Abstract

Human skin fibroblasts, both in suspension and cultured within a three-dimensional collagen matrix have been examined by electron spin resonance ESR using the probe 5-doxyl stearic acid. The order of the plasma membrane was found to be strongly influenced by the collagen matrix, being greater for cells within the collagen gel than in suspension. The collagen cultures used in this study were either left attached to the walls of the plastic culture dish (‘attached’ gels) or dislodged and allowed to float freely in the culture medium (‘floating’ gels). Membrane order increased with time in attached gels, reaching a steady value after 2–3 h. A further increase in order was observed when floating gels were prepared 24 h later. Cell morphology within the collagen gel culture was observed to vary considerably, with time and mode of culture. Increased order, over that observed in suspension, was also found for cells attached to other substrata. The data indicate that the increase in membrane order observed in cells embedded within a three-dimensional collagen gel matrix compared with cells in suspension does not correlate with a particular cell morphology in the gel, but rather appears to result from the establishment of adhesive interactions with the surrounding collagen fibres.

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