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Mammalian enabled protein enhances tamoxifen sensitivity of the hormone receptor-positive breast cancer patients by suppressing the AKT signaling pathway
Mammalian enabled protein enhances tamoxifen sensitivity of the hormone receptor-positive breast cancer patients by suppressing the AKT signaling pathway
by Ji, Likeng , She, Chuanghong , Deng, Zihao , Wu, Jundong , Jiang, Sen , He, Lifang , Cui, Yukun , Qi, Zhaochang
in Actin / AKT protein / Analysis / Animals / Antineoplastic Agents, Hormonal - pharmacology / Antineoplastic Agents, Hormonal - therapeutic use / Biomarkers / Biomedical and Life Sciences / Breast cancer / Breast Neoplasms - drug therapy / Breast Neoplasms - genetics / Cancer Biology / Care and treatment / Cell Line, Tumor / Chemotherapy / Complications and side effects / Cyclin-dependent kinases / Diagnosis / Down-regulation / Drug resistance / Drug Resistance, Neoplasm - genetics / Enabled protein / Endocrine therapy / Estrogens / Female / Growth rate / HR + breast cancer / Humans / Immunohistochemistry / Kinases / Life Sciences / Mammals / Mammals - metabolism / Medical prognosis / MENA / Mena protein / Metastasis / Mice / Mice, Nude / MicroRNAs / Mortality / Organoid / Organoids / Patient outcomes / Patients / Polymerase chain reaction / Proteins / Proto-Oncogene Proteins c-akt / Receptors / Regression analysis / RNA-directed DNA polymerase / Sensitivity enhancement / Signal Transduction / Survival analysis / Tamoxifen / Tamoxifen - pharmacology / Tamoxifen - therapeutic use / Tumor cell lines / Tumors / Western blotting / Xenografts / Xenotransplantation
2024
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Mammalian enabled protein enhances tamoxifen sensitivity of the hormone receptor-positive breast cancer patients by suppressing the AKT signaling pathway
by Ji, Likeng , She, Chuanghong , Deng, Zihao , Wu, Jundong , Jiang, Sen , He, Lifang , Cui, Yukun , Qi, Zhaochang
in Actin / AKT protein / Analysis / Animals / Antineoplastic Agents, Hormonal - pharmacology / Antineoplastic Agents, Hormonal - therapeutic use / Biomarkers / Biomedical and Life Sciences / Breast cancer / Breast Neoplasms - drug therapy / Breast Neoplasms - genetics / Cancer Biology / Care and treatment / Cell Line, Tumor / Chemotherapy / Complications and side effects / Cyclin-dependent kinases / Diagnosis / Down-regulation / Drug resistance / Drug Resistance, Neoplasm - genetics / Enabled protein / Endocrine therapy / Estrogens / Female / Growth rate / HR + breast cancer / Humans / Immunohistochemistry / Kinases / Life Sciences / Mammals / Mammals - metabolism / Medical prognosis / MENA / Mena protein / Metastasis / Mice / Mice, Nude / MicroRNAs / Mortality / Organoid / Organoids / Patient outcomes / Patients / Polymerase chain reaction / Proteins / Proto-Oncogene Proteins c-akt / Receptors / Regression analysis / RNA-directed DNA polymerase / Sensitivity enhancement / Signal Transduction / Survival analysis / Tamoxifen / Tamoxifen - pharmacology / Tamoxifen - therapeutic use / Tumor cell lines / Tumors / Western blotting / Xenografts / Xenotransplantation
2024
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Mammalian enabled protein enhances tamoxifen sensitivity of the hormone receptor-positive breast cancer patients by suppressing the AKT signaling pathway
Mammalian enabled protein enhances tamoxifen sensitivity of the hormone receptor-positive breast cancer patients by suppressing the AKT signaling pathway
by Ji, Likeng , She, Chuanghong , Deng, Zihao , Wu, Jundong , Jiang, Sen , He, Lifang , Cui, Yukun , Qi, Zhaochang
in Actin / AKT protein / Analysis / Animals / Antineoplastic Agents, Hormonal - pharmacology / Antineoplastic Agents, Hormonal - therapeutic use / Biomarkers / Biomedical and Life Sciences / Breast cancer / Breast Neoplasms - drug therapy / Breast Neoplasms - genetics / Cancer Biology / Care and treatment / Cell Line, Tumor / Chemotherapy / Complications and side effects / Cyclin-dependent kinases / Diagnosis / Down-regulation / Drug resistance / Drug Resistance, Neoplasm - genetics / Enabled protein / Endocrine therapy / Estrogens / Female / Growth rate / HR + breast cancer / Humans / Immunohistochemistry / Kinases / Life Sciences / Mammals / Mammals - metabolism / Medical prognosis / MENA / Mena protein / Metastasis / Mice / Mice, Nude / MicroRNAs / Mortality / Organoid / Organoids / Patient outcomes / Patients / Polymerase chain reaction / Proteins / Proto-Oncogene Proteins c-akt / Receptors / Regression analysis / RNA-directed DNA polymerase / Sensitivity enhancement / Signal Transduction / Survival analysis / Tamoxifen / Tamoxifen - pharmacology / Tamoxifen - therapeutic use / Tumor cell lines / Tumors / Western blotting / Xenografts / Xenotransplantation
2024

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Mammalian enabled protein enhances tamoxifen sensitivity of the hormone receptor-positive breast cancer patients by suppressing the AKT signaling pathway
Mammalian enabled protein enhances tamoxifen sensitivity of the hormone receptor-positive breast cancer patients by suppressing the AKT signaling pathway
Journal Article

Mammalian enabled protein enhances tamoxifen sensitivity of the hormone receptor-positive breast cancer patients by suppressing the AKT signaling pathway

Ji, Likeng,
She, Chuanghong,
Deng, Zihao,
Wu, Jundong,
Jiang, Sen,
He, Lifang,
Cui, Yukun,
Qi, Zhaochang
2024
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Overview
Background Mammalian enabled (MENA) protein is a member of the enabled/vasodilator stimulated phosphoprotein (Ena/VASP) protein family, which regulates cytoplasmic actin network assembly. It plays a significant role in breast cancer invasion, migration, and resistance against targeted therapy and chemotherapy. However, its role in the efficacy of endocrine therapy for the hormone receptor-positive (HR + ) breast cancer patients is not known. This study investigated the role of MENA in the resistance against tamoxifen therapy in patients with HR + breast cancer and the underlying mechanisms. Methods MENA expression levels in the clinical HR + breast cancer samples (n = 119) were estimated using immunohistochemistry (IHC) to determine its association with the clinicopathological features, tamoxifen resistance, and survival outcomes. Western blotting (WB) and quantitative reverse transcriptase polymerase chain reaction (qRT-PCR) analysis was performed to estimate the MENA protein and mRNA levels in the tamoxifen-sensitive and -resistant HR + breast cancer cell lines. Furthermore, CCK8, colony formation, and the transwell invasion and migration assays were used to analyze the effects of MENA knockdown on the biological behavior and tamoxifen sensitivity of the HR + breast cancer cell lines. Xenograft tumor experiments were performed in the nude mice to determine the tumor growth rates and tamoxifen sensitivity of the control and MENA knockdown HR + breast cancer cells in the presence and absence of tamoxifen treatment. Furthermore, we estimated the growth rates of organoids derived from the HR + breast cancer patients (n = 10) with high and low MENA expression levels when treated with tamoxifen. Results HR + breast cancer patients with low MENA expression demonstrated tamoxifen resistance and poorer prognosis compared to those with high MENA expression. Univariate and multivariate Cox regression analysis demonstrated that MENA expression was an independent predictor of tamoxifen resistance in patients with HR + breast cancer. MENA knockdown HR + breast cancer cells showed significantly reduced tamoxifen sensitivity in the in vitro experiments and the in vivo xenograft tumor mouse model compared with the corresponding controls. Furthermore, MENA knockdown increased the in vitro invasion and migration of the HR + breast cancer cells. HR + breast cancer organoids with low MENA expression demonstrated reduced tamoxifen sensitivity than those with higher MENA expression. Mechanistically, P-AKT levels were significantly upregulated in the MENA-knockdown HR + breast cancer cells treated with or without 4-OHT compared with the corresponding controls. Conclusions This study demonstrated that downregulation of MENA promoted tamoxifen resistance in the HR + breast cancer tissues and cells by enhancing the AKT signaling pathway. Therefore, MENA is a promising prediction biomarker for determining tamoxifen sensitivity in patients with HR + breast cancer.
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Publisher
BioMed Central,BioMed Central Ltd,Springer Nature B.V,BMC
Subject

Actin

/ AKT protein

/ Analysis

/ Animals

/ Antineoplastic Agents, Hormonal - pharmacology

/ Antineoplastic Agents, Hormonal - therapeutic use

/ Biomarkers

/ Biomedical and Life Sciences

/ Breast cancer

/ Breast Neoplasms - drug therapy

/ Breast Neoplasms - genetics

/ Cancer Biology

/ Care and treatment

/ Cell Line, Tumor

/ Chemotherapy

/ Complications and side effects

/ Cyclin-dependent kinases

/ Diagnosis

/ Down-regulation

/ Drug resistance

/ Drug Resistance, Neoplasm - genetics

/ Enabled protein

/ Endocrine therapy

/ Estrogens

/ Female

/ Growth rate

/ HR + breast cancer

/ Humans

/ Immunohistochemistry

/ Kinases

/ Life Sciences

/ Mammals

/ Mammals - metabolism

/ Medical prognosis

/ MENA

/ Mena protein

/ Metastasis

/ Mice

/ Mice, Nude

/ MicroRNAs

/ Mortality

/ Organoid

/ Organoids

/ Patient outcomes

/ Patients

/ Polymerase chain reaction

/ Proteins

/ Proto-Oncogene Proteins c-akt

/ Receptors

/ Regression analysis

/ RNA-directed DNA polymerase

/ Sensitivity enhancement

/ Signal Transduction

/ Survival analysis

/ Tamoxifen

/ Tamoxifen - pharmacology

/ Tamoxifen - therapeutic use

/ Tumor cell lines

/ Tumors

/ Western blotting

/ Xenografts

/ Xenotransplantation

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