Jussara Hagen scite author profile

The ARF tumor suppressor is a nucleolar protein that activates p53-dependent checkpoints by binding Mdm2, a p53 antagonist. Despite persuasive evidence that ARF can bind and inactivate Mdm2 in the nucleoplasm, the prevailing view is that ARF exerts its growth-inhibitory activities from within the nucleolus. We suggest ARF primarily functions outside the nucleolus and provide evidence that it is sequestered and held inactive in that compartment by a nucleolar phosphoprotein, nucleophosmin (NPM). Most cellular ARF is bound to NPM regardless of whether cells are proliferating or growth arrested, indicating that ARF-NPM association does not correlate with growth suppression. Notably, ARF binds NPM through the same domains that mediate nucleolar localization and Mdm2 binding, suggesting that NPM could control ARF localization and compete with Mdm2 for ARF association. Indeed, NPM knockdown markedly enhanced ARF-Mdm2 association and diminished ARF nucleolar localization. Those events correlated with greater ARF-mediated growth suppression and p53 activation. Conversely, NPM overexpression antagonized ARF function while increasing its nucleolar localization. These data suggest that NPM inhibits ARF's p53-dependent activity by targeting it to nucleoli and impairing ARF-Mdm2 association.

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Large-Scale Molecular Comparison of Human Schwann Cells to Malignant Peripheral Nerve Sheath Tumor Cell Lines and Tissues

Miller¹,

Rangwala²,

Williams³

et al. 2006

189

200

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Malignant peripheral nerve sheath tumors (MPNST) are highly invasive soft tissue sarcomas that arise within the peripheral nerve and frequently metastasize. To identify molecular events contributing to malignant transformation in peripheral nerve, we compared eight cell lines derived from MPNSTs and seven normal human Schwann cell samples. We found that MPNST lines are heterogeneous in their in vitro growth rates and exhibit diverse alterations in expression of pRb, p53, p14Arf , and p16INK4a proteins. All MPNST cell lines express the epidermal growth factor receptor and lack S100B protein. Global gene expression profiling using Affymetrix oligonucleotide microarrays identified a 159-gene molecular signature distinguishing MPNST cell lines from normal Schwann cells, which was validated in Affymetrix microarray data generated from 45 primary MPNSTs. Expression of Schwann cell differentiation markers (SOX10, CNP, PMP22, and NGFR) was downregulated in MPNSTs whereas neural crest stem cell markers, SOX9 and TWIST1, were overexpressed in MPNSTs. Previous studies have implicated TWIST1 in apoptosis inhibition, resistance to chemotherapy, and metastasis. Reducing TWIST1 expression in MPNST cells using small interfering RNA did not affect apoptosis or chemoresistance but inhibited cell chemotaxis. Our results highlight the use of gene expression profiling in identifying genes and molecular pathways that are potential biomarkers and/or therapeutic targets for treatment of MPNST and support the use of the MPNST cell lines as a primary analytic tool. (Cancer Res 2006; 66(5): 2584-91)

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A Novel Nuclear Interactor of ARF and MDM2 (NIAM) That Maintains Chromosomal Stability

Tompkins

Hagen

Frazier

et al. 2007

Journal of Biological Chemistry

113

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The ARF tumor suppressor signals through p53 and other poorly defined anti-proliferative pathways to block carcinogenesis. In a search for new regulators of ARF signaling, we discovered a novel nuclear protein that we named NIAM (nuclear interactor of ARF and MDM2) for its ability to bind both ARF and the p53 antagonist MDM2. NIAM protein is normally expressed at low to undetectable levels in cells because of, at least in part, MDM2-mediated ubiquitination and proteasomal degradation. When reintroduced into cells, NIAM activated p53, caused a G 1 phase cell cycle arrest, and collaborated with ARF in an additive fashion to suppress proliferation. Notably, NIAM retains growth inhibitory activity in cells lacking ARF and/or p53, and knockdown experiments revealed that it is not essential for ARF-mediated growth inhibition. Thus, NIAM and ARF act in separate anti-proliferative pathways that intersect mechanistically and suppress growth more effectively when jointly activated. Intriguingly, silencing of NIAM accelerated chromosomal instability, and microarray analyses showed reduced NIAM mRNA expression in numerous primary human tumors. This study identifies a novel protein with tumor suppressor-like behaviors and functional links to ARF-MDM2-p53 signaling.

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α₂δ-4 Is Required for the Molecular and Structural Organization of Rod and Cone Photoreceptor Synapses

et al. 2018

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αδ-4 is an auxiliary subunit of voltage-gated Ca1.4 L-type channels that regulate the development and mature exocytotic function of the photoreceptor ribbon synapse. In humans, mutations in the gene encoding αδ-4 cause heterogeneous forms of vision impairment in humans, the underlying pathogenic mechanisms of which remain unclear. To investigate the retinal function of αδ-4, we used genome editing to generate an αδ-4 knock-out (αδ-4 KO) mouse. In male and female αδ-4 KO mice, rod spherules lack ribbons and other synaptic hallmarks early in development. Although the molecular organization of cone synapses is less affected than rod synapses, horizontal and cone bipolar processes extend abnormally in the outer nuclear layer in αδ-4 KO retina. In reconstructions of αδ-4 KO cone pedicles by serial block face scanning electron microscopy, ribbons appear normal, except that less than one-third show the expected triadic organization of processes at ribbon sites. The severity of the synaptic defects in αδ-4 KO mice correlates with a progressive loss of Ca1.4 channels, first in terminals of rods and later cones. Despite the absence of b-waves in electroretinograms, visually guided behavior is evident in αδ-4 KO mice and better under photopic than scotopic conditions. We conclude that αδ-4 plays an essential role in maintaining the structural and functional integrity of rod and cone synapses, the disruption of which may contribute to visual impairment in humans with mutations. In the retina, visual information is first communicated by the synapse formed between photoreceptors and second-order neurons. The mechanisms that regulate the structural integrity of this synapse are poorly understood. Here we demonstrate a role for αδ-4, a subunit of voltage-gated Ca channels, in organizing the structure and function of photoreceptor synapses. We find that presynaptic Ca channels are progressively lost and that rod and cone synapses are disrupted in mice that lack αδ-4. Our results suggest that alterations in presynaptic Ca signaling and photoreceptor synapse structure may contribute to vision impairment in humans with mutations in the gene encoding αδ-4.

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Identification of Novel ARF Binding Proteins by Two-Hybrid Screening

Tompkins¹,

Hagen²,

Zediak³

et al. 2006

Cell Cycle

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The ARF tumor suppressor protects us against cancer through protein-protein interactions in partially defined p53-dependent and p53-independent pathways. We performed a two-hybrid screen using ARF as bait and present the identification of several new ARF partners that may regulate its growth inhibitory signaling. The potential physiological roles of these novel ARF binding proteins in regulating ARF signaling are discussed.

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Jussara Hagen

Nucleophosmin (B23) Targets ARF to Nucleoli and Inhibits Its Function

Large-Scale Molecular Comparison of Human Schwann Cells to Malignant Peripheral Nerve Sheath Tumor Cell Lines and Tissues

A Novel Nuclear Interactor of ARF and MDM2 (NIAM) That Maintains Chromosomal Stability

α₂δ-4 Is Required for the Molecular and Structural Organization of Rod and Cone Photoreceptor Synapses

Identification of Novel ARF Binding Proteins by Two-Hybrid Screening

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Jussara Hagen

Nucleophosmin (B23) Targets ARF to Nucleoli and Inhibits Its Function

Large-Scale Molecular Comparison of Human Schwann Cells to Malignant Peripheral Nerve Sheath Tumor Cell Lines and Tissues

A Novel Nuclear Interactor of ARF and MDM2 (NIAM) That Maintains Chromosomal Stability

α2δ-4 Is Required for the Molecular and Structural Organization of Rod and Cone Photoreceptor Synapses

Identification of Novel ARF Binding Proteins by Two-Hybrid Screening

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α₂δ-4 Is Required for the Molecular and Structural Organization of Rod and Cone Photoreceptor Synapses