Potential of heterotopic fibroblasts as autologous transplanted cells for tracheal epithelial regeneration.

Ken Kobayashi, Teruhisa Suzuki, Yukio Nomoto, Yasuhiro Tada, Masao Miyake, Akihiro Hazama, Tatsuo Nakamura, Koichi Omori
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引用次数: 33

Abstract

The tracheal epithelium maintains the health of the respiratory tract through mucociliary clearance and regulation of ion and water balance. When the trachea is surgically removed, artificial grafts have been clinically used by our group to regenerate the trachea. In such cases, the tracheal epithelium needs 2 months for functional regeneration. Previous study has shown that fibroblasts facilitate tracheal epithelial regeneration. In this study, heterotopic fibroblasts originating from the dermis, nasal, and gingival mucosa were cocultured with tracheal epithelial cells to evaluate their potential as autologous transplanted cells for tracheal epithelial regeneration. The epithelia induced by the heterotopic fibroblasts showed differences in structure, cilia development, mucin secretion, and expression of ion and water channels. These results indicated that nasal fibroblasts could not induce mature tracheal epithelium and that dermal fibroblasts induced epidermis-like epithelium. Only the gingival fibroblasts (GFBs) could induce morphologically and functionally normalized tracheal epithelium comparable to the epithelium induced by tracheal fibroblasts. Epithelial cell proliferation and migration were also upregulated by GFBs. These results indicate that GFBs are useful as autologous transplant cells for tracheal epithelial regeneration.
异位成纤维细胞作为气管上皮再生自体移植细胞的潜力。
气管上皮通过清除粘膜纤毛和调节离子和水分平衡来维持呼吸道的健康。当气管手术切除时,我们组已在临床上应用人工移植物再生气管。在这种情况下,气管上皮需要2个月的功能再生。先前的研究表明成纤维细胞促进气管上皮细胞再生。在这项研究中,来自真皮、鼻腔和牙龈粘膜的异位成纤维细胞与气管上皮细胞共培养,以评估其作为气管上皮再生的自体移植细胞的潜力。异位成纤维细胞诱导的上皮在结构、纤毛发育、粘蛋白分泌、离子通道和水通道表达等方面存在差异。结果表明鼻腔成纤维细胞不能诱导成熟气管上皮,真皮成纤维细胞可诱导表皮样上皮。只有牙龈成纤维细胞(GFBs)能诱导出与气管成纤维细胞诱导的气管上皮相媲美的形态和功能正常化的气管上皮。GFBs也上调了上皮细胞的增殖和迁移。这些结果表明,GFBs可作为气管上皮再生的自体移植细胞。
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Tissue engineering
Tissue engineering CELL & TISSUE ENGINEERING-BIOTECHNOLOGY & APPLIED MICROBIOLOGY
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