PURPOSE: To provide proper costimulation required for effective cancer T-cell immunity, Fc-GITRL fusion proteins were generated for use in immunotherapy protocols. EXPERIMENTAL DESIGN: Soluble fusion proteins consisting of the Fc fragment of immunoglobulin and the murine glucocorticoid-induced tumor necrosis factor-related receptor ligand (mGITRL) connected with different linkers were genetically engineered and tested for their potency in two BALB/c solid tumor models. RESULTS: In vivo, construct #178-14 (-5aa, -linker) showed the best activity (>90% tumor reduction) at doses ranging from 5 to 25 microg and was found to be intact by gel electrophoresis. Similar doses used with construct #175-2 (-linker) produced good but not as high tumor regression. Construct #5-1 (+linker), which was found to be relatively unstable by SDS gel electrophoresis, produced <60% tumor regression and required a higher dose (100 microg) to produce optimal results. Survival curves showed that Fc-mGITRL treatment extended the life of 80% of tumor-bearing mice to >3 months compared with controls that died by day 40. T-cell depletion studies showed that CD8(+) T cells play a major role in Fc-mGITRL immunotherapy, and tumors removed from Fc-mGITRL- and DTA-1-treated mice showed a significant influx of granzyme B(+) lymphocytes compared with controls. Finally, T regulatory (Treg) cell assays showed that, unlike other Fc fusion proteins, all three Fc-mGITRL constructs profoundly suppressed Treg activity. CONCLUSIONS: These studies suggest that a stable, intact Fc-mGITRL fusion protein can provide missing costimulation for the immunotherapy of solid tumors. In addition, Fc-mGITRL may alter Treg activity to enhance its effectiveness for tumor immunotherapy.
PURPOSE: To provide proper costimulation required for effective cancer T-cell immunity, Fc-GITRL fusion proteins were generated for use in immunotherapy protocols. EXPERIMENTAL DESIGN: Soluble fusion proteins consisting of the Fc fragment of immunoglobulin and the murine glucocorticoid-induced tumor necrosis factor-related receptor ligand (mGITRL) connected with different linkers were genetically engineered and tested for their potency in two BALB/c solid tumor models. RESULTS: In vivo, construct #178-14 (-5aa, -linker) showed the best activity (>90% tumor reduction) at doses ranging from 5 to 25 microg and was found to be intact by gel electrophoresis. Similar doses used with construct #175-2 (-linker) produced good but not as high tumor regression. Construct #5-1 (+linker), which was found to be relatively unstable by SDS gel electrophoresis, produced <60% tumor regression and required a higher dose (100 microg) to produce optimal results. Survival curves showed that Fc-mGITRL treatment extended the life of 80% of tumor-bearing mice to >3 months compared with controls that died by day 40. T-cell depletion studies showed that CD8(+) T cells play a major role in Fc-mGITRL immunotherapy, and tumors removed from Fc-mGITRL- and DTA-1-treated mice showed a significant influx of granzyme B(+) lymphocytes compared with controls. Finally, T regulatory (Treg) cell assays showed that, unlike other Fc fusion proteins, all three Fc-mGITRL constructs profoundly suppressed Treg activity. CONCLUSIONS: These studies suggest that a stable, intact Fc-mGITRL fusion protein can provide missing costimulation for the immunotherapy of solid tumors. In addition, Fc-mGITRL may alter Treg activity to enhance its effectiveness for tumor immunotherapy.
Authors: Katherine A Murphy; Melissa G Lechner; Flavia E Popescu; Jessica Bedi; Stacy A Decker; Peisheng Hu; Jami R Erickson; M Gerard O'Sullivan; Lauryn Swier; Andres M Salazar; Michael R Olin; Alan L Epstein; John R Ohlfest Journal: Clin Cancer Res Date: 2012-07-10 Impact factor: 12.531
Authors: Vanessa S Fear; Caitlin Tilsed; Jonathan Chee; Catherine A Forbes; Thomas Casey; Jessica N Solin; Sally M Lansley; William Joost Lesterhuis; Ian M Dick; Anna K Nowak; Bruce W Robinson; Richard A Lake; Scott A Fisher Journal: Oncoimmunology Date: 2018-07-30 Impact factor: 8.110
Authors: Alexandre C Motta; Joost L M Vissers; Renée Gras; Betty C A M Van Esch; Antoon J M Van Oosterhout; Martijn C Nawijn Journal: Respir Res Date: 2009-10-07