Modulated expression of plasminogen activator system components in cultured cells from dissociated mouse dorsal root ganglia

Abstract

The development and regeneration of the peripheral nervous system (PNS) is highly dependent on the migration of Schwann cells and the extension of axons toward their distant targets. Plasminogen activators (PAs) are associated with the surface of several cell types of neural origin where they are believed to mediate localized degradation of extracellular matrix, thus facilitating cell motility. In this study, we characterize the expression of tissue-type (tPA) and urokinase (uPA) PAs, as well as the urokinase cell surface receptor (uPAR) during differentiation of cultured cells from mouse dorsal root ganglia. During the first day in culture, the mRNA levels of all three components increase from 75- to 163-fold, as shown using a quantitative PCR method. By 72 hr, the mRNA levels decrease and approach basal levels. This transient increase is in direct correlation with the differentiation of neurons and Schwann cells and the formation of a neuritic network in these regenerating cultures. Densitometric analysis of gel zymographs demonstrates that the elevation in mRNA levels is accompanied by similar increases in the activity levels of tPA and uPA. Interestingly, in situ hybridization studies of the cultures show that tPA mRNA is restricted to small sensory neurons, whereas uPA mRNA is localized predominantly in large sensory neurons. uPAR mRNA is expressed by both neuronal subpopulations and, to a lesser extent, by Schwann cells and fibroblasts. Taken together, these results further support a role for the PA system in facilitating axon extension and cell migration during development and regeneration of the PNS.