| 著者 |
Komatsu N, Kajiya M, Morimoto S, Motoike S, Yoshii H, Iwata T, Ouhara K, Matsuda S, Mizuno N, Kurihara H.
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| Abstract |
Mesenchymal stem cells (MSCs), a class of adult stem cells, have attracted scientific and medical attention due to their self-renewing properties, multipotency, and trophic factor production. Although MSCs were originally studied on classical two-dimensional (2D) plastic plates, extensive scientific efforts have developed three-dimensional (3D) MSC culture systems, including MSCs spheroids and organoids that can mimic physical conditions. Moreover, we have recently developed 3D culture clumps of MSCs/extracellular matrix (ECM) complexes (C-MSCs) for novel bone regenerative cell therapy. Of note, even though it is widely accepted that cell detachment from the culture plate causes cell apoptosis, so called anoikis, these 3D MSCs constructs can be maintained in floating culture conditions. Currently, it is unclear why 3D floating-cultured MSCs constructs can escape from anoikis. To answer this question, the present study explored trophic factor production in 3D floating-cultured C-MSCs that play a cytoprotective role against anoikis and clarified the underlying molecular mechanism in vitro. Compared with cells cultured on 2D plastic plates, PGE2 production mediated by COX2 was significantly increased, and its inhibition drastically induced cell apoptosis in 3D floating-cultured C-MSCs. In the process of C-MSCs preparation, detachment of the cell sheet from culture plate activated the p38/JNK-c-Fos signaling pathway. Moreover, blockage of this signaling by chemical inhibitors abrogated COX2/PGE2 expressions and induced severe apoptosis. These results demonstrated that cell detachment facilitates cytoprotective COX2-mediated PGE2 synthesis via p38/JNK-c-Fos signaling, revealing a possible mechanism that allows resistance against anoikis in floating-cultured 3D MSCs constructs.
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