Malignant melanomas show a remarkable degree of heterogeneity because of different morphologic features, biologic behavior, and prognosis. In this communication, the authors attempted to correlate morphologic heterogeneity of melanomas with transformation by different activated oncogenes; they studied the histologic features of melanocytic lesions induced by murine melanocytes transformed by basic fibroblast growth factor (b-FGF-cDNA) or H-ras, neu, myc, and E1a oncogenes, and the lesions were compared with those observed in human pathology. Tumors formed after grafting onto syngenic mice or subcutaneous injections in nude mice were studied. In syngenic mice, benign melanocytic lesions reminiscent of intradermal nevus were observed with melanocytes transformed with b-FGF-cDNA, and myc and E1a oncogenes. Benign lesions were also formed by neu-transformed melanocytes when they were grafted concomitantly with keratinocytes, whereas malignant tumors were formed by the same cells when grafted alone or together with fibroblasts. In contrast, H-ras melanocytes always formed malignant tumors. In nude mice, b-FGF-transformed melanocytes induced benign lesions, whereas transformed melanocytes by the other oncogenes formed malignant tumors with distinctive and homogeneous morphologic features that depended on the transforming oncogene. Melanomas with either epithelioid cell, spindle cell, small round cell, and anaplastic cell growth patterns could be distinguished after transformation with H-ras, neu, E1a, and myc oncogenes, respectively. These various histologic types are analogous to those that may be observed in human melanomas, even within the same tumor. These studies suggest a possible molecular mechanism for tumor heterogeneity in which distinct oncogenes or oncogenelike activities can be activated in different tumors or discrete parts of the same tumor.