Cadherins and the formation of neural circuitry in the vertebrate CNS.

Cadherins are a family of calcium-dependent morphoregulatory molecules mediating cell-cell adhesion. More than a dozen cadherin subtypes are known to be expressed in the developing and mature CNS. Each of these subtypes shows a restricted and distinct expression pattern that differs from that of the other cadherins. During the formation of fiber tracts and neural circuits, each cadherin is expressed by a subset of neurite fascicles. The differential expression of cadherins provides a molecular code for the high degree of specificity and selectivity in neural circuit formation. This code may be a combinatorial one, since the expression of cadherins shows partial overlap. The expression data and experimental results available at present suggest a role for cadherins in aspects of axon outgrowth, axon navigation, axon fasciculation, axonal target recognition, and, finally, in synaptogenesis. However, the precise role of cadherins in some of these processes and their functional relationship to other molecules involved in neurite outgrowth remains to be experimentally established.