The potential cytoprotective effects of the gonadal steroid estrogen, acting via its receptor (ER) on target neurons, are of considerable interest in aging, disease, and trauma. In this study, we examined the effects of estrogen on a prototypical neuronal-like cell, namely, nerve growth factor (NGF) differentiated PC12 cells when these cells are placed into an apoptosis-inducing environment. A clonal line of PC12 cells stably transfected to express full-length rat ERalpha mRNA and protein (PCER cells), as well as control cells (vector DNA transfected: PCCON cells), were differentiated into neurite bearing cells by 14 days of NGF treatment. Reverse transcription polymerase chain reaction (RT-PCR) and immunocytochemistry for ERalpha revealed that terminally differentiated PCER cells continue to show robust ER mRNA and protein expression after differentiation. PCCON cells do not express ERalpha either before or after NGF-induced differentiation. After differentiation, serum and NGF withdrawal from wild type PC12 cells is well known to induce cell death via apoptotic mechanisms. We challenged differentiated PCER and PCCON cells with serum-free media and assessed the effects of various treatments on cell survival and apoptosis using trypan blue staining and quantitative TUNEL staining. When differentiated PCER cells were treated with 17beta-estradiol (E2) plus NGF during a 2-day serum-free media challenge, cell survival was significantly greater, and the apoptotic index was significantly lower, than when PCER cells were treated with NGF only during the challenge. No additional improvement in cell survival, and no further reduction in apoptosis, was observed in non-ER expressing cells (PCCON) by E2 plus NGF treatment over that obtained by NGF alone. The effects of E2 on the expression of several apoptosis-related genes in this system were also examined. We found that E2 treatment of differentiated PCER cells in serum-free media increased the levels of Bcl-XL mRNA and reduced the levels of BAD mRNA relative to those in vehicle-treated PCER cells, and also relative to those in PCCON cells. Thus, estrogen's protective effects on PCER cells appear to, at least partly, involve a modulation of apoptosis-regulating genes.