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通过表面微纹理调控醋酸纤维素支架上的人类结缔组织祖细胞行为。

Modulating human connective tissue progenitor cell behavior on cellulose acetate scaffolds by surface microtextures.

作者信息

Kim Eun Jung, Boehm Cynthia A, Fleischman Aaron J, Muschler George F, Kostov Yordan V, Roy Shuvo

机构信息

BioMEMS Laboratory, Department of Biomedical Engineering, Lerner Research Institute, Cleveland Clinic, 9500 Euclid Avenue, Cleveland, Ohio 44195, USA.

出版信息

J Biomed Mater Res A. 2009 Sep 15;90(4):1198-205. doi: 10.1002/jbm.a.32160.

DOI:10.1002/jbm.a.32160
PMID:18680188
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3999961/
Abstract

Soft lithography techniques are used to fabricate cellulose acetate (CA) scaffolds with surface microtextures to observe growth characteristics of the progeny of human marrow-derived connective tissue progenitor cells (CTPs). Human CTPs were collected and cultured on CA scaffolds comprised postmicrotextures and smooth surfaces for up to 30 days. Cells on the smooth surfaces migrated without any preferred orientation for up to 30 days. On microtextures, cells tended to direct their processes toward posts and other cells on day 9. By day 30, cells on microtextures covered the surface with extracellular matrix. DNA quantification revealed approximately threefold more cells on microtextures than on the smooth surfaces. The alkaline phosphatase (AP) mRNA expression was slightly higher on smooth surfaces on day 9. However, by day 30, AP mRNA showed higher expression on microtextures. The mRNA expression of collagen type I was increased on microtextures by day 30, whereas smooth surfaces demonstrated similar expression. The osteocalcin mRNA expression was increased on postmicrotextures relative to smooth surfaces by day 30.

摘要

软光刻技术用于制造具有表面微纹理的醋酸纤维素(CA)支架,以观察人骨髓来源的结缔组织祖细胞(CTP)子代的生长特性。收集人CTP并在具有微纹理和光滑表面的CA支架上培养长达30天。光滑表面上的细胞在长达30天的时间内无任何偏好取向地迁移。在微纹理上,第9天时细胞倾向于将其突起指向柱和其他细胞。到第30天时,微纹理上的细胞被细胞外基质覆盖。DNA定量显示,微纹理上的细胞比光滑表面上的细胞多约三倍。第9天时,碱性磷酸酶(AP)mRNA表达在光滑表面上略高。然而,到第30天时,AP mRNA在微纹理上显示出更高的表达。到第30天时,微纹理上I型胶原的mRNA表达增加,而光滑表面显示出相似的表达。到第30天时,相对于光滑表面,柱微纹理上骨钙素mRNA表达增加。

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