DEK over-expression promotes mitotic defects and micronucleus formation

Matrka, Marie C.; Hennigan, Robert F.; Kappes, Ferdinand; DeLay, Monica; Lambert, Paul F.; Aronow, Bruce J.; Wells, Susanne I.

doi:10.1080/15384101.2015.1044177

Cited by 21 publications

(22 citation statements)

References 71 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In the Bi-L-Dek_K5-tTA mouse model, Dek overexpression at the message and protein level was approximately 2–4 fold over that of endogenous Dek. This relatively modest level is in agreement with other published studies suggesting DEK expression levels are tightly regulated [ 1 , 16 , 58 , 77 – 79 ]. Achieving strong overexpression of DEK in vitro in our hands has been notoriously difficult, potentially due to toxicity and cell death, e. g. in the above Drosophila study [ 88 ].…”

Section: Discussionsupporting

confidence: 93%

“…Importantly, a modest level of DEK overexpression in epithelial cells has been linked to oncogenic phenotypes in vitro . These DEK dependent oncogenic activities include enhanced cancer stem cell growth, colony formation, cellular invasion, mitotic abnormalities, and metabolic de-regulation, providing evidence that subtle increases in DEK protein expression are sufficient to elicit significant cellular consequences [ 16 , 77 – 79 ]. In human ESCC, HNSCC, breast, bladder, colorectal, hepatocellular, and non-small cell lung carcinoma, DEK protein levels were increased in tumor versus adjacent normal tissue, and the extent of overexpression was variable.…”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Dek overexpression in murine epithelia increases overt esophageal squamous cell carcinoma incidence

et al. 2018

View full text Add to dashboard Cite

Esophageal cancer occurs as either squamous cell carcinoma (ESCC) or adenocarcinoma. ESCCs comprise almost 90% of cases worldwide, and recur with a less than 15% five-year survival rate despite available treatments. The identification of new ESCC drivers and therapeutic targets is critical for improving outcomes. Here we report that expression of the human DEK oncogene is strongly upregulated in esophageal SCC based on data in the cancer genome atlas (TCGA). DEK is a chromatin-associated protein with important roles in several nuclear processes including gene transcription, epigenetics, and DNA repair. Our previous data have utilized a murine knockout model to demonstrate that Dek expression is required for oral and esophageal SCC growth. Also, DEK overexpression in human keratinocytes, the cell of origin for SCC, was sufficient to cause hyperplasia in 3D organotypic raft cultures that mimic human skin, thus linking high DEK expression in keratinocytes to oncogenic phenotypes. However, the role of DEK over-expression in ESCC development remains unknown in human cells or genetic mouse models. To define the consequences of Dek overexpression in vivo, we generated and validated a tetracycline responsive Dek transgenic mouse model referred to as Bi-L-Dek. Dek overexpression was induced in the basal keratinocytes of stratified squamous epithelium by crossing Bi-L-Dek mice to keratin 5 tetracycline transactivator (K5-tTA) mice. Conditional transgene expression was validated in the resulting Bi-L-Dek_K5-tTA mice and was suppressed with doxycycline treatment in the tetracycline-off system. The mice were subjected to an established HNSCC and esophageal carcinogenesis protocol using the chemical carcinogen 4-nitroquinoline 1-oxide (4NQO). Dek overexpression stimulated gross esophageal tumor development, when compared to doxycycline treated control mice. Furthermore, high Dek expression caused a trend toward esophageal hyperplasia in 4NQO treated mice. Taken together, these data demonstrate that Dek overexpression in the cell of origin for SCC is sufficient to promote esophageal SCC development in vivo.

show abstract

Section: Discussionsupporting

confidence: 93%

Section: Discussionmentioning

confidence: 99%

Dek overexpression in murine epithelia increases overt esophageal squamous cell carcinoma incidence

et al. 2018

View full text Add to dashboard Cite

show abstract

“…Consistent with DEK overexpression in tumors or proliferating cells, these factors are also expressed at higher rates in cancer (Privette Vinnedge et al 2011) and are associated with either cellular or behavioral indices of learning and memory (Aubry et al 2015, Bean et al 2014, Gurtner et al 2010, Rossner et al 2006, Ting et al 2014, Vierk et al 2014). While DEK is known for its role in cancer and autoimmune diseases (Matrka et al 2015, Mor-Vaknin et al 2011, Pease et al 2015), its function in the CNS has not been described. DEK mRNA expression has been reported in mouse (http://www.brain-map.org/) and human brains (Kroes et al 2000), but to our knowledge, no studies have investigated protein expression nor neuroanatomical distribution in distinct brain regions.…”

Section: Discussionmentioning

confidence: 99%

“…For example, cancer is associated with increased cellular proliferation (Stopper et al 2003), decreased apoptosis (Gerl & Vaux 2005), up-regulation of the canonical Wnt-pathway (Segditsas & Tomlinson 2006, Zhan et al 2017), while Alzheimer’s disease is associated with DNA damage (Coppede & Migliore 2009, Lovell & Markesbery 2007), decreased neurogenesis (Demars et al 2010), apoptosis (Smale et al 1995), and down-regulation of the canonical Wnt-pathway (Riise et al 2015). DEK deficiency in vitro or in the periphery induces cellular and molecular anomalies commonly observed in neurodegenerative diseases including DNA damage, cellular senescence, decreased cellular proliferation, and down-regulation of the canonical Wnt-pathway (Kavanaugh et al 2011, Matrka et al 2015, Saha et al 2013, Tabbert et al 2006). In this same vein, DEK expression facilitates DNA repair, is anti-apoptotic (through p53 dependent and independent mechanisms), promotes cellular proliferation, and prevents differentiation (Wise-Draper et al 2006, Wise-Draper et al 2009b).…”

Section: Discussionmentioning

confidence: 99%

Neuroanatomical Distribution of DEK Protein in Corticolimbic Circuits Associated with Learning and Memory in Adult Male and Female Mice

et al. 2018

View full text Add to dashboard Cite

DEK, a chromatin-remodeling gene expressed in most human tissues, is known for its role in cancer biology and autoimmune diseases. DEK depletion in vitro reduces cellular proliferation, induces DNA damage subsequently leading to apoptosis, and down-regulates canonical Wnt/β-catenin signaling, a molecular pathway essential for learning and memory. Despite a recognized role in cancer (non-neuronal) cells, DEK expression and function is not well characterized in the central nervous system. We conducted a gene ontology analysis (ToppGene), using a cancer database to identify genes associated with DEK deficiency, which pinpointed several genes associated with cognitive-related diseases (i.e., Alzheimer’s disease, presenile dementia). Based on this information, we examined DEK expression in corticolimbic structures associated with learning and memory in adult male and female mice using immunohistochemistry. DEK was expressed throughout the brain in both sexes, including the medial prefrontal cortex (prelimbic, infralimbic and dorsal peduncular). DEK was also abundant in all amygdalar subdivisions (basolateral, central and medial) and in the hippocampus including the CA1, CA2, CA3, dentate gyrus (DG), ventral subiculum and entorhinal cortex. Of note, compared to males, females had significantly higher DEK immunoreactivity in the CA1, indicating a sex difference in this region. DEK was co-expressed with neuronal and microglial markers in the CA1 and DG, whereas only a small percentage of DEK cells were in apposition to astrocytes in these areas. Given the reported inverse cellular and molecular profiles (e.g., cell survival, Wnt pathway) between cancer and Alzheimer’s disease, these findings suggest a potentially important role of DEK in cognition.

show abstract

“…Since this discovery, DEK has been classified as an oncoprotein and shown to be overexpressed in many diverse tumor types, wherein the degree of overexpression was linked to worse prognosis, advanced stage tumors, and chemotherapy resistance . Cellular functions of the oncoprotein include activities in modifying chromatin structure, histone chaperoning, epigenetic modification and transcription regulation, mRNA splicing, DNA repair, DNA replication fork restart, mitotic non‐disjunction events, evasion of senescence and apoptosis, proliferation cancer stem cell fitness and invasion, inflammation, and metabolic reprogramming . Precise molecular mechanisms whereby DEK regulates these cellular processes remain unclear in many cases.…”

Section: Introductionmentioning

confidence: 99%

The nuclear DEK interactome supports multi‐functionality

et al. 2017

Self Cite

View full text Add to dashboard Cite

DEK is an oncoprotein that is overexpressed in many forms of cancer and participates in numerous cellular pathways. Of these different pathways, relevant interacting partners and functions of DEK are well described in regard to the regulation of chromatin structure, epigenetic marks, and transcription. Most of this understanding was derived by investigating DNA-binding and chromatin processing capabilities of the oncoprotein. To facilitate the generation of mechanism-driven hypotheses regarding DEK activities in underexplored areas, we have developed the first DEK interactome model using tandem-affinity purification and mass spectrometry. With this approach, we identify IMPDH2, DDX21, and RPL7a as novel DEK binding partners, hinting at new roles for the oncogene in de novo nucleotide biosynthesis and ribosome formation. Additionally, a hydroxyurea-specific interaction with replication protein A (RPA) was observed, suggesting that a DEK-RPA complex may form in response to DNA replication fork stalling. Taken together, these findings highlight diverse activities for DEK across cellular pathways and support a model wherein this molecule performs a plethora of functions.DDX21, DEK, IMPDH2, interactome, mass spectrometry, ribosome, RPA | I N TR ODU C TI ONDEK is a DNA-binding and predominantly nuclear protein that was first identified as a DEK-NUP214 fusion protein in AML. 1 Since this discovery, DEK has been classified as an oncoprotein and shown to be overexpressed in many diverse tumor types, 2 wherein the degree of overexpression was linked to worse prognosis, advanced stage tumors, and chemotherapy resistance. 3-9 Cellular functions of the oncoprotein include activities in modifying chromatin structure, 2,10-13 histone chaperoning, 14,15 epigenetic modification and transcription regulation, [16][17][18][19]20,21 DNA repair,22,23 DNA replication fork restart, 24 mitotic non-disjunction events, 25 evasion of senescence and apoptosis, 19,26,27 proliferation 28-30 cancer stem cell fitness and invasion, 28,31 inflammation, 32,33 and metabolic reprogramming. 34 Precise molecular mechanisms whereby DEK regulates these cellular processes remain unclear in many cases. For instance, while DEK is necessary for optimal non-homologous end joining (NHEJ) DNA repair, the mechanism of action or interacting partners remain elusive. 23 For an oncogene that is widely implicated in human carcinogenesis and outcome, determining how DEK operates is imperative. However, this has proven challenging as the oncoprotein DEK has no known enzymatic activity or paralogs. 2 While significant progress has been made to understand molecular DEK activities in transcription via chromatin remodeling, 2,[10][11][12][13][16][17][18][19] there is a dearth of information regarding 88 | V C 2017 Wiley Periodicals, Inc.wileyonlinelibrary.com/journal/prot Proteins. 2018;86:88-97.

show abstract

DEK over-expression promotes mitotic defects and micronucleus formation

Cited by 21 publications

References 71 publications

Dek overexpression in murine epithelia increases overt esophageal squamous cell carcinoma incidence

Dek overexpression in murine epithelia increases overt esophageal squamous cell carcinoma incidence

Neuroanatomical Distribution of DEK Protein in Corticolimbic Circuits Associated with Learning and Memory in Adult Male and Female Mice

The nuclear DEK interactome supports multi‐functionality

Contact Info

Product

Resources

About