Human neuronal and neuroendocrine tumour specimens and cell lines were analysed regarding proteins and transcripts coded by the proto-oncogene c-src. At the protein level, most of the neuroblastomas and phaeochromocytomas expressed the neuronal c-src form, pp60c-srcN. None of the other neuroendocrine tumours, i.e. paragangliomas, neuroendocrine pancreatic tumours, or carcinoid tumours and small-cell lung carcinomas of different types, appeared to express the neuronal form. In the brain, c-src is transcribed into 3 differently spliced mRNA variants, c-src, c-srcNI, and c-srcNI+NII. The expression of these transcripts was analysed by PCR amplification of fragments covering the mini-exons I and NII of the corresponding cDNAs. The PCR products were analysed by Southern hybridization and characterized by determination of their sequences. Neuroblastomas, paragangliomas, retinoblastomas and the phaeochromocytomas expressed neuronal c-src splice variants. However, whereas neuroblastomas and retinoblastomas contained all 3 transcripts, the phaeochromocytomas and paragangliomas expressed, with 2 exceptions, only the c-src and the c-srcNI+NII mRNA species. To assess whether neuroblastomas display adrenal chromaffin characteristics, they were analysed regarding expression of the chromaffin marker enzyme, phenylethanolamine-N-methyl transferase. Whereas phaeochromocytomas were positive, all neuroblastomas were immuno-chemically negative for this enzyme. These results and the c-src expression profile suggest that neuroblastomas, including those with an adrenal location, do not originate from the adrenal chromaffin differentiation lineage. The data further suggest neuronal c-srcNI mRNA as a marker for sympathetic neuronal cells of the sympatho-adrenal lineage.