Kensuke Hirata scite author profile

Epithelial-to-mesenchymal transition (EMT) is an important process during embryonic development and tumor progression by which adherent epithelial cells acquire mesenchymal properties. Forkhead box protein A1 (FOXA1) is a transcriptional regulator preferentially expressed in epithelial breast cancer cells, and its expression is lost in mesenchymal breast cancer cells. However, the implication of this biased expression of FOXA1 in breast cancer is not fully understood. In this study, we analyzed the involvement of FOXA1 in EMT progression in breast cancer, and found that stable expression of FOXA1 in the mesenchymal breast cancer MDA-MB-231 cells strongly induced the epithelial marker E-cadherin at the mRNA and protein levels. Furthermore, stable expression of FOXA1 was found to reduce the mRNA and protein expression of Slug, a repressor of E-cadherin expression. FOXA1 knockdown in the epithelial breast cancer MCF7 cells reduced E-cadherin protein expression without decreasing its mRNA expression. In addition, FOXA1 knockdown in MCF7 cells up-regulated Slug mRNA and protein expression. Notably, similar to FOXA1 knockdown, stable expression of Slug in MCF7 cells reduced E-cadherin protein expression without decreasing its mRNA expression. Taken together, these results suggest that although FOXA1 can induce E-cadherin mRNA expression, it preferentially promotes E-cadherin expression at the protein level by suppressing Slug expression in epithelial breast cancer, and that the balance of this FOXA1-Slug axis regulates EMT progression.Key words epithelial-mesenchymal transition; E-cadherin; forkhead box protein A1; Slug; estrogen receptor Epithelial-to-mesenchymal transition (EMT) is a process that converts adherent epithelial cells to motile mesenchymal cells during embryonic development. 1) EMT is also involved in tumor progression through inducing metastasis and chemoresistance in tumor cells.2-4) Therefore, a better understanding of the molecular mechanisms underlying EMT in tumor cells is beneficial for development of novel antitumor agents.E-Cadherin is a crucial protein that mediates cell-cell adhesion in epithelial cells.1) E-Cadherin expression is dramatically reduced during EMT, which causes loss of cell-cell adhesion and gain of cell motility. Reduction in E-cadherin expression is mainly caused by the transcriptional repressors of E-cadherin gene (CDH1).2,5) A major transcriptional repressor of CDH1 is the zinc finger factor Slug. Slug binds to the E-box sequences present in the enhancer region of CDH1 and represses its expression. 6)Forkhead box A1 (FOXA1) is a member of the forkhead box family of transcription factors. FOXA1 contains the forkhead DNA-binding domain and the N-and C-terminal transactivation domains.7) FOXA1 regulates expression of many genes involved in the development of various tissues, including mammary gland, liver, midbrain, and lung. 8) FOXA1 is also known to function as a chromatin remodeling factor that opens closed chromatin and facilitates the recruitment of other transcription fa...

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c‐Abl induces stabilization of histone deacetylase 1 (HDAC1) in a kinase activity‐dependent manner

Aoyama

Yamaguchi

Yuki

et al. 2015

Cell Biology International

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c-Abl is a non-receptor-type tyrosine kinase that regulates various cellular events, including cell proliferation, differentiation, and apoptosis, through phosphorylation of cytoplasmic and nuclear targets. Although we showed that c-Abl induces histone deacetylation, the molecular mechanisms of this phenomenon are largely unknown. Here, we analyzed the effect of c-Abl on the expression of histone deacetylase 1 (HDAC1), because c-Abl was shown to be involved in maintenance of nuclear protein levels of HDAC1. Co-transfection of HDAC1 with c-Abl increased the levels of HDAC1 protein in a kinase activity-dependent manner without affecting its mRNA levels. Treatment with the proteasome inhibitor MG132 increased protein levels of HDAC1 in cells transfected with HDAC1 but not in cells co-transfected with HDAC1 and c-Abl. Among class I HDACs, knockdown of endogenous c-Abl preferentially suppressed endogenous protein levels of HDAC1, suggesting that c-Abl stabilizes HDAC1 protein by inhibiting its proteasomal degradation. Subcellular fractionation showed that the stabilization of HDAC1 by c-Abl occurred in the nucleus. Despite the fact that HDAC1 was phosphorylated by co-expression with c-Abl, stabilization of HDAC1 by c-Abl was not affected by mutations in its sites phosphorylated by c-Abl. Co-expression with HDAC1 and nuclear-targeted c-Abl did not affect HDAC1 stabilization. Therefore, these results suggest that c-Abl induces HDAC1 stabilization possibly through phosphorylation of a cytoplasmic target that is involved in proteasomal degradation of HDAC1.

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Forkhead box protein A1 confers resistance to transforming growth factor‐β‐induced apoptosis in breast cancer cells through inhibition of Smad3 nuclear translocation

Hirata

Takakura

Shibazaki

et al. 2018

J of Cellular Biochemistry

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Transforming growth factor-β (TGF-β) induces apoptosis of normal epithelial cells, such as mammary epithelium. Although breast cancer progression associates with acquisition of resistance to TGF-β-induced apoptosis, the molecular mechanisms underlying this resistance are largely unknown. Here, we show that forkhead box protein A1 (FOXA1), which is known as a pioneer transcription factor, suppresses TGF-β-induced apoptosis of estrogen receptor-positive breast cancer cells. FOXA1 is found to inhibit nuclear translocation of Smad3, a key transcription factor downstream of TGF-β signaling, through suppression of the binding of Smad3 to the nuclear import receptor importin7. Furthermore, RNA sequencing analyses show that knockdown of FOXA1 upregulates Smad3-mediated proapoptotic gene expression. These results demonstrate that FOXA1 as a potent survival factor that suppresses TGF-β-induced apoptosis by inhibiting Smad3 signaling in estrogen receptor-positive breast cancer cells. Thus, we provide evidence for the first time that FOXA1 localizing to the cytoplasm negatively regulates Smad3-induced apoptosis in TGF-β-mediated signal transduction.

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Development of a Tomato Harvesting Robot for Farm Field

Oda

Fukumoto

Hirata

et al. 2023

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The 9th Tomato Harvesting Robot Competition was held at the green house in Kitakyushu Science and Research Park. The competition consisted of two leagues for different field areas: rail-style for greenhouses and free-style for open fields. Our team competed in the free-style league. Participation in the free-style category required the following: tomato harvesting mechanism; mobility mechanism to move on the rough terrain; camera to photograph tomato; and self-location system. We developed a 3-axis cartesian coordinates manipulator tomato harvesting robot using crawler to move on soil and using suction and cutting to harvest the tomatoes. In this paper, we described the system architecture of tomato harvesting robot and the results of 9th Tomato Harvesting Robot Competition in 2022.

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Src-mediated tyrosine phosphorylation of PRC1 and kinastrin/SKAP on the mitotic spindle

Morii

Kubota

Hasegawa

et al. 2021

Sci Rep

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Src-family tyrosine kinases (SFKs) play important roles in a number of signal transduction events during mitosis, such as spindle formation. A relationship has been reported between SFKs and the mitotic spindle; however, the underlying mechanisms remain unclear. We herein demonstrated that SFKs accumulated in the centrosome region at the onset of mitosis. Centrosomal Fyn increased in the G2 phase in a microtubule polymerization-dependent manner. A mass spectrometry analysis using mitotic spindle preparations was performed to identify tyrosine-phosphorylated substrates. Protein regulator of cytokinesis 1 (PRC1) and kinastrin/small kinetochore-associated protein (kinastrin/SKAP) were identified as SFK substrates. SFKs mainly phosphorylated PRC1 at Tyr-464 and kinastrin at Tyr-87. Although wild-type PRC1 is associated with microtubules, phosphomimetic PRC1 impaired the ability to bind microtubules. Phosphomimetic kinastrin at Tyr-87 also impaired binding with microtubules. Collectively, these results suggest that tyrosine phosphorylation of PRC1 and kinastrin plays a role in their delocalization from microtubules during mitosis.

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Kensuke Hirata

FOXA1 Induces E-Cadherin Expression at the Protein Level <i>via</i> Suppression of Slug in Epithelial Breast Cancer Cells

c‐Abl induces stabilization of histone deacetylase 1 (HDAC1) in a kinase activity‐dependent manner

Forkhead box protein A1 confers resistance to transforming growth factor‐β‐induced apoptosis in breast cancer cells through inhibition of Smad3 nuclear translocation

Development of a Tomato Harvesting Robot for Farm Field

Src-mediated tyrosine phosphorylation of PRC1 and kinastrin/SKAP on the mitotic spindle

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