Hunter_1992_J.Comp.Neurol_323_238

The extracellular matrix component, s-laminin, is a homologue of the B1 subunit of laminin. S-laminin is concentrated in the synaptic cleft at the neuromuscular junction and contains a site that is adhesive for motor neurons, suggesting that it may influence neuromuscular development. To ascertain whether s-laminin may also play roles in the genesis of the central nervous system, we have examined its expression in the brain and spinal cord of embryonic and postnatal rats. S-laminin was not detectable in synapse-rich areas of adults. However, s-laminin was present in discrete subsets of three laminin-containing structures: (1) In the developing cerebral cortex, laminin and s-laminin were expressed in the subplate, a transient layer through which neuroblasts migrate and cortical afferents grow. Both laminin and s-laminin disappeared as embryogenesis proceeded; however, laminin was more widely distributed and present longer than s-laminin. (2) In the developing spinal cord, laminin was present throughout the pia. In contrast, s-laminin was concentrated in the pia that overlies the floor plate, a region in which extracellular cues have been postulated to guide growing axons. (3) In central capillaries, s-laminin appeared perinatally, an interval during which the blood-brain barrier matures. In contrast, laminin was present in capillary walls of both embryos and adults. To extend our immunohistochemical results, we used biochemical methods to characterize s-laminin in brain. We found that authentic s-laminin mRNA is present in the embryonic brain, but that brain-derived s-laminin differs (perhaps by a posttranslational modification) from that derived from nonneural tissues. We also used tissue culture methods to show that glia are capable of synthesizing "brain-like" s-laminin, and of assembling it into an extracellular matrix. Thus, glia may be one cellular source of s-laminin in brain. Together, these results demonstrate that s-laminin is present in the developing central nervous system, and raise the possibility that this molecule may influence developmental processes.