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Selective inhibitors of nuclear export (SINE) as novel therapeutics for prostate cancer

Mislocalization of proteins is a common feature of cancer cells. Since localization of proteins is tightly linked to its function, cancer cells can inactivate function of a tumor suppressor protein through mislocalization. The nuclear exportin CRM1/XPO 1 is upregulated in many cancers. Targeting XPO...

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Published in:	Oncotarget 2014-08, Vol.5 (15), p.6102-6112
Main Authors:	Mendonca, Janet, Sharma, Anup, Kim, Hae-Soo, Hammers, Hans, Meeker, Alan, De Marzo, Angelo, Carducci, Michael, Kauffman, Michael, Shacham, Sharon, Kachhap, Sushant
Format:	Article
Language:	English
Subjects:	Active Transport, Cell Nucleus - drug effects Antineoplastic Agents - pharmacology Cell Line, Tumor Humans Male Prostatic Neoplasms - drug therapy Prostatic Neoplasms - metabolism Research Paper Transfection
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creator	Mendonca, Janet Sharma, Anup Kim, Hae-Soo Hammers, Hans Meeker, Alan De Marzo, Angelo Carducci, Michael Kauffman, Michael Shacham, Sharon Kachhap, Sushant
description	Mislocalization of proteins is a common feature of cancer cells. Since localization of proteins is tightly linked to its function, cancer cells can inactivate function of a tumor suppressor protein through mislocalization. The nuclear exportin CRM1/XPO 1 is upregulated in many cancers. Targeting XPO 1 can lead to nuclear retention of cargo proteins such as p53, Foxo, and BRCA1 leading to cell cycle arrest and apoptosis. We demonstrate that selective inhibitors of nuclear export (SINE) can functionally inactivate XPO 1 in prostate cancer cells. Unlike the potent, but toxic, XPO 1 inhibitor leptomycin B, SINE inhibitors (KPT-185, KPT-330, and KPT-251) cause a decrease in XPO 1 protein level through the proteasomal pathway. Treatment of prostate cancer cells with SINE inhibitors lead to XPO 1 inhibition, as evaluated by RevGFP export assay, leading to nuclear retention of p53 and Foxo proteins, consequently, triggering apoptosis. Our data reveal that treatment with SINE inhibitors at nanomolar concentrations results in decrease in proliferation and colonogenic capacity of prostate cancer cells by triggering apoptosis without causing any cell cycle arrest. We further demonstrate that SINE inhibitors can be combined with other chemotherapeutics like doxorubicin to achieve enhanced growth inhibition of prostate cancer cells. Since SINE inhibitors offer increased bioavailability, reduced toxicity to normal cells, and are orally available they can serve as effective therapeutics against prostate cancer. In conclusion, our data reveals that nucleocytoplasmic transport in prostate cancer can be effectively targeted by SINE inhibitors.
doi_str_mv	10.18632/oncotarget.2174
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Our data reveal that treatment with SINE inhibitors at nanomolar concentrations results in decrease in proliferation and colonogenic capacity of prostate cancer cells by triggering apoptosis without causing any cell cycle arrest. We further demonstrate that SINE inhibitors can be combined with other chemotherapeutics like doxorubicin to achieve enhanced growth inhibition of prostate cancer cells. Since SINE inhibitors offer increased bioavailability, reduced toxicity to normal cells, and are orally available they can serve as effective therapeutics against prostate cancer. 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subjects	Active Transport, Cell Nucleus - drug effects Antineoplastic Agents - pharmacology Cell Line, Tumor Humans Male Prostatic Neoplasms - drug therapy Prostatic Neoplasms - metabolism Research Paper Transfection
title	Selective inhibitors of nuclear export (SINE) as novel therapeutics for prostate cancer
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