it. These suppressors, either in transit between the nuclei, or within the nuclei, may be hydrolysed by intracellular proteases.