Mitsunori Sasa scite author profile

Abstract. Triple negative breast cancer (TNBC) has a poor outcome due to the lack of beneficial therapeutic targets. To clarify the molecular mechanisms involved in the carcinogenesis of TNBC and to identify target molecules for novel anticancer drugs, we analyzed the gene expression profiles of 30 TNBCs as well as 13 normal epithelial ductal cells that were purified by laser-microbeam microdissection. We identified 301 and 321 transcripts that were significantly upregulated and downregulated in TNBC, respectively. In particular, gene expression profile analyses of normal human vital organs allowed us to identify 104 cancer-specific genes, including those involved in breast carcinogenesis such as NEK2, PBK and MELK. Moreover, gene annotation enrichment analysis revealed prominent gene subsets involved in the cell cycle, especially mitosis. Therefore, we focused on cell cycle regulators, asp (abnormal spindle) homolog, microcephaly-associated (Drosophila) (ASPM) and centromere protein K (CENPK) as novel therapeutic targets for TNBC. Small-interfering RNA-mediated knockdown of their expression significantly attenuated TNBC cell viability due to G1 and G2/M cell cycle arrest. Our data will provide a better understanding of the carcinogenesis of TNBC and could contribute to the development of molecular targets as a treatment for TNBC patients.

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Significant Effect of Polymorphisms in CYP2D6 and ABCC2 on Clinical Outcomes of Adjuvant Tamoxifen Therapy for Breast Cancer Patients

Kiyotani

Mushiroda

Imamura

et al. 2010

JCO

206

204

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A B S T R A C T PurposeThe clinical efficacy of tamoxifen is suspected to be influenced by the activity of drug-metabolizing enzymes and transporters involved in the formation, metabolism, and elimination of its active forms. We investigated relationships of polymorphisms in transporter genes and CYP2D6 to clinical outcome of patients receiving tamoxifen. Patients and MethodsWe studied 282 patients with hormone receptor-positive, invasive breast cancer receiving tamoxifen monotherapy, including 67 patients who have been previously reported. We investigated the effects of allelic variants of CYP2D6 and haplotype-tagging single nucleotide polymorphisms (tag-SNPs) of ABCB1, ABCC2, and ABCG2 on recurrence-free survival using the Kaplan-Meier method and Cox regression analysis. Plasma concentrations of tamoxifen metabolites were measured in 98 patients receiving tamoxifen 20 mg/d. Results CYP2D6variants were significantly associated with shorter recurrence-free survival (P ϭ .000036; hazard ratio [HR] ϭ 9.52; 95% CI, 2.79 to 32.45 in patients with two variant alleles v patients without variant alleles). Among 51 tag-SNPs in transporter genes, a significant association was found at rs3740065 in ABCC2 (P ϭ .00017; HR ϭ 10.64; 95% CI, 1.44 to 78.88 in patients with AA v GG genotypes). The number of risk alleles of CYP2D6 and ABCC2 showed cumulative effects on recurrence-free survival (P ϭ .000000055). Patients carrying four risk alleles had 45.25-fold higher risk compared with patients with Յ one risk allele. CYP2D6 variants were associated with lower plasma levels of endoxifen and 4-hydroxytamoxifen (P ϭ .0000043 and .00052), whereas no significant difference was found among ABCC2 genotype groups. ConclusionOur results suggest that polymorphisms in CYP2D6 and ABCC2 are important predictors for the prognosis of patients with breast cancer treated with tamoxifen.

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Impact of CYP2D610* on recurrence‐free survival in breast cancer patients receiving adjuvant tamoxifen therapy

et al. 2008

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The clinical outcomes of breast cancer patients treated with tamoxifen may be influenced by the activity of cytochrome P450 2D6 (CYP2D6) enzyme because tamixifen is metabolized by CYP2D6 to its active forms of antiestrogenic metabolite, 4-hydroxytamoxifen and endoxifen. We investigated the predictive value of the CYP2D6*10 allele, which decreased CYP2D6 activity, for clinical outcomes of patients that received adjuvant tamoxifen monotherapy after surgical operation on breast cancer. Among 67 patients examined, those homozygous for the CYP2D6*10 alleles revealed a significantly higher incidence of recurrence within 10 years after the operation (P = 0.0057; odds ratio, 16.63; 95% confidence interval, 1.75-158.12), compared with those homozygous for the wild-type CYP2D6*1 alleles. The elevated risk of recurrence seemed to be dependent on the number of CYP2D6*10 alleles (P = 0.0031 for trend). Cox proportional hazard analysis demonstrated that the CYP2D6 genotype and tumor size were independent factors affecting recurrence-free survival. Patients with the CYP2D6*10/*10 genotype showed a significantly shorter recurrence-free survival period (P = 0.036; adjusted hazard ratio, 10.04; 95% confidence interval, 1.17-86.27) compared to patients with CYP2D6*1/*1 after adjustment of other prognosis factors. The present study suggests that the CYP2D6 genotype should be considered when selecting adjuvant hormonal therapy for breast cancer patients. (Cancer Sci 2008; 99: 995-999)

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Targeting BIG3–PHB2 interaction to overcome tamoxifen resistance in breast cancer cells

et al. 2013

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The acquisition of endocrine resistance is a common obstacle in endocrine therapy of patients with oestrogen receptor-α (ERα)-positive breast tumours. We previously demonstrated that the BIG3–PHB2 complex has a crucial role in the modulation of oestrogen/ERα signalling in breast cancer cells. Here we report a cell-permeable peptide inhibitor, called ERAP, that regulates multiple ERα-signalling pathways associated with tamoxifen resistance in breast cancer cells by inhibiting the interaction between BIG3 and PHB2. Intrinsic PHB2 released from BIG3 by ERAP directly binds to both nuclear- and membrane-associated ERα, which leads to the inhibition of multiple ERα-signalling pathways, including genomic and non-genomic ERα activation and ERα phosphorylation, and the growth of ERα-positive breast cancer cells both in vitro and in vivo. More importantly, ERAP treatment suppresses tamoxifen resistance and enhances tamoxifen responsiveness in ERα-positive breast cancer cells. These findings suggest inhibiting the interaction between BIG3 and PHB2 may be a new therapeutic strategy for the treatment of luminal-type breast cancer.

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Mitsunori Sasa

Molecular features of triple negative breast cancer cells by genome-wide gene expression profiling analysis

Significant Effect of Polymorphisms in CYP2D6 and ABCC2 on Clinical Outcomes of Adjuvant Tamoxifen Therapy for Breast Cancer Patients

Impact of CYP2D610* on recurrence‐free survival in breast cancer patients receiving adjuvant tamoxifen therapy

Targeting BIG3–PHB2 interaction to overcome tamoxifen resistance in breast cancer cells

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Mitsunori Sasa

Molecular features of triple negative breast cancer cells by genome-wide gene expression profiling analysis

Significant Effect of Polymorphisms in CYP2D6 and ABCC2 on Clinical Outcomes of Adjuvant Tamoxifen Therapy for Breast Cancer Patients

Impact of CYP2D6*10 on recurrence‐free survival in breast cancer patients receiving adjuvant tamoxifen therapy

Targeting BIG3–PHB2 interaction to overcome tamoxifen resistance in breast cancer cells

Contact Info

Product

Resources

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Impact of CYP2D610* on recurrence‐free survival in breast cancer patients receiving adjuvant tamoxifen therapy