Microcontact printing of axon guidance molecules for generation of graded patterns.

Microcontact printing (microCP) of proteins has been successfully used for patterning surfaces in various contexts. Here we describe a simple 'lift-off' method to print precise patterns of axon guidance molecules, which are used as substrate for growing chick retinal ganglion cell (RGC) axons. Briefly, the etched pattern of a silicon master is transferred to a protein-coated silicone cuboid (made from polydimethylsiloxane, PDMS), which is then used as a stamp on a glass coverslip.

Growth cone navigation in substrate-bound ephrin gradients.

Graded distributions of ephrin ligands are involved in the formation of topographic maps. However, it is still poorly understood how growth cones read gradients of membrane-bound guidance molecules. We used microcontact printing to produce discontinuous gradients of substrate-bound ephrinA5.

Responses of temporal retinal growth cones to ephrinA5-coated beads.

The topographic positioning of retinal axons in the optic tectum is regulated, at least in part, by ephrinA/EphA repulsive interactions. Temporal axons, expressing high levels of EphA receptors, project to the ephrinA5-poor anterior tectum and avoid the ephrinA5-rich posterior tectum. To examine the dynamic behavior of temporal growth cones when they first encounter ephrinA, we manipulated ephrinA-coated beads with a laser tweezer into desired positions around the growth cones of chick retinal axons in culture.