Mami Arai scite author profile

Mami Arai

4Publications

61Citation Statements Received

41Citation Statements Given

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Affiliations

Osaka Medical and Pharmaceutical University, The University of Tokyo, Tokyo University of Science

Publications

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Generation of Germline-Competent Rat Induced Pluripotent Stem Cells

et al. 2011

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BackgroundRecent progress in rat pluripotent stem cell technology has been remarkable. Particularly salient is the demonstration that embryonic stem cells (ESCs) in the rat (rESCs) can contribute to germline transmission, permitting generation of gene-modified rats as is now done using mouse ESCs (mESCs) or mouse induced pluripotent stem cells (iPSCs; miPSCs). However, determinations of whether rat iPSCs (riPSCs) can contribute to germ cells are not published. Here we report the germline competency of riPSCs.Methodology/Principal FindingsWe generated riPSCs by transducing three mouse reprogramming factors (Oct3/4, Klf4, and Sox2) into rat somatic cells, followed by culture in the presence of exogenous rat leukemia inhibitory factor (rLIF) and small molecules that specifically inhibit GSK3, MEK, and FGF receptor tyrosine kinases. We found that, like rESCs, our riPSCs can contribute to germline transmission. Furthermore we found, by immunostaining of testis from mouse-rat interspecific chimeras with antibody against mouse vasa homolog, that riPSCs can contribute to embryonic development with chimera formation in mice (rat-mouse interspecific chimeras) and to interspecific germlines.Conclusions/SignificanceOur data clearly demonstrate that using only three reprogramming factors (Oct3/4, Klf4, and Sox2) rat somatic cells can be reprogrammed into a ground state. Our generated riPSCs exhibited germline transmission in either rat-rat intraspecific or mouse-rat interspecific chimeras.

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ATP Hydrolytic Activity of an Iron-Stimulated P-type ATPase of Mouse Liver Microsomes

Takeda

Soeda²,

Arai³

et al. 2000

J UOEH

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Improved diagnosis of the number of stenosed coronary artery vessels by segmentation with scatter and photo-peak window data for attenuation correction in myocardial perfusion SPECT

Yamauchi

Kanzaki

Hayashi

et al. 2019

Journal of Nuclear Cardiology

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Abstract 12020: Heterogeneity and Plasticity of Cardiac Fibroblasts Governing Reparative Lymphangiogenesis After Myocardial Infarction: A New Therapeutic Approach for Heart Failure

Matsuoka¹,

Segard²,

Imamura³

et al. 2021

Circulation

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Introduction: Cardiac lymphangiogenesis has attracted attention as a therapeutic target after myocardial infarction (MI). Lymphangiogenic remodeling has been observed after MI in adult and fetal hearts; however, reparative lymphangiogenic remodeling is only observed in fetal hearts. The factors that determine the fate of this phenomenon have not been fully elucidated. Hypothesis: We demonstrated that a specific population of VCAM1 + human fetal cardiac fibroblasts (fCFs) restore cardiac function post-MI by lymphangiogenesis. Thus, we hypothesize that adult cardiac fibroblasts (aCFs), compared to fCFs, possess a different distribution of fibroblasts with differing lymphangiogenic potential. Furthermore, we also hypothesize that aCFs can be exogenously manipulated to acquire fCFs-like reparative lymphangiogenic potential, which can be used as a cell therapy for heart failure. Methods: Flow cytometry assessed CD90 and VCAM1 expression of aCFs and fCFs. To shift aCFs towards a fCF phenotype, TNF-α and IL-4 were added to culture medium. aCF subpopulations were intramyocardially injected in nude rats and swine post-MI with subsequent echocardiography. Myocardial tissue staining (Sirius Red, LYVE1) and RNA-seq were performed to identify the molecular mechanism. Results: aCFs and fCFs exhibited different distributions of CD90 and VCAM1 expression, where aCFs showed lower CD90 and VCAM1 expression. The addition of TNF-α and IL-4 shifted the localization of VCAM1 + aCFs towards a fCF distribution by activation of NF-κB. VCAM1 + CD90 + fCFs-like aCFs provided a sustained improvement in left ventricular ejection fraction and showed reduced fibrosis and increased lymphangiogenesis. This effect was recapitulated in a large animal model. In terms of the molecular mechanism, 13 candidate genes were identified. Conclusions: These findings suggest that the heterogenous and plastic polarity of aCFs and fCFs determines the fate of the lymphangiogenic response after MI and that this response can be regulated by 13 genes. This artificial creation of the VCAM1 + fCFs-like fibroblast environment after MI has enabled a clinical trial for a new cell therapy for inducing reparative lymphangiogenesis (clinical trial ID: jRCT2033210078).

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Mami Arai

Generation of Germline-Competent Rat Induced Pluripotent Stem Cells

ATP Hydrolytic Activity of an Iron-Stimulated P-type ATPase of Mouse Liver Microsomes

Improved diagnosis of the number of stenosed coronary artery vessels by segmentation with scatter and photo-peak window data for attenuation correction in myocardial perfusion SPECT

Abstract 12020: Heterogeneity and Plasticity of Cardiac Fibroblasts Governing Reparative Lymphangiogenesis After Myocardial Infarction: A New Therapeutic Approach for Heart Failure

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