Shoya Shiromizu scite author profile

Shoya Shiromizu

5Publications

31Citation Statements Received

92Citation Statements Given

How they've been cited

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145

Affiliations

Okayama University Hospital, Kyushu University

Publications

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Different Roles of Negative and Positive Components of the Circadian Clock in Oncogene-induced Neoplastic Transformation

Katamune

Koyanagi

Shiromizu

et al. 2016

Journal of Biological Chemistry

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In mammals, circadian rhythms in physiological function are generated by a molecular oscillator driven by transcriptionaltranslational feedback loop consisting of negative and positive regulators. Disruption of this circadian clock machinery is thought to increase the risk of cancer development, but the potential contributions of each component of circadian clock to oncogenesis have been little explored. Here we reported that negative and positive transcriptional regulators of circadian feedback loop had different roles in oncogene-induced neoplastic transformation. Mouse embryonic fibroblasts prepared from animals deficient in negative circadian clock regulators, Period2 (Per2) or Cryptochrome1/2 (Cry1/2), were prone to transformation induced by co-expression of H-ras V12 and SV40 large T antigen (SV40LT). In contrast, mouse embryonic fibroblasts prepared from mice deficient in positive circadian clock regulators, Bmal1 or Clock, showed resistance to oncogene-induced transformation. In Per2 mutant and Cry1/2-null cells, the introduction of oncogenes induced expression of ATF4, a potent repressor of cell senescence-associated proteins p16INK4a and p19ARF. Elevated levels of ATF4 were sufficient to suppress expression of these proteins and drive oncogenic transformation. Conversely, in Bmal1-null and Clock mutant cells, the expression of ATF4 was not induced by oncogene introduction, which allowed constitutive expression of p16INK4a and p19ARF triggering cellular senescence. Although genetic ablation of either negative or positive transcriptional regulators of the circadian clock leads to disrupted rhythms in physiological functions, our findings define their different contributions to neoplastic cellular transformation.

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Optimizing the dosing schedule of l-asparaginase improves its anti-tumor activity in breast tumor-bearing mice

Shiromizu

Naoki

Matsumoto

et al. 2018

Journal of Pharmacological Sciences

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Proliferation of acute lymphoblastic leukemic cells is nutritionally dependent on the external supply of asparagine. l-asparaginase, an enzyme hydrolyzing l-asparagine in blood, is used for treatment of acute lymphoblastic leukemic and other related blood cancers. Although previous studies demonstrated that l-asparaginase suppresses the proliferation of cultured solid tumor cells, it remains unclear whether this enzyme prevents the growth of solid tumors in vivo. In this study, we demonstrated the importance of optimizing dosing schedules for the anti-tumor activity of l-asparaginase in 4T1 breast tumor-bearing mice. Cultures of several types of murine solid tumor cells were dependent on the external supply of asparagine. Among them, we selected murine 4T1 breast cancer cells and implanted them into BALB/c female mice kept under standardized light/dark cycle conditions. The growth of 4T1 tumor cells implanted in mice was significantly suppressed by intravenous administration of l-asparaginase during the light phase, whereas its administration during the dark phase failed to show significant anti-tumor activity. Decreases in plasma asparagine levels due to the administration of l-asparaginase were closely related to the dosing time-dependency of its anti-tumor effects. These results suggest that the anti-tumor efficacy of l-asparaginase in breast tumor-bearing mice is improved by optimizing the dosing schedule.

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Dosing Time-Dependent Changes in the Anti-tumor Effect of xCT Inhibitor Erastin in Human Breast Cancer Xenograft Mice

Shiromizu

Yamauchi

Naoki

et al. 2019

Biological & Pharmaceutical Bulletin

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Growth of cancer cells is more highly dependent on various types of amino acids than that of normal cells, and thus prevention of amino acid requirement has been recognized as strategies for cancer therapies. In this study, we found that deprivation of cysteine (Cys) in culturing media prevented the growth of various types of human cancer cell lines. Cys is easily converted to cystine (Cys-Cys) in media and uptaken into cells by cystine/glutamate transporter (xCT). The incorporated Cys-Cys is decomposed into Cys, and used for synthesis of glutathione that suppresses reactive oxygen species-induced cell damage. Therefore, we examined whether a selective xCT inhibitor erastin prevented the growth of human cancer cell lines. As a result, erastin significantly prevented the proliferation of various types of human cancer cells. Among them, MDA-MB-231 breast cancer cells were identified as the most erastin-sensitive cells. To investigate the ability of erastin to prevent growth of tumor in mice, MDA-MB-231 breast cancer cells were implanted into BALB/c nude female mice kept under standardized light/dark cycle conditions. The growth of tumor implanted in mice was significantly suppressed by administration of erastin during the light phase, whereas its administration during the dark phase failed to suppress the tumor growth. The dosing time-dependency of erastin-induced cystine/ cysteine deprivation was closely related to that of its anti-tumor effects. Our present findings suggest that the anti-tumor efficacy of erastin in tumor-bearing mice is improved by optimizing the dosing schedule.

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Anxiolytic-like effects of hochuekkito in lipopolysaccharide-treated mice involve interleukin-6 inhibition

et al. 2022

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Hochuekkito (HET) is a Kampo medicine used to treat postoperative and post-illness general malaise and decreased motivation. HET is known to regulate immunity and modulate inflammation. However, the precise mechanism and effects of HET on inflammation-induced central nervous system disorders remain unclear. This study aimed to assess the effect of HET on inflammation-induced anxiety-like behavior and the mechanism underlying anxiety-like behavior induced by lipopolysaccharide (LPS). Institute of Cancer Research mice were treated with LPS (300 μg/kg, intraperitoneally), a bacterial endotoxin, to induce systemic inflammation. The mice were administered HET (1.0 g/kg, orally) once a day for 2 weeks before LPS treatment. The light-dark box test and the hole-board test were performed 24 h after the LPS injection to evaluate the effects of HET on anxiety-like behaviors. Serum samples were obtained at 2, 5, and 24 h after LPS injection, and interleukin-6 (IL-6) levels in serum were measured. Human and mouse macrophage cells (THP-1 and RAW264.7 cells, respectively) were used to investigate the effect of HET on LPS-induced IL-6 secretion. The repeated administration of HET prevented anxiety-like behavior and decreased serum IL-6 levels in LPS-treated mice. HET significantly suppressed LPS-induced IL-6 secretion in RAW264.7 and THP-1 cells. Similarly, glycyrrhizin, one of the chemical constituents of HET, suppressed LPS-induced anxiety-like behaviors. Our study revealed that HET ameliorated LPS-induced anxiety-like behavior and inhibited IL-6 release in vivo and in vitro. Therefore, we postulate that HET may be useful against inflammation-induced anxiety-like behavior.

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Epithelial cell adhesion molecule expression in hepatic stem/progenitor cells is controlled by the molecular clock system

Kimura

Matsumoto

Kakimoto

et al. 2018

Biochemical and Biophysical Research Communications

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Shoya Shiromizu

Different Roles of Negative and Positive Components of the Circadian Clock in Oncogene-induced Neoplastic Transformation

Optimizing the dosing schedule of l-asparaginase improves its anti-tumor activity in breast tumor-bearing mice

Dosing Time-Dependent Changes in the Anti-tumor Effect of xCT Inhibitor Erastin in Human Breast Cancer Xenograft Mice

Anxiolytic-like effects of hochuekkito in lipopolysaccharide-treated mice involve interleukin-6 inhibition

Epithelial cell adhesion molecule expression in hepatic stem/progenitor cells is controlled by the molecular clock system

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