Nucleophosmin mutations in acute myeloid leukemia: A tale of protein unfolding and mislocalization

Federici, L.; Falini, Brunangelo

doi:10.1002/pro.2240

Cited by 85 publications

(93 citation statements)

References 82 publications

(147 reference statements)

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“…Mutations in the NPM1 gene are particularly common among myeloid cancers, and are the single most common genetic cause of acute myeloid leukemia. Particularly frequent among these are mutations in the NPM1 NLSs, which cause aberrant cytoplasmic accumulation of NPM1 (termed NPM1c+) and associated DNA repair factors, marking NPM1 as a key tumor suppressor in myeloid lineages (Federici and Falini 2013). Conversely, other studies have found NPM1 overexpression to be a common feature of solid tumors from numerous different tissues, demonstrating that NPM1 can act as either a tumor suppressor or an oncogene depending on the cell and/or tissue type affected (Colombo et al 2011).…”

Section: Nucleoplasmic Translocation: a Mechanism Of Recruitment Or mentioning

confidence: 99%

“…uS3) has been reported to act as an apurinic/apyrimidinic endonuclease in both nuclear and mitochondrial base excision repair (Kim et al 2013), while nucleostemin/GNL3 has been implicated in the recruitment of RAD51 to stalled replication forks Meng et al 2013), and Nol12 has D r a f t 5 been identified as an important protective factor against oxidative DNA damage (Scott et al 2016). Most strikingly, two proteins -nucleophosmin (NPM1) and nucleolin (NCL) -are required for optimal activity of multiple independent DNA repair pathways, and their dysregulation has been reported in numerous cancers, in particular leukemias and other myeloproliferative disorders (Berger et al 2015;Colombo et al 2011;Federici et al 2013).…”

Section: Introductionmentioning

confidence: 99%

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Nucleolin and nucleophosmin: nucleolar proteins with multiple functions in DNA repair

Scott

Oeffinger

2016

Biochem. Cell Biol.

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The nucleolus represents a highly multifunctional intranuclear organelle in which, in addition to the canonical ribosome assembly, numerous processes such as transcription, DNA repair and replication, the cell cycle and apoptosis are coordinated. The nucleolus is further a key hub in the sensing of cellular stress and undergoes major structural and compositional changes in response to cellular perturbations.Numerous nucleolar proteins have been identified that, upon nucleolar stress sensing, deploy additional, non-ribosomal roles in the regulation of varied cell processes including cell cycle arrest, arrest of DNA replication, induction of DNA repair, and apoptosis, among others. The highly abundant proteins nucleophosmin (NPM1) and nucleolin (NCL) are two such factors that transit to the nucleoplasm in response to stress, and participate directly in the repair of numerous different DNA damages. This review discusses the contributions made by NCL and/or NPM1 to the different DNA repair pathways employed by mammalian cells to repair DNA insults, and examines the implications of such activities for the regulation, pathogenesis and therapeutic targeting of NPM1 and NCL.

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Section: Nucleoplasmic Translocation: a Mechanism Of Recruitment Or mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Nucleolin and nucleophosmin: nucleolar proteins with multiple functions in DNA repair

Scott

Oeffinger

2016

Biochem. Cell Biol.

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“…RAS can be supported in lattices independent of Galectin 3 by proteins such as Nucleophosmin (NPM) and Nucleolin so there are alternative non-Galectin 3 mechanisms for supporting RAS signaling(97). NPM is one of the most frequently mutated genes in AML (~35%) and this mutation results in the formation of a NES that allows the protein to be exported from the nucleus(98)(99)(100)(101)(102)(103). NPM mutations are actually associated with better survival outcome so while mutant NPM can drive leukemogenesis (perhaps via support of LSC) the mutation does not provide a survival advantage to the cancer cell(99,100).…”

mentioning

confidence: 99%

Galectin 3 as a guardian of the tumor microenvironment

Ruvolo

2016

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

168

165

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Galectin 3 is a member of a family of β-galactoside binding proteins and has emerged as an important regulator of diverse functions critical in cancer biology including apoptosis, metastasis, immune surveillance, molecular trafficking, mRNA splicing, gene expression, and inflammation. Galectin 3's ability to support cancer cell survival by intra-cellular and extra-cellular mechanisms suggests this molecule is an important component of the tumor microenvironment that potentially could be targeted for therapy. Data is emerging that Galectin 3 is elevated in many cancers including solid tumors and the cancers of the blood. Galectin 3 also appears to be a key molecule produced by tumor microenvironment support cells including mesenchymal stromal cells (MSC) to suppress immune surveillance by killing T cells and interfering with NK cell function and by supporting metastasis. Levels of Galectin 3 increase in the MSC of aging mice and perhaps this contributes to the development of cancer in the elderly. Galectin 3 modulates surface protein expression of a diverse set of glycoproteins including CD44 by regulating endocytosis of these proteins. In addition, Galectin 3 binding to receptor kinases such as CD45 and the T cell receptor is critical in the regulation of their function. In this review I will examine the various mechanisms how Galectin 3 supports chemoresistance and metastasis in solid tumors and in leukemia and lymphoma. I will also discuss possible therapeutic strategies to target this Galectin for cancer therapy. This article is part of a Special Issue entitled: Tumor Microenvironment Regulation of Cancer Cell Survival, Metastasis, Inflammation, and Immune Surveillance edited by Peter Ruvolo and Gregg L. Semenza.

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“…The mutated protein loses its ability to bind nucleoli (16) and is stably and aberrantly exported in the cytoplasm (10,11). Moreover, mutations are always heterozygous in acute myeloid leukemia patients, and mutated NPM1 oligomerizes with the wild-type protein, which is also largely translocated in the cytosol.…”

Section: Discussionmentioning

confidence: 99%

“…Additionally, NPM1 has been shown to participate in cell cycle control, centrosome duplication, DNA repair, and responses to a variety of stress stimuli (7,8). The basis for such promiscuous behavior resides in the modular nature of the protein, which is composed of different functional domains (9,10). Among these, the C-terminal domain is responsible for nucleic acid binding and is the target of several mutations associated to acute myeloid leukemia (11).…”

Section: Nucleophosmin (Also Named B23 and Npm1mentioning

confidence: 99%

Synergic Role of Nucleophosmin Three-helix Bundle and a Flanking Unstructured Tail in the Interaction with G-quadruplex DNA

Arcovito

Chiarella

Longa

et al. 2014

Journal of Biological Chemistry

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Background: Nucleophosmin is a nucleolar protein that interacts with G-quadruplexes. Results: Site-directed mutagenesis and molecular dynamics unravel the role of single residues in complex formation. Conclusion: A disordered segment of nucleophosmin contributes to G-quadruplex recognition by facilitating the formation of an encounter complex and transiently interacting with the G-quadruplex. Significance: Understanding the role played by flanking fuzziness is an important issue in protein/DNA interactions.

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Nucleophosmin mutations in acute myeloid leukemia: A tale of protein unfolding and mislocalization

Cited by 85 publications

References 82 publications

Nucleolin and nucleophosmin: nucleolar proteins with multiple functions in DNA repair

Nucleolin and nucleophosmin: nucleolar proteins with multiple functions in DNA repair

Galectin 3 as a guardian of the tumor microenvironment

Synergic Role of Nucleophosmin Three-helix Bundle and a Flanking Unstructured Tail in the Interaction with G-quadruplex DNA

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