Biphenotypic Sarcomas with Myogenic and Neural Differentiation Express the Ewing's Sarcoma EWS/FLI1 Fusion Gene1

Accurate diagnosis of primitive childhood sarcomas continues to be a formidable problem because these malignancies generally demonstrate very little morphological evidence of their tissue of origin. One of these tumor classes, the Ewing's sarcoma family of peripheral primitive neuroectodermal tumors (pPNETs), are thought to have a neural histogenesis based on evidence of neuroectodermal differentiation. Greater than 95% of pPNETs carry t(ll;22) or K2I;22) chromosomal translocations which fuse the EWS gene from chromosome 22ql2 in-frame with either /•'/.// from chromosome Hq24 or ERG from chromosome 21q22. The pPNETs are considered to be histogenetically distinct from rhabdomyosarcomas, myogenic tumors lacking these EWS gene fusions and hypothesized to derive from immature skeletal muscle precursors. In the present study, we describe a unique set of childhood soft tissue sarcomas that show both neural and myogenic differentiation. These biphenotypic tumors express myogenic regulatory factors and muscle-specific antigens and also show neuroectodermal differentiation with ultrastructural evidence of neurosecretory granules and expression of neural-associated genes. Northern analysis and reverse transcriptase PCR reveal expression of EWS/FLIl gene fusions in all biphenotypic sarcomas analyzed. Chimeric EWS/FU1 transcripts and fusion proteins in these tumors are identical to those described for pPNETs. Our results provide evidence for a class of biphe notypic childhood sarcomas with myogenic and neural differentiation and suggest that these tumors may be related to the Ewing's sarcoma family of