Hyper-dependence of breast cancer cell types on the nuclear transporter Importin β1

Kuusisto, Henna Veera; Jans, David A.

doi:10.1016/j.bbamcr.2015.05.002

Cited by 31 publications

(28 citation statements)

References 46 publications

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“…Of note, importin β1knockdown led to relocalization of Cat L from the nucleus to the cytoplasm in MDA-MB-468 cells, while it led to decreased Cat L expression in MCF-7 Snail cells, which highlights cell line differences but does not detract from the overall theme. Another noteworthy observation was that Snail overexpression increased importin β1 expression; this supports a report that more aggressive breast cancer cells overexpress importin β1, where it was further shown that importin β1 silencing was more potent in malignant compared to non-transformed breast cancer cells [15]. It has also been shown that importin β1is overexpressed in cervical cancer and inhibition with siRNA inhibited tumor cell proliferation without affecting normal cervical epithelium [16].…”

Section: Discussionsupporting

confidence: 72%

Snail transcription factor NLS and importin β1 regulate the subcellular localization of Cathepsin L and Cux1

Burton

Henderson

Liburd

et al. 2017

Biochemical and Biophysical Research Communications

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Several recent studies have highlighted an additional unexpected localization and site of action for Cathepsin L (Cat L) protease within the nucleus in breast, colon and prostate cancer, however, its role in the nucleus was unclear. It was proposed to mediate proteolytic processing of the transcription factor CCAAT-displacement protein/cut homeobox transcription factor (Cux1) from the full-length p200 isoform to generate the p110 and p90 isoforms, of which the p110 isoform was shown to act as a cell cycle regulator to accelerate entry into the S phase. The p110 isoform has also been shown to bind to the promoter regions of Snail and E-cadherin to activate Snail and inactivate E-cadherin transcription, thus promoting epithelial mesenchymal transition (EMT). Mechanistic studies on what drives Cat L nuclear localization have not been reported. Our hypothesis is that Snail shuttles into the nucleus with Cat L through binding to importin-β. Snail knockdown with siRNA in MDA-MB-468 breast cancer cells led to nuclear to cytoplasmic shuttling of Cat L and decreased levels of Cux1, while overexpression of Snail in MCF-7 breast cancer cells or HEK-293 human embryonic kidney cells led to increased nuclear expression of both Cat L and Cux1. Additionally, transient transfection of Snail NLS mutants not only abrogated Snail nuclear localization but also nuclear localization of Cat L and Cux1. Interestingly, importin β1 knockdown with siRNA decreased Snail and Cux1 levels, as well as nuclear localization of Cat L. Therefore, we show for the first time that the nuclear localization of Cat L and its substrate Cux1can be positively regulated by Snail NLS and importin β1, suggesting that Snail, Cat L and Cux1 all utilize importin β1 for nuclear import.

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Section: Discussionsupporting

confidence: 72%

Snail transcription factor NLS and importin β1 regulate the subcellular localization of Cathepsin L and Cux1

Burton

Henderson

Liburd

et al. 2017

Biochemical and Biophysical Research Communications

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“…Interestingly, Kuusisto and Jans identified a so-called hypersensitivity of malignant cell types towards the inhibition of the nuclear import receptor importin β. 62 Moreover, as mentioned earlier, the overexpression of nuclear transport receptors in cancer cells indicates an increased dependence of cancer cells on specific proteins which is referred to as tumor cell addiction. 63 In consequence, 3D tumor spheroids show great potential for studying the HIF-dependent hypoxic response and should be considered in future research.…”

Section: Dovepressmentioning

confidence: 95%

<p>The Nuclear Export Inhibitor Selinexor Inhibits Hypoxia Signaling Pathways And 3D Spheroid Growth Of Cancer Cells</p>

Depping

Fallois

Landesman

et al. 2019

OTT

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Purpose: The nucleocytoplasmic transport of macromolecules is critical for both cell physiology and pathophysiology. Exportin 1 (XPO1), the major nuclear export receptor, is involved in the cellular adaptation to reduced oxygen availability by controlling the nuclear activity of the hypoxia-inducible factors (HIFs). Recently, a specific inhibitor of XPO1, selinexor (KPT-330), has been identified that inhibits nuclear export of cargo proteins by binding to the XPO1 cargo-binding pocket. Patients and methods: We used different cancer cell lines from human tissues and evaluated the physiological activity of selinexor on the hypoxia response pathway in twodimensional (2D) monolayer cell cultures in quantitative real-time (qRT)-PCR experiments and luciferase reporter gene assays. A three-dimensional (3D) tumor spheroid culture model of MCF-7 breast cancer cells was established to analyze the effect of selinexor on 3D tumor spheroid structure, formation and viability. Results: Selinexor treatment reduces HIF-transcriptional activity and expression of the HIF-1 target gene solute carrier family 2 member 1 (SLC2A1). Moreover, 3D tumor spheroid structure, formation and viability are inhibited in response to selinexor-induced nuclear export inhibition. Conclusion: Here, we demonstrate the effect of specific XPO1-inhibition on the hypoxic response on the molecular level in 2D and 3D culture models of MCF-7 cells.

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“…The E2F/Rb pathway is disrupted in a remarkably high proportion of human cancers through other mechanisms leading to the same overexpression phenotype . Interestingly, Kuusisto et al showed that the extent of overexpression of KPNB1 correlates with disease state in the MCF10 human breast tumour progression system, suggesting that its overexpression not only correlates with E2F dysregulation but can vary according to tumour progression state . Other mechanisms for altered Karyopherin expression have been reported.…”

Section: Dysregulation Of Nuclear Transport In Cancermentioning

confidence: 99%

“…Challenges may arise though when targeting cellular machinery that is active in both normal and cancer cells. However, studies have shown that cancer cells are more sensitive to nuclear transport inhibition than non‐cancer cells which remain viable ( 3 , ). Specific knockdown using siRNA for nuclear import proteins, KPNB1 and KPNA2, and export proteins, XPO1 and CSE1L, in cancer cells frequently results in reduced proliferation and increased apoptosis .…”

Section: Targeting Nuclear Transporters As Cancer Therapeuticsmentioning

confidence: 99%

Targeting nuclear transporters in cancer: Diagnostic, prognostic and therapeutic potential

et al. 2016

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The Karyopherin superfamily is a major class of soluble transport receptors consisting of both import and export proteins. The trafficking of proteins involved in transcription, cell signalling and cell cycle regulation among other functions across the nuclear membrane is essential for normal cellular functioning. However, in cancer cells, the altered expression or localization of nuclear transporters as well as the disruption of endogenous nuclear transport inhibitors are some ways in which the Karyopherin proteins are dysregulated. The value of nuclear transporters in the diagnosis, prognosis and treatment of cancer is currently being elucidated with recent studies highlighting their potential as biomarkers and therapeutic targets. V C 2016 IUBMB Life, 68(4): [268][269][270][271][272][273][274][275][276][277][278][279][280] 2016

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Hyper-dependence of breast cancer cell types on the nuclear transporter Importin β1

Cited by 31 publications

References 46 publications

Snail transcription factor NLS and importin β1 regulate the subcellular localization of Cathepsin L and Cux1

Snail transcription factor NLS and importin β1 regulate the subcellular localization of Cathepsin L and Cux1

<p>The Nuclear Export Inhibitor Selinexor Inhibits Hypoxia Signaling Pathways And 3D Spheroid Growth Of Cancer Cells</p>

Targeting nuclear transporters in cancer: Diagnostic, prognostic and therapeutic potential

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