Appearance of chemotactic responsiveness to elastin peptides by developing fetal bovine ligament fibroblasts parallels the onset of elastin production.

Abstract

Chemotaxis to elastin peptides by bovine ligamentum nuchae fibroblasts was studied to determine whether there is a developmental association between chemotactic responsiveness to elastin and expression of the elastin phenotype. Undifferentiated ligament cells demonstrate chemotactic responsiveness to platelet-derived growth factor and fibronectin, known chemoattractants for fibroblasts, but do not show chemotaxis to elastin peptides. After matrix-induced differentiation, young cells display a positive chemotactic response to elastin that persists even after the cells are removed from the matrix substratum. Matrix-induced chemotaxis to elastin could be inhibited selectively by incorporation of bromodeoxyuridine into DNA of undifferentiated cells before (but not after) contact with inducing matrix. The appearance of chemotaxis to elastin peptides parallels the onset of elastin synthesis, suggesting that the acquisition of chemotactic responsiveness to elastin and expression of the eleastin phenotype are affected by the same inducing elements or processes and may be closely coupled in development.