Tamara Stelma scite author profile

Karyopherin beta 1 (Kpnb1) is a nuclear transport receptor that imports cargoes into the nucleus. Recently, elevated Kpnb1 expression was found in certain cancers and Kpnb1 silencing with siRNA was shown to induce cancer cell death. This study aimed to identify novel small molecule inhibitors of Kpnb1, and determine their anticancer activity. An in silico screen identified molecules that potentially bind Kpnb1 and Inhibitor of Nuclear Import-43, INI-43

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

Stelma

Chi

Watt

et al. 2016

IUBMB Life

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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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KPNB1-mediated nuclear import is required for motility and inflammatory transcription factor activity in cervical cancer cells

Stelma

Leaner

2017

Oncotarget

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Karyopherin β1 is a nuclear import protein involved in the transport of proteins containing a nuclear localisation sequence. Elevated Karyopherin β1 expression has been reported in cancer and transformed cells and is essential for cancer cell proliferation and survival. Transcription factors such as NFĸB and AP-1 contain a nuclear localisation sequence and initiate the expression of multiple factors associated with inflammation and cancer cell biology. Our study investigated the effect of inhibiting nuclear import via Karyopherin β1 on cancer cell motility and inflammatory signaling using siRNA and the novel small molecule, Inhibitor of Nuclear Import-43, INI-43. Inhibition of Karyopherin β1 led to reduced migration and invasion of cervical cancer cells. Karyopherin β1 is essential for the translocation of NFĸB into the nucleus as nuclear import inhibition caused its cytoplasmic retention and decreased transcriptional activity. A similar decrease was seen in AP-1 transcriptional activity upon Karyopherin β1 inhibition. Consequently reduced interleukin-6, interleukin-1 beta, tumour necrosis factor alpha and granulocyte macrophage colony stimulating factor expression, target genes of NFkB and AP-1, was observed. Migration studies inhibiting individual transcription factors suggested that INI-43 may affect a combination of signaling events. Our study provides further evidence that inhibiting KPNB1 has anti-cancer effects and shows promise as a chemotherapeutic target.

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Tamara Stelma

Targeting the Nuclear Import Receptor Kpnβ1 as an Anticancer Therapeutic

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

KPNB1-mediated nuclear import is required for motility and inflammatory transcription factor activity in cervical cancer cells

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