In an in vitro model system based on purified target cerebellar granule neurons and explants of afferents, pontine mossy fiber afferents stop growing through contact-mediated mechanisms when they encounter granule neurons. Here we studied the developmental regulation of the stop signal posed by granule cells and the response of mossy fibers to the stop signal in two culture systems. Granule neurons presented in slices or as dissociated cells from postnatal day (P) 4 and P7 cerebellum were more potent in the arrest of P0 pontine neurites than younger (P0-P2) or older (up to P14) granule neurons. In contrast, pontine neurites at embryonic day (E) 18, during their period of normal growth toward the cerebellum, grew extensively on both cerebellar slices of all ages from P0 to P10 and dissociated P4 granule neurons. When E18 explants were maintained for 2 days before plating in medium conditioned by neonatal cerebellar cells, E18 pontine explants were rendered more responsive to the stop signal from P4 granule cells. These results indicate that the stop signal, and the response of afferents to it, are developmentally regulated. Moreover, factors within the target region may initiate these interactions.