The Structure and Function of Xenopus NO38-Core, a Histone Chaperone in the Nucleolus

Namboodiri, V. M. Haridasan; Akey, Ildikó V.; Schmidt-Zachmann, Marion S.; Head, James F.; Akey, Christopher W.

doi:10.1016/j.str.2004.09.017

Cited by 102 publications

(148 citation statements)

References 45 publications

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“…We hypothesized that an SMI, targeting protein-protein interactions of the dimer interface would inhibit NPM function. Since there is no crystal structure available for human NPM, a homology model of human NPM was built according to the Xenopus NO38-core chaperone structure (residues, 1-107) (pdb:1XE0) (Namboodiri et al, 2004), which has a sequence identity of 77% and similarity of >90%. The homology model of NPM demonstrated a highly conserved topology and sidechain interactions of the dimer interface in comparison to Xenopus NO38-core structure.…”

Section: Resultsmentioning

confidence: 99%

“…Since there is no crystal structure available for human NPM, a homology model of the human NPM was built utilizing 'Modeller' on a Linux workstation (http://salilab.org/modeller) utilizing the highly homologous Xenopus NO38-core chaperone structure (pdb:1XE0) (Namboodiri et al, 2004). The model was energy minimized (Sybyl V7.3, Tripos, MO, USA) and analysed by Procheck V3.5 (http://www.biochem.ucl.ac.uk/Broman/ procheck) and Ramachandran plot for correctness and outliers.…”

Section: Methodsmentioning

confidence: 99%

“…This is due to the discovery of several specific small molecular agents targeting anti-apoptotic targets such as Bcl-2-Bax (Oltersdorf et al, 2005), MDM2-p53 (Vassilev et al, 2004) and XIAP-SMAC (Oost et al, 2004). Under native condition, NPM exists as oligomers via its Nterminal molecular chaperone domain (Herrera et al, 1996;Hingorani et al, 2000;Namboodiri et al, 2004). We hypothesized that a specific SMI that disrupts the formation of oligomers would inhibit NPM function(s) in cancer cells.…”

Section: Apoptosis Induction By Npm Inhibitor Nsc348884 W Qi Et Almentioning

confidence: 99%

“…NPM shuttles between the nucleolus and the cytoplasm, and it also translocates from the nucleolus to the nucleoplasm during the stationary phase of growth or during treatment with certain antitumor drugs (Yung et al, 1990;Chou and Yung, 1995). Under native condition, NPM exists as an oligomer (Herrera et al, 1996;Namboodiri et al, 2004). The structural features of NPM consist of an oligomerization domain, a metal-binding motif, a bipartite nuclear localization signal, phosphorylation sites and a nucleolar localization signal (Wang et al, 1993;Wang et al, 2005).…”

Section: Introductionmentioning

confidence: 99%

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NSC348884, a nucleophosmin inhibitor disrupts oligomer formation and induces apoptosis in human cancer cells

et al. 2008

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Nucleophosmin (NPM), a multifunctional nucleolar phosphoprotein is dysregulated in human malignancies leading to anti-apoptosis and inhibition of differentiation.We evaluated the precise three-dimensional structure of NPM based on the highly conserved structure of Xenopus NO38 and its requirement to form dimers and pentamers via its N-terminal domain (residues, 1-107). We hypothesized that a small molecular inhibitor (SMI) that could disrupt the formation of dimers would inhibit aberrant NPM function(s) in cancer cells. Molecular modeling, pharmacophore design, in silico screening and interactive docking identified NSC348884 as a putative NPM SMI that disrupts a defined hydrophobic pocket required for oligomerization. NSC348884 inhibited cell proliferation at an IC 50 of 1.7-4.0 lM in distinct cancer cell lines and disrupted NPM oligomer formation by native polyacrylamide gel electrophoresis assay. Treatment of several different cancer cell types with NSC348884 upregulated p53 (increased Ser15 phosphorylation) and induced apoptosis in a dose-dependent manner that correlated with apoptotic markers: H2AX phosphorylation, poly(ADPribose) polymerase cleavage and Annexin V labeling. Further, NSC348884 synergized doxorubicin cytotoxicity on cancer cell viability. The data together show that NSC348884 is an SMI of NPM oligomer formation, upregulates p53, induces apoptosis and synergizes with chemotherapy. Hence, an SMI to NPM may be a useful approach to anticancer therapy.

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Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Apoptosis Induction By Npm Inhibitor Nsc348884 W Qi Et Almentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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NSC348884, a nucleophosmin inhibitor disrupts oligomer formation and induces apoptosis in human cancer cells

et al. 2008

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“…The structures of several variants of nucleoplasmin ( [42] and references therein), NAP1 and the related SET/TAF-1 [43] [44] (all putative H2A/H2B chaperones) are now known, as is the structure of the H3-H4 chaperone Asf1 [45]. The structures of HIRA and the histone binding subunit of CAF-1 have been predicted through homology modeling [46,47].…”

Section: Chaperone -Histone Interactions and Implications For Nucleosmentioning

confidence: 99%

Histone chaperones in nucleosome eviction and histone exchange

Park

Luger

2008

Current Opinion in Structural Biology

174

143

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Nucleoplasmin: A Versatile Histone Chaperone

Franco

Fernández-Rivero

Prado

et al. 2017

Encyclopedia of Life Sciences

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Cells have evolved an ingenious way to tightly pack the genetic information in a nucleoprotein complex called chromatin. The functional unit of chromatin is the nucleosome, which is made of DNA wrapped around histones. Dynamic modulation of nucleosome structure by regulating the association/dissociation of histones to/from DNA is essential for DNA replication, repair and transcription. In vivo , a group of histone chaperones facilitate and regulate nucleosome assembly. Recent structural, biophysical and biochemical studies have begun to shed light on the molecular mechanisms whereby histone chaperones promote chromatin assembly, disassembly and histone exchange. This review focuses on the structure and function of Nucleoplasmin (NP), a key component of the amphibian chromatin remodelling machinery during fertilisation and early embryonic development. Key Concepts Histone chaperones are key components of the machinery that regulates chromatin dynamics. The function of histone chaperones is based on their interaction with histone surfaces involved in binding to DNA and other histones. Histone chaperones can be classified into two main groups, specific and generic chaperones, according to their ability to bind only a particular histone or all kind of linker and core histones with similar affinity, respectively. Nucleoplasmin is a generic histone chaperone able to interact with both linker and core histones. Nucleoplasmin uses the same protein region, the intrinsically disordered, acidic distal face to interact with all histones, favouring competition for NP binding and thus histone exchange. The oligomeric structure of NP builds a large histone‐binding region that allows the chaperone to bind different association states of histones, including the octamer.

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The Structure and Function of Xenopus NO38-Core, a Histone Chaperone in the Nucleolus

Cited by 102 publications

References 45 publications

NSC348884, a nucleophosmin inhibitor disrupts oligomer formation and induces apoptosis in human cancer cells

NSC348884, a nucleophosmin inhibitor disrupts oligomer formation and induces apoptosis in human cancer cells

Histone chaperones in nucleosome eviction and histone exchange

Nucleoplasmin: A Versatile Histone Chaperone

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