Your search keyword '"Takakura, Ikuko"' showing total 3 results

1. Induction of salivary gland-like cells from epithelial tissues transdifferentiated from mouse embryonic fibroblasts.

Author

Katada, Ryogo, Tanaka, Junichi, Takamatsu, Koki, Hata, Kenji, Yasuhara, Rika, Ohnuma, Shintaro, Takakura, Ikuko, Nishimura, Riko, Shirota, Tatsuo, and Mishima, Kenji

Subjects

*SALIVARY glands, *EPITHELIUM, *EPITHELIAL cells, *FIBROBLASTS, *AQUAPORINS, *SJOGREN'S syndrome

Abstract

Salivary gland hypofunction due to radiation therapy for head and neck cancer or Sjögren syndrome may cause various oral diseases, which can lead to a decline in the quality of life. Cell therapy using salivary gland stem cells is a promising method for restoring hypofunction. Herein, we show that salivary gland-like cells can be induced from epithelial tissues that were transdifferentiated from mouse embryonic fibroblasts (MEFs). We introduced four genes, Dnp63a , Tfap2a , Grhl2 , and Myc (PTMG) that are known to transdifferentiate fibroblasts into oral mucosa-like epithelium in vivo into MEFs. MEFs overexpressing these genes showed epithelial cell characteristics, such as cobblestone appearance and E-cadherin positivity, and formed oral epithelial-like tissue under air–liquid interface culture conditions. The epithelial sheet detached from the culture dish was infected with adenoviruses encoding Sox9 and Foxc1, which we previously identified as essential factors to induce salivary gland formation. The cells detached from the cell sheet formed spheres 10 days after infection and showed a branching morphology. The spheres expressed genes encoding basal/myoepithelial markers, cytokeratin 5, cytokeratin 14, acinar cell marker, aquaporin 5, and the myoepithelial marker α-smooth muscle actin. The dissociated cells of these primary spheres had the ability to form secondary spheres. Taken together, our results provide a new strategy for cell therapy of salivary glands and hold implications in treating patients with dry mouth. • The PTMG-derived epithelial sheet can differentiate into salivary gland-like cells after infection with Ad-SOX9 and Ad-Foxc1. [ABSTRACT FROM AUTHOR]

Published

2022

2. Aging-associated stem/progenitor cell dysfunction in the salivary glands of mice.

Author

Takamatsu, Koki, Tanaka, Junichi, Katada, Ryogo, Azuma, Kotaro, Takakura, Ikuko, Aota, Keiko, Kamatani, Takaaki, Shirota, Tatsuo, Inoue, Satoshi, and Mishima, Kenji

Subjects

*PROGENITOR cells, *CELLULAR aging, *SALIVARY glands, *CELL physiology, *CONNECTIVE tissues

Abstract

Although stem cell aging leads to a decline in tissue homeostasis and regenerative capacity, it remains unclear whether salivary gland stem cell function changes during this process. However, the salivary glands are gradually replaced by connective tissue during aging. Here, we show a decline in the stem cell ability of CD133-positive stem/progenitor cells in the salivary glands of aged mice. The CD133-positive cells were isolated from young, adult, and aged mice. The number of CD133-positive cells was significantly decreased in aged mice. They also showed a lower sphere formation capacity compared to young and adult mice. RNA sequencing revealed that CD133-positive cells in aged mice exhibited lower gene expression of several aging-related genes, including FoxO3a, than those in young and adult mice. Salivary gland cells infected with a recombinant lentivirus encoding the FoxO3a gene showed a reduction in oxidative stress induced by hydrogen peroxide compared with those infected with a control virus. Thus, FoxO3a may inhibit stem cell aging via oxidative stress. [Display omitted] • The function of CD133-positive cells changes with age and is expected to be one of the causative factors associated with salivary gland aging. [ABSTRACT FROM AUTHOR]

Published

2021

3. Sox9 regulates the luminal stem/progenitor cell properties of salivary glands.

Author

Tanaka, Junichi, Mabuchi, Yo, Hata, Kenji, Yasuhara, Rika, Takamatsu, Koki, Kujiraoka, Satoko, Yukimori, Akane, Takakura, Ikuko, Sumimoto, Hidetoshi, Fukada, Toshiyuki, Azuma, Masayuki, Akiyama, Haruhiko, Nishimura, Riko, Shimane, Toshikazu, and Mishima, Kenji

Subjects

*SALIVARY glands, *PROGENITOR cells, *MULTIPOTENT stem cells, *EXOCRINE glands, *SUBMANDIBULAR gland, *STEM cells

Abstract

Exocrine glands share a common morphology consisting of ductal, acinar, and basal/myoepithelial cells, but their functions and mechanisms of homeostasis differ among tissues. Salivary glands are an example of exocrine glands, and they have been reported to contain multipotent stem cells that differentiate into other tissues. In this study, we purified the salivary gland stem/progenitor cells of adult mouse salivary glands using the cell surface marker CD133 by flow cytometry. CD133+ cells possessed stem cell capacity, and the transplantation of CD133+ cells into the submandibular gland reconstituted gland structures, including functional acinar. CD133+ cells were sparsely distributed in the intercalated and exocrine ducts and expressed Sox9 at higher levels than CD133– cells. Moreover, we demonstrated that Sox9 was required for the stem cell properties CD133+ cells, including colony and sphere formation. Thus, the Sox9-related signaling may control the regeneration salivary glands. • Lin–/CD133+ cells distribute in the intercalated and striated ducts. • Lin–/CD133+ cells have stem/progenitor features. • Sox9 contributes to stem/progenitor activity in salivary gland cells. [ABSTRACT FROM AUTHOR]

Published

2019