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Journal of Histochemistry and Cytochemistry, Vol. 50, 1537-1542, November 2002, Copyright © 2002, The Histochemical Society, Inc.

ARTICLE

In Vitro Matrix Assembly Induced by Critical Assembly Concentration (CAC)

Mark E. Lauera and Kevin J. McCarthya
a Louisiana State University Health Science Center at Shreveport, Departments of Cell Biology and Anatomy and of Pathology, Shreveport, Louisiana

Correspondence to: Kevin J. McCarthy, Louisiana State U. Health Science Center, Dept. of Pathology, 1501 Kings Highway, PO Box 33932, Shreveport, LA 71130-3932. E-mail: kmccar2@lsuhsc.edu

L-2 cells are an immortalized cell line derived from yolk sac parietal endoderm cells, which are responsible for the production of Reichert's membrane, a thick basement membrane produced during rat gestation. Although the L-2 cells secrete all the major components of the basal lamina, they do not assemble a robust matrix in cell culture. We hypothesized that the reason L-2 cells fail to assemble a matrix in cell culture is because the concentrations of matrix components necessary for this matrix assembly do not reach a critical association concentration (CAC) under standard cell culture conditions. To limit the diffusion of secreted molecules while maintaining a nutrient-rich environment for the cells to thrive, we developed a technique that uses a dialysis membrane to limit protein diffusion in a 2-well plate format. This technique permits L-2 cells to assemble a robust matrix in as little as 24 hr that continues to be formed for at least 72 hr. This technique may address some of the physical limitations imposed by cell culture and could be readily applied to other cell types and medium conditions. (J Histochem Cytochem 50:1537–1541, 2002)

Key Words: extracellular matrix, basal lamina, basement membrane, critical assembly concentration, dialysis membrane


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