BACKGROUND: Fas ligand (Fas-L) is thought to provide immune privilege to specific tissues and tumors by inducing an apoptotic signal of cytotoxic T cells expressing its Fas receptor. Purpose. The purpose of this work was to evaluate whether an immortalized insulin-secreting cell line (betaTC-3) gains immune privilege by inducing overexpression of Fas-L. METHODS: A lipofection technique was used to transfect a betaTC-3 tumor cell line with a plasmid (pcDNA3.1/Zeo) carrying the Fas-L gene and a zeocin resistance gene. Insertion of Fas-L into betaTC was characterized by reverse transcription polymerase chain reaction (RT-PCR) and the ability of transfectants (betaTC-3/Fas-L) to induce apoptosis of Fas-sensitive T cells. Transfectants and control cells were tested for insulin secretion following which 1 x 10(6) insulin-secreting betaTC-3 and betaTC-3/Fas-L cells were subcutaneously implanted into syngeneic, allogeneic, and Fas mutant (lpr) syngeneic mice. Survival of the insulin-secreting cells was then determined by monitoring serum glucose levels in recipients. RESULTS: Successful transfection of vector resistance gene was achieved in the transfected betaTC-3 cells, which was confirmed by zeocin resistance. RT-PCR in resistant Fas-L clones confirmed the transcription of Fas-L, which was absent in controls. Fas-L transfectants induced 20 +/- 4.2% apoptosis of Fas-sensitive T cells, while controls induced 3.47 +/- 2.3% by flow cytometry (P = 0.04, n = 3). Insulin secretion was equivalent in both betaTC-3 and betaTC-3/Fas-L cells. Syngeneic mice implanted with control betaTC-3 cells died within 3 weeks from hypoglycemia due to overgrowth of betaTC-3 tumor. Implanted Fas-L transfected betaTC-3 cells were killed and had no effect on glycemic status except in Fas mutant hosts, where tumors formed in two of three mice. CONCLUSIONS: Despite the ability of transfected betaTC-3 cells to induce apoptosis of T cells in vitro, expression of Fas-L provided no immune privilege to these cells in vivo, but paradoxically induced killing of betaTC-3 cells even in syngeneic hosts. Copyright 1999 Academic Press.
BACKGROUND:Fas ligand (Fas-L) is thought to provide immune privilege to specific tissues and tumors by inducing an apoptotic signal of cytotoxic T cells expressing its Fas receptor. Purpose. The purpose of this work was to evaluate whether an immortalized insulin-secreting cell line (betaTC-3) gains immune privilege by inducing overexpression of Fas-L. METHODS: A lipofection technique was used to transfect a betaTC-3 tumor cell line with a plasmid (pcDNA3.1/Zeo) carrying the Fas-L gene and a zeocin resistance gene. Insertion of Fas-L into betaTC was characterized by reverse transcription polymerase chain reaction (RT-PCR) and the ability of transfectants (betaTC-3/Fas-L) to induce apoptosis of Fas-sensitive T cells. Transfectants and control cells were tested for insulin secretion following which 1 x 10(6) insulin-secreting betaTC-3 and betaTC-3/Fas-L cells were subcutaneously implanted into syngeneic, allogeneic, and Fas mutant (lpr) syngeneic mice. Survival of the insulin-secreting cells was then determined by monitoring serum glucose levels in recipients. RESULTS: Successful transfection of vector resistance gene was achieved in the transfected betaTC-3 cells, which was confirmed by zeocin resistance. RT-PCR in resistant Fas-L clones confirmed the transcription of Fas-L, which was absent in controls. Fas-L transfectants induced 20 +/- 4.2% apoptosis of Fas-sensitive T cells, while controls induced 3.47 +/- 2.3% by flow cytometry (P = 0.04, n = 3). Insulin secretion was equivalent in both betaTC-3 and betaTC-3/Fas-L cells. Syngeneic mice implanted with control betaTC-3 cells died within 3 weeks from hypoglycemia due to overgrowth of betaTC-3 tumor. Implanted Fas-L transfected betaTC-3 cells were killed and had no effect on glycemic status except in Fas mutant hosts, where tumors formed in two of three mice. CONCLUSIONS: Despite the ability of transfected betaTC-3 cells to induce apoptosis of T cells in vitro, expression of Fas-L provided no immune privilege to these cells in vivo, but paradoxically induced killing of betaTC-3 cells even in syngeneic hosts. Copyright 1999 Academic Press.