Insulin-like substance has been found within the nervous system. In the rat, preproinsulin II mRNA was shown within the brain and preproinsulin mRNA within the retina. The present study demonstrates the presence of preproinsulin mRNA within the 15, 17 and 19 day gestational age fetal rat brain, spinal cord and dorsal root ganglia (DRG), employing RNA template-specific polymerase chain reaction (RS-PCR), semi-nested PCR and RNase protection assay. Preproinsulin I mRNA was present in the 17 and 19 day gestational age brain, spinal cord and DRG, and only in the brain of the 15 day gestational age brain. Preproinsulin II mRNA was present in all the gestational ages studied in the brain, spinal cord and DRG. The RS-PCR and the semi-nested PCR demonstrated products that co-migrated with the pancreatic control. The semi-nested products were characterized as preproinsulin I and II by restriction enzyme digestion and sequence. RNase protection assay using specific cRNA for preproinsulin I and II showed a band that co-migrated with pancreatic preproinsulin I and II mRNAs, and confirmed the PCR results. In addition, insulin receptor mRNA was detected by RS-PCR. Ultrastructural studies showed insulin immunoreaction within the endoplasmic reticulum, Golgi apparatus, cytoplasm, axon, dendrites, and in relation to the synapses. Thus, we demonstrated the presence of preproinsulin I and II mRNA, insulin receptor mRNA and insulin immunoreaction within the rat fetal central and peripheral nervous system.