Cooperative activity of multiple upper layer proteins for thalamocortical axon growth

Abstract

During development, sensory thalamocortical (TC) axons grow into the neocortex and terminate primarily in layer 4. To study the molecular mechanism that underlies lamina‐specific TC axon termination, we investigated the responsiveness of TC axons to ephrin‐A5, semaphorin‐7A (Sema7A) and kit ligand (KL), which are expressed in the upper layers of the developing cortex. Dissociated cells of the dorsal thalamus from embryonic rat brain were cultured on dishes that were coated with preclustered Fc‐tagged extracellular domains of these molecules. Each protein was found to promote TC axon growth in a dose‐dependent fashion of a bell‐shaped curve. Any combination of the three proteins showed a cooperative effect in lower concentrations but not in higher concentrations, suggesting that their growth‐promoting activities act in a common pathway. The effect of spatial distributions of these proteins was further tested on a filter membrane, in which these proteins were printed at a size that recapitulates the scale of laminar thickness in vivo, using a novel protein‐printing technique, Simple‐To‐mAke Micropore Protein‐Printing (STAMP2) method. The results demonstrated that TC axons grew massively on the laminin‐coated region but were prevented from invading the adjacent ephrin‐A5‐printed region, suggesting that TC axons detect relative differences in the growth effect between these regions. Moreover, the inhibitory action of ephrin‐A5 was enhanced by copresence with KL and Sema7A. Together, these results suggest that the lamina‐specific TC axon targeting mechanism involves growth‐inhibitory activity by multiple molecules in the upper layers and detection in the molecular environments between the upper and deep layers. © 2007 Wiley Periodicals, Inc. Develop Neurobiol, 2008