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Wen Zhou,
Ye Yang,
Jiliang Xia,
He Wang,
Mohamed E Salama,
Wei Xiong,
Hongwei Xu,
Shashirekha Shetty,
Tiehua Chen,
Zhaoyang Zeng, Lei Shi,
Maurizio Zangari,
Rodney Miles,
David Bearss,
Guido Tricot,
Fenghuang Zhan
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ABSTRACT: Using sequential gene expression profiling (GEP) samples, we defined a major functional group related to drug resistance that contains chromosomal instability (CIN) genes. One CIN gene in particular, NEK2, was highly correlated with drug resistance, rapid relapse, and poor outcome in multiple cancers. Overexpressing NEK2 in cancer cells resulted in enhanced CIN, cell proliferation and drug resistance, while targeting NEK2 by NEK2 shRNA overcame cancer cell drug resistance and induced apoptosis in vitro and in a xenograft myeloma mouse model. High expression of NEK2 induced drug resistance mainly through activation of the efflux pumps. Thus, NEK2 represents a strong predictor for drug resistance and poor prognosis in cancer and could be an important target for cancer therapy.
Cancer cell 01/2013; 23(1):48-62. · 25.29 Impact Factor
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Lei Shi,
Siqing Wang,
Maurizio Zangari,
Hongwei Xu,
Thai M Cao,
Chunjiao Xu,
Yong Wu,
Fang Xiao,
Yinghong Liu,
Ye Yang,
Mohamed Salama,
Guiyuan Li,
Guido Tricot,
Fenghuang Zhan
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ABSTRACT: Here we demonstrate the crucial role of CKS1B in multiple myeloma (MM) progression and define CKS1B-mediated SKP2/p27(Kip1)-independent down-stream signaling pathways. Forced-expression of CKS1B in MM cells increased cell multidrug-resistance. CKS1B activates STAT3 and MEK/ERK pathways. In contrast, SKP2 knockdown or p27(Kip1) over-expression resulted in activation of the STAT3 and MEK/ERK pathways. Further investigations showed that BCL2 is a downstream target of MEK/ERK signaling. Stimulation of STAT3 and MEK/ERK signaling pathways partially abrogated CKS1B knockdown induced MM cell death and growth inhibition. Targeting STAT3 and MEK/ERK signaling pathways by specific inhibitors induced significant MM cell death and growth inhibition in CKS1B-overexpressing MM cells and their combinations resulted in synergy. Thus, our findings provide a rationale for targeting STAT3 and MEK/ERK/BCL2 signaling in aggressive CKS1B-overexpressing MM.
Oncotarget 05/2010; 1(1):22-33. · 4.78 Impact Factor
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ABSTRACT: Specific genetic alterations in multiple myeloma (MM) may cause more aggressive diseases. Paired gene array analysis on 51 samples showed that retinoic acid (RA) receptor alpha (RARalpha) expression significantly increased at relapse compared with diagnosis. RARalpha encodes 2 major isoforms: RARalpha1 and RARalpha2. In this study, we examined the function of RARalpha2 in MM. Reverse transcription-polymerase chain reaction (RT-PCR) revealed ubiquitous RARalpha1 expression in MM cells, but RARalpha2 was expressed in 26 (32%) of 80 newly diagnosed patients and 10 (28%) of 36 MM cell lines. Patients with RARalpha2 expression had a significantly shorter overall survival on identical treatments. The presence of RARalpha2 remained significant on multivariate analysis. Knockdown of RARalpha2 but not RARalpha1 induced significant MM cell death and growth inhibition, and overexpressing RARalpha2 activated STAT3 and mitogen-activated protein kinase kinase (MEK)/extracellular signal-regulated kinase (ERK) signaling pathways. Interestingly, all-trans retinoic acid (ATRA) treatment induced potent cell death and growth inhibition in RARalpha2(+) but not RARalpha2(-) MM cells; overexpressing RARalpha2 in RARalpha2-deficient MM cells restored sensitivity to ATRA. Furthermore, ATRA treatment significantly inhibited the growth of RARalpha2-overexpressing MM tumors in severe combined immunodeficiency (SCID) mouse model. These findings provide a rationale for RA-based therapy in aggressive RARalpha2(+) MM.
Blood 06/2009; 114(3):600-7. · 9.90 Impact Factor
