We used compartmented cultures to study the regulation of adult sensory neurite growth by neurotrophins. We examined the effects of the neurotrophins nerve growth factor (NGF), neurotrophin-3 (NT3), and BDNF on distal neurite elongation from adult rat dorsal root ganglion (DRG) neurons. Neurons were plated in the center compartments of three-chambered dishes in the absence of neurotrophin, and neurite extension into the distal (side) compartments containing NGF, BDNF, or NT3 was quantitated. Initial proximal neurite growth did not require any of the neurotrophins, while subsequent elongation into distal compartments required NGF. After neurites had extended into NGF-containing distal compartments, removal of NGF by treatment with anti-NGF resulted in the cessation of growth with minimal neurite retraction. In contrast to the effects of NGF, no distal neurite elongation was observed into compartments with BDNF or NT3. To examine possible additive influences, neurite extension into compartments containing BDNF plus NGF or NT3 plus NGF was quantitated. There was no increased neurite extension into NGF plus NT3 compartments, while the combination of BDNF plus NGF resulted in an inhibition of neurite extension compared with NGF alone. We then investigated whether the regrowth of neurites that had originally grown into NGF subsequent to in vitro axotomy still required NGF. The results demonstrated that unlike adult sensory nerve regeneration in vivo, the in vitro regrowth did require NGF, and neither BDNF nor NT3 was able to substitute for NGF. Since the initial growth from neurons after dissociation (which is also a regenerative response) did not require NGF, it would appear that neuritic growth and regrowth of adult DRG neurons in vitro includes both NGF-independent and NGF-dependent components. The compartmented culture system provides a unique model to further study aspects of this differential regulation of neurite growth.