Respiratory syncytial virus (RSV) infection of most cultured cell lines causes cell-cell fusion and death. Cell fusion is caused by the fusion (F) glycoprotein and is clearly cytopathic, but other aspects of RSV infection may also contribute to cytopathology. To investigate this possibility, we generated an RSV replicon that lacks all three of its glycoprotein genes and so cannot cause cell-cell fusion or virus spread. This replicon includes a green fluorescent protein gene and an antibiotic resistance gene to enable detection and selection of replicon-containing cells. Adaptive mutations in the RSV replicon were not required for replicon maintenance. Cells containing the replicon could be cloned and passaged many times in the absence of antibiotic selection, with 99% or more of the cells retaining the replicon after each cell division. Transient expression of the F and G (attachment) glycoproteins supported the production of virions that could transfer the replicon into most cell lines tested. Since the RSV replicon is not toxic to these cultured cells and does not affect their rate of cell division, none of the 8 internal viral proteins, the viral RNA transcripts, or the host response to these molecules or their activities is cytopathic. However, the level of replicon genome and gene expression is controlled in some manner well below that of complete virus and, as such, might avoid cytotoxicity. RSV replicons could be useful for cytoplasmic gene expression in vitro and in vivo and for screening for compounds active against the viral polymerase.