Powers M J, Rodriguez R E, Griffith L G
Department of Chemical Engineering, Massachusetts Institute of Technology, 66-556, Cambridge, Massachusetts 02139.
Biotechnol Bioeng. 1997 Feb 20;53(4):415-26. doi: 10.1002/(SICI)1097-0290(19970220)53:4<415::AID-BIT10>3.0.CO;2-F.
Cultured hepatocytes typically form multicellular aggregates which are either monolayered or spheroidal in morphology. We propose that the aggregate morphology resulting from a particular cell-substratum interaction has a biophysical basis: when cell contractile forces are greater than cell-substratum adhesion forces, spheroidal aggregates form; when cell contractile forces are weaker than cell-substratum adhesion forces, cells remain essentially spread and form monolayered aggregates. We tested this hypothesis by systematically varying the morphology of hepatocellular aggregates formed on substrata coated with a series of different concentrations of Matrigel, and correlating aggregate morphology with the cell-substratum adhesion strength measured in a shear flow detachment assay. Aggregate morphology was binary-spheroidal aggregates formed at low Matrigel concentrations and monolayered aggregates formed at high Matrigel concentrations. Cell-substratum adhesion strength was similarly binary, with low adhesion strengths correlated with spheroidal aggregates and high adhesion strengths correlated with formation of monolayered aggregates. (c) 1997 John Wiley & Sons, Inc. Biotechnol Bioeng 53: 415-426, 1997.
培养的肝细胞通常形成多细胞聚集体,其形态要么是单层的,要么是球形的。我们提出,特定细胞与基质相互作用产生的聚集体形态具有生物物理基础:当细胞收缩力大于细胞与基质的粘附力时,形成球形聚集体;当细胞收缩力弱于细胞与基质的粘附力时,细胞基本保持铺展状态并形成单层聚集体。我们通过系统改变在涂有一系列不同浓度基质胶的基质上形成的肝细胞聚集体的形态,并将聚集体形态与在剪切流脱离试验中测量的细胞与基质的粘附强度相关联,来检验这一假设。聚集体形态呈二元性——在低基质胶浓度下形成球形聚集体,在高基质胶浓度下形成单层聚集体。细胞与基质的粘附强度同样呈二元性,低粘附强度与球形聚集体相关,高粘附强度与单层聚集体的形成相关。(c) 1997约翰·威利父子公司。《生物技术与生物工程》53: 415 - 426, 1997年。
