p21
            <sup>WAF-1</sup>
            reorganizes the nucleus in tumor suppression

Linares-Cruz, Gustavo; Bruzzoni‐Giovanelli, Heriberto; Alvaro, Véronique; Roperch, Jean-Pierre; Tuynder, Marcel; Schöevaërt, Damien; Nemani, Mona; Prieur, Sylvie; Lethrosne, Florence; Piouffre, Laurence; Reclar, Valérie; Faille, A; Chassoux, Danièle; Dausset, J; Amson, Robert; Calvo, Fabien; Telerman, Adam

doi:10.1073/pnas.95.3.1131

Cited by 50 publications

(42 citation statements)

References 30 publications

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“…Impairing endogenous NuMA during or upon acinar differentiation using NuMA-CT peptide or antiNuMA-CT antibodies modifies the distribution of the chromatin markers acetyl-H4 and H4K20m. Changes in higher order chromatin organization are confirmed by the alteration of the distribution of DNase I sensitive regions, indicative of modifications in genome exposure (Linares-Cruz et al, 1998). The induced alteration of H4K20m and acetyl-H4 distribution by NuMA antibodies, which occurs before the loss of acinar differentiation, suggests a direct effect of NuMA on chromatin organization.…”

Section: Discussionmentioning

confidence: 76%

“…Using this technique it has been shown that DNase I-sensitive chromatin densely locates to the periphery of the cell nucleus in differentiated and reverse-transformed cells but not in transformed cells (Krystosek and Puck, 1990;Linares-Cruz et al, 1998). In situ nick translation revealed that 83% of NuMA 2002-2101 -S1, 68.7% of insertless vector-S1, and 89.6% of control S1 acinar cells had a marked nuclear peripheral location of DNase I-sensitive chromatin.…”

Section: Peptide-and Antibody-induced Alteration Of Numa Distributionmentioning

confidence: 99%

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NuMA Influences Higher Order Chromatin Organization in Human Mammary Epithelium

Abad

Lewis

Mian

et al. 2007

MBoC

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The coiled-coil protein NuMA is an important contributor to mitotic spindle formation and stabilization. A potential role for NuMA in nuclear organization or gene regulation is suggested by the observations that its pattern of nuclear distribution depends upon cell phenotype and that it interacts and/or colocalizes with transcription factors. To date, the precise contribution of NuMA to nuclear function remains unclear. Previously, we observed that antibody-induced alteration of NuMA distribution in growth-arrested and differentiated mammary epithelial structures (acini) in threedimensional culture triggers the loss of acinar differentiation. Here, we show that in mammary epithelial cells, NuMA is present in both the nuclear matrix and chromatin compartments. Expression of a portion of the C terminus of NuMA that shares sequence similarity with the chromatin regulator HPC2 is sufficient to inhibit acinar differentiation and results in the redistribution of NuMA, chromatin markers acetyl-H4 and H4K20m, and regions of deoxyribonuclease I-sensitive chromatin compared with control cells. Short-term alteration of NuMA distribution with anti-NuMA C-terminus antibodies in live acinar cells indicates that changes in NuMA and chromatin organization precede loss of acinar differentiation. These findings suggest that NuMA has a role in mammary epithelial differentiation by influencing the organization of chromatin. INTRODUCTIONThe nuclear mitotic apparatus protein (NuMA) was first described in 1980 (Lydersen and Pettijohn, 1980) and observed to concentrate at the spindle poles during mitosis. Subsequently NuMA, variously named SPN antigen, p240 antigen, centrophilin, 1F1/1H1 antigen, SP-H antigen, and W1 antigen (Compton et al., 1991(Compton et al., , 1992Kallajoki et al., 1991Kallajoki et al., , 1993Maekawa et al., 1991;Tousson et al., 1991;Yang et al., 1992;Maekawa and Kuriyama, 1993;Tang et al., 1993), was shown to be a critical player in the formation and stabilization of the mitotic spindle, notably by associating with the minus end of spindle microtubules and interacting with dynein, dynactin, and LGN (Compton and Cleveland, 1993;Gaglio et al., 1995;Merdes et al., 2000;Du et al., 2001;Gehmlich et al., 2004). In addition to its location at the poles of the mitotic spindle, NuMA has been reported in the nucleus of both cycling and growth-arrested cells, as shown by immunostaining of cells in culture and tissue biopsy sections (Lelièvre et al., 1998;Merdes and Cleveland 1998;Gribbon et al., 2002;Taimen et al., 2004). However, a role for NuMA in interphase remains to be determined. The hypothesis that NuMA might organize nuclear structure (Compton and Cleveland, 1994) is supported by the existence of a long central coiled-coil region in the protein and the prevalence of NuMA in the nucleus upon detergent extraction. Furthermore, NuMA binds DNA matrix attachment regions (MARs) in vitro (Ludérus et al., 1994), and the cleavage of NuMA precedes DNA degradation during apoptosis (Weaver et al., 1996). The likelihood of a link...

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Section: Discussionmentioning

confidence: 76%

Section: Peptide-and Antibody-induced Alteration Of Numa Distributionmentioning

confidence: 99%

NuMA Influences Higher Order Chromatin Organization in Human Mammary Epithelium

Abad

Lewis

Mian

et al. 2007

MBoC

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“…Multinucleated and giant cells were also observed following p21 Waf-1 transfection of MCF-7 cells (Sheikh et al, 1995). Previously we showed that SIAH-1 transcription was increased following p21 Waf-1 transfection in U937 leukemia cells (Linares-Cruz et al, 1998) without evident mitotic abnormalities. On the other hand reduced p21 Waf-1 expression also resulted in gross nuclear abnormalities and centriole overduplication (Mantel et al, 1999).…”

Section: Discussionmentioning

confidence: 89%

“…Expression of SIAH-1 was also induced following transfection of p21 Waf-1 , a cyclin-dependent kinase inhibitor, along with spatial nuclear reorganization and tumor suppression (Linares-Cruz et al, 1998). To investigate the functional role of SIAH-1, the SIAH-1-cDNA coding sequence was transfected into the MCF7 human breast cancer cell line.…”

Section: Introductionmentioning

confidence: 99%

SIAH-1 inhibits cell growth by altering the mitotic process

et al. 1999

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SIAH-1, the human homologue of the drosophila seven in absentia gene, is a p53-p21 Waf-1 inducible gene. We report that stable transfection with SIAH-1 of the epithelial breast cancer cell line MCF-7 blocks its growth process. The transfectants show a redistribution of SIAH-1 protein within the nucleus, more speci®cally to the nuclear matrix, associated to dramatic changes in cell morphology and defective mitosis. Multinucleated giant cells (2 ± 12 nuclei in more than 50% cells) were a most striking observation associated with tubulin spindle disorganization and defective cytokinesis. There were also present at high frequency abortive mitotic ®gures, DNA bridges and persistance of intercellular bridges and midbodies, along with an increased expression of p21 Waf-1 . These results indicate that the mechanism of growth arrest induced by SIAH-1 in MCF-7 cells involves disorganization of the mitotic program, mainly during nuclei separation and cytokinesis.

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“…A series of reports have suggested an alternative approach, namely, to analyze what it is that causes a malignant cell to revert. [7][8][9][10][11][12] It is postulated that the molecular mechanisms for overriding cancer are present in such revertant cells and that it is possible to determine the key factors that reverse malignancy which are selected for in cancer cells. 11,12 An understanding of how this reversion happens may lead to the identification of targets that were not previously revealed by comparing normal and tumor cells.…”

Section: Introductionmentioning

confidence: 99%

Quantitative Proteomic Analysis of Tumor Reversion in Multiple Myeloma Cells

Zhang

Tao

et al. 2010

J. Proteome Res.

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Tumor reversion is defined as the process by which cancer cells lose their malignant phenotype. However, relatively little is known about the cellular proteome changes that occur during the reversion process. A biological model of multiple myeloma (MM) reversion was established by using the H-1 parvovirus as a tool to select for revertant cells from MM cells. Isolated revertant cells displayed a strongly suppressed malignant phenotype both in vitro and in vivo. To explore possible mechanisms of MM reversion, the protein profiles of the revertant and parental MM cells were compared using a quantitative proteomic strategy termed SILAC-MS. Our results revealed that 379 proteins were either activated or inhibited during the reversion process, with a much greater proportion of the proteins, including STAT3, TCTP, CDC2, BAG2, and PCNA, being inhibited. Of these, STAT3, which is significantly down regulated, was selected for further functional studies. Inhibition of STAT3 expression by RNA interference resulted in suppression of the malignant phenotype and concomitant down regulation of TCTP expression, suggesting that myeloma reversion operates, at least in part, through inhibition of STAT3. Our results provide novel insights into the mechanisms of tumor reversion and suggest new alternative approaches for MM treatment.

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p21 ^WAF-1 reorganizes the nucleus in tumor suppression

Cited by 50 publications

References 30 publications

NuMA Influences Higher Order Chromatin Organization in Human Mammary Epithelium

NuMA Influences Higher Order Chromatin Organization in Human Mammary Epithelium

SIAH-1 inhibits cell growth by altering the mitotic process

Quantitative Proteomic Analysis of Tumor Reversion in Multiple Myeloma Cells

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p21 WAF-1 reorganizes the nucleus in tumor suppression

Cited by 50 publications

References 30 publications

NuMA Influences Higher Order Chromatin Organization in Human Mammary Epithelium

NuMA Influences Higher Order Chromatin Organization in Human Mammary Epithelium

SIAH-1 inhibits cell growth by altering the mitotic process

Quantitative Proteomic Analysis of Tumor Reversion in Multiple Myeloma Cells

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Product

Resources

About

p21 ^WAF-1 reorganizes the nucleus in tumor suppression