Kouki Kamizaki scite author profile

Kouki Kamizaki

2Publications

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Tottori University

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The estrogen receptor β-PI3K/Akt pathway mediates the cytoprotective effects of tocotrienol in a cellular Parkinson's disease model

Nakaso

Tajima

Horikoshi

et al. 2014

Biochimica et Biophysica Acta (BBA) - Molecular Basis of Diseas

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Tocotrienols (T3s) are members of the vitamin E family, have antioxidant properties, and are promising candidates for neuroprotection in the pathogenesis of neurodegenerative disorders such as Parkinson's disease (PD). However, whether their antioxidant capacities are required for their cytoprotective activity remains unclear. In this regard, the antioxidant-independent cytoprotective activity of T3s has received considerable attention. Here, we investigated the signaling pathways that are induced during T3-dependent cytoprotection of human neuroblastoma SH-SY5Y cells, as these cells are used to model certain elements of PD. T3s were cytoprotective against 1-methyl-4-phenylpyridinium ion (MPP(+)) and other PD-related toxicities. γT3 and δT3 treatments led to marked activation of the PI3K/Akt signaling pathway. Furthermore, we identified estrogen receptor (ER) β as an upstream mediator of PI3K/Akt signaling following γT3/δT3 stimulation. Highly purified γT3/δT3 bound to ERβ directly in vitro, and knockdown of ERβ in SH-SY5Y cells abrogated both γT3/δT3-dependent cytoprotection and Akt phosphorylation. Since membrane-bound ERβ was important for the signal-related cytoprotective effects of γT3/δT3, we investigated receptor-mediated caveola formation as a candidate for the early events of signal transduction. Knockdown of caveolin-1 and/or caveolin-2 prevented the cytoprotective effects of γT3/δT3, but did not affect Akt phosphorylation. This finding suggests that T3s and, in particular, γT3/δT3, exhibit not only antioxidant effects but also a receptor signal-mediated protective action following ERβ/PI3K/Akt signaling. Furthermore, receptor-mediated caveola formation is an important event during the early steps following T3 treatment.

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α‐Tocopherol promotes HaCaT keratinocyte wound repair through the regulation of polarity proteins leading to the polarized cell migration

et al. 2018

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In many developed countries including Japan, how to care the bedridden elderly people with chronic wounds such as decubitus becomes one of the most concerned issues. Although antioxidant micronutrients including vitamin E, especially α-tocopherol (α-Toc), are reported to shorten a period of wound closure, the promoting effect of α-Toc on wound healing independent of its antioxidant activity remains to be fully elucidated. The aim of this study was to examine whether α-Toc affects wound-mediated HaCaT keratinocyte polarization process including the recruitment of polarity regulating proteins, leading to wound repair independently of its antioxidant activity. We investigated the effects of α-Toc and other antioxidants such as Trolox, a cell-permeable α-Toc analog on the migration, proliferation, and cell polarization of HaCaT keratinocytes after wounding. We analyzed the localization and complex formation of polarity proteins, partitioning defective 3 (Par3), and atypical protein kinase C (aPKC), and aPKC activity by immunohistochemistry, immunoprecipitation analyses, and in vitro kinase assays, respectively. α-Toc but not other antioxidants enhanced the wound closure and cell polarization in HaCaT keratinocytes after wounding. α-Toc regulated the localization and complex formation of Par3 and aPKC during wound healing. Knockdown of aPKC or Par3 abrogated α-Toc-mediated promotion of the wound closure and cell polarization in HaCaT keratinocytes. Furthermore, aPKC kinase activity was significantly increased in α-Toc-treated cells through activation of phosphatidylinositol 3-kinase/Akt signaling pathway. These results suggest that α-Toc promotes HaCaT keratinocyte wound repair by regulating the aPKC kinase activity and the formation of aPKC-Par3 complex. © 2017 BioFactors, 44(2):180-191, 2018.

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Kouki Kamizaki

The estrogen receptor β-PI3K/Akt pathway mediates the cytoprotective effects of tocotrienol in a cellular Parkinson's disease model

α‐Tocopherol promotes HaCaT keratinocyte wound repair through the regulation of polarity proteins leading to the polarized cell migration

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