日本大学松戸歯学部生理学講座
Department of Physiology, Nihon University School of Dentistry at Matsudo
原著論文
2024年
Decline in stimulus responsiveness of secretory granules in salivary glands with age. Toda M, Yokoyama M, Katsumata-Kato O, Fujita-Yoshigaki J. J Oral Biosci, 2024, 100583.
2023年
The secretory ability of newly formed secretory granules is regulated by pro-cathepsin B and amylase in parotid glands. (2023) Katsumata-Kato O, Yokoyama M, Fujita-Yoshigaki J. Biochem Biophys Res Commun, 666: 45-51. doi: 10.1016/j.bbrc.2023.05.020
BMP‑1‑induced GBA1 nuclear accumulation provokes CCN2 mRNA expression via importin‑β‑mediated nucleocytoplasmic pathway. (2023) Muromachi K, Nakano R, Fujita‑Yoshigaki J, Sugiya H, Tani‑Ishii N. J Cell Commun Signal, doi:10.1007/s12079-023-00740-3
Acinar cell proliferation promoted by BMP2 in injured mouse parotid gland: BMP2 promotes cell proliferation in parotid gland. (2023) Yokoyama M, Katsumata-Kato O, Fujita-Yoshigaki J. Int J Dent, doi: 10.1155/2023/1765317
2020年
片側の唾液腺傷害に伴う健常側唾液腺における幹細胞マーカーnestinの発現(2020) 横山愛,加藤治,吉垣純子,日大口腔科学,46:1-5
Hematogenous apoptotic mechanism in salivary glands in chronic periodontitis. (2020) Shikayama T, Fujita-Yoshigaki J, Sago-Ito M, Nakamura-Kiyama M, Naniwa M, Hitomi S, Ujihara I, Kataoka S, Yada N, Ariyoshi W, Usui M, Nakashima K, Ono K. Arch Oral Biol, 117: 104775
Switching of cargo sorting from the constitutive to regulated secretory pathway by the addition of cystatin D sequence in salivary acinar cells. (2020) Fujita-Yoshigaki J, Yokoyama M, Katsumata-Kato O. Am J Physiol-Gastrointest Liver Physiol, 319: G74-G86
2019年
Change in expression patterns of micro RNAs in the primary culture of parotid acinar cells. (2019) Ogawa H, Yokoyama M, Katsumata-Kato O, Fujita-Yoshigaki J. Int J Oral-Med Sci, 17: 120-128
Difference in calcium mobilization between two strains of mice that have different abilities to secrete saliva. (2019) Sakurai H, Yokoyama M, Katsumata-Kato O, Fujita-Yoshigaki J. Int J Oral-Med Sci, 18: 45-50
Suppression of parotid acinar cell dysfunction by the free radical scavenger 3-methyl-1-phenyl-2-pyrazolin-5-one. (2019) Sakurai H, Yokoyama M, Katasumata-Kato O, Fujita-Yoshigaki J. J Oral Sci, 61:475-480
2017年
Expression of a neural stem/progenitor cell marker nestin in salivary glands. (2017) Yokoyama M, Katsumata-Kato O, Fujita-Yoshigaki J. MOJ Anatomy & Physiology, 4: 00133
Maintenance of claudin-3 expression and barrieer functions of intercellular junctions in parotid acinar cells via the inhibition of Src signaling. (2017) Yokoyama M, Narita T, Sakurai H, Katsumata-Kato O, Sugiya H, Fujita-Yoshigaki J. Arch Oral Biol, 81: 141-150
Expression of the stem cell marker nestin in response to tissue injuries of parotid acinar cells. (2017) Yokoyama M, Ogawa H, Katsumata-Kato O, Fujita-Yoshigaki J. Int J Oral-Med sci, 15: 93-97
Syntaxin 6 is involved in the maintenance of secretory granules in parotid acinar cells. (2017) Yokoyama M, Katsumata-Kato O, Fujita-Yoshigaki J. Int J Oral-Med Sci, 15: 67-73
耳下腺腺房細胞の初代培養細胞における遺伝子発現変化の網羅的解析 (2017) 横山愛,加藤治,吉垣純子,日大口腔科学,43: 21-26
2016年
Involvement of myristoylated alanine-rich C kinase substrate phosphorylation and translocation in cholecystokinin-induced amylase release in rat pancreatic acini. (2016) Satoh K, Narita T, Katsumata-Kato O, Sugiya H, Seo Y. Am J Physiol Gastrointest Liver Physiol, 310: G399-G409
Enhancement of Src family kinase activity is essential for p38 MAP kinase-mediated dedifferentiation signal of parotid acinar cells. (2016) Moriyama S, Yokoyama M, Katsumata-Kato O. Int J Oral-Med-Sci, 14: 33-40
2015年
Secretory proteins without a transport signal are retained in secretory granules during maturation in rat parotid acinar cells. (2015) Katsumata-Kato O, Yokoyama M, Matsuki-Fukushima M, Narita T, Sugiya H, Fujita-Yoshigaki J. Arch Oral Biol, 60: 642-649
MC3T3-E1 cell assay on collagen or fibronectin immobilized poly(lactiv acid-e-caprolactone) flim. (2015) Fuse M, Hayakawa T, Hashizume-Takizawa T, Takeuchi R, Kurita-Ochiai T, Fujita-Yoshigaki J, Fukumoto M. J Hard Tissue Biol, 24: 249-256
2014年
Tissue injury-induced reactive oxygen species cause dysfunction of parotid acinar cells via Erk-novel PKC activation. (2014) Inoue D, Yokoyama M, Katsumata-Kato O. Int J Oral-Med Sci, 13: 6-11
2013年
Histological observation of the palate in Alligator mississippiensis. (2013) Yamazaki T, Yokoyama M, Fujisaki M, Moriguchi M, Miake Y, Sawada T, Sohn W, Kim J, Yamamoto H. J Hard Tissue Biol, 22:455-460
Involvement of AQP6 in the mercury-sensitive osmotic lysis of rat parotid secretory granules (2013) Matsuki-Fukushima M, Fujita-Yoshigaki J, Murakami M, Katsumata-Kato O, Yokoyama M, Sugiya H. J Mem Biol, 246: 209-214
Effects of [6]-gingerol on dedifferentiation of salivary acinar cells. (2013) Yokoyama M, Haruki M, Matsuki-Fukushima M, Nagai-Fuse M, Narita T, Okabayashi K, Sugiya H, Katsumata-Kato O, Fujita-Yoshigaki J. Int J Oral-Med Sci, 11: 315-319
Sorting of a HaloTag protein that has only a signal peptide sequence into exocrine secretory granules without protein aggregation. (2013) Fujita-Yoshigaki J, Matsuki-Fukushima M, Yokoyama M, Katsumata-Kato O. Am J Physiol Gastrointest Liver Physiol 305: G685-G696
総説・著書
Determinants for selective transport of exogenously-expressed cargo proteins into regulated and constitutive secretory pathways. (2017) Fujita-Yoshigaki J, Yokoyama M, Katsumata-Kato O. J Oral Biosci, 59: 87-91
徹底レクチャー 唾液・唾液腺(2017) 日本唾液腺学会編集 金原出版
唾液腺初代培養細胞の可能性を探る(2015)吉垣純子 日本唾液腺学会誌56: 49-53
The sorting mechanism underlying the separation of salivary proteins into secretory granules in parotid glands. (2014) Fujita-Yoshigaki J, Matsuki-Fukushima M, Yokoyama M, Katsumata-Kato O. J Oral Biosci, 56: 97-100