BACKGROUND: Development of a practical and sensitive assay for evaluating immune responses against cancer Ag has been a challenge for immune monitoring of patients. We have established a reproducible method using peptide-pulsed K562-A*0201 cells as APC to expand Ag-specific T cells in vitro. This method may be applied for monitoring T-cell responses in cancer immunotherapy clinical trials. METHODS: Autologous PBMC from HLA-A*0201+ healthy donors and patients with melanoma were stimulated with peptide-pulsed K562-A*0201 cells under varying conditions. We investigated (1) different culture conditions, including the requirements for serum and cytokines for expansion of CD8+ T lymphocytes; (2) a range of peptide concentrations for Ag loading; (3) phenotypic characterization of responding T cells; and (4) APC:responder ratios and their effects on T-cell expansion. We validated these conditions by ELISPOT and intracellular cytokine staining (ICS) assays using peptides from influenza, Epslein-Barr Virus (EBV) and tyrosinase. RESULTS: Conditions for optimal T-cell expansion using K562-A*0201 APC included input of 2 x 10(6) PBMC, a 10 microg/mL peptide concentration to pulse K562-A*0201 cells, a 1:30 APC:responder T-cell ratio and culture in 10% autologous plasma supplemented with IL-2 and IL-15. In these conditions, Ag-specific T cells expanded >100-fold over a 10-day culture period (peak at day 12). DISCUSSION: This bulk culture method is simple and reliable for expanding human Ag-specific T cells using peptide-pulsed K562-A*0201 cells. This HLA-matched APC line can be adapted to other HLA haplotypes, and has advantages for monitoring clinical trials of immunotherapy with limited availability of autologous APC and PBMC from patients.
BACKGROUND: Development of a practical and sensitive assay for evaluating immune responses against cancer Ag has been a challenge for immune monitoring of patients. We have established a reproducible method using peptide-pulsed K562-A*0201 cells as APC to expand Ag-specific T cells in vitro. This method may be applied for monitoring T-cell responses in cancer immunotherapy clinical trials. METHODS: Autologous PBMC from HLA-A*0201+ healthy donors and patients with melanoma were stimulated with peptide-pulsed K562-A*0201 cells under varying conditions. We investigated (1) different culture conditions, including the requirements for serum and cytokines for expansion of CD8+ T lymphocytes; (2) a range of peptide concentrations for Ag loading; (3) phenotypic characterization of responding T cells; and (4) APC:responder ratios and their effects on T-cell expansion. We validated these conditions by ELISPOT and intracellular cytokine staining (ICS) assays using peptides from influenza, Epslein-Barr Virus (EBV) and tyrosinase. RESULTS: Conditions for optimal T-cell expansion using K562-A*0201 APC included input of 2 x 10(6) PBMC, a 10 microg/mL peptide concentration to pulse K562-A*0201 cells, a 1:30 APC:responder T-cell ratio and culture in 10% autologous plasma supplemented with IL-2 and IL-15. In these conditions, Ag-specific T cells expanded >100-fold over a 10-day culture period (peak at day 12). DISCUSSION: This bulk culture method is simple and reliable for expanding human Ag-specific T cells using peptide-pulsed K562-A*0201 cells. This HLA-matched APC line can be adapted to other HLA haplotypes, and has advantages for monitoring clinical trials of immunotherapy with limited availability of autologous APC and PBMC from patients.
Authors: Brian A Ginsberg; Humilidad F Gallardo; Teresa S Rasalan; Matthew Adamow; Zhenyu Mu; Sapna Tandon; Barrett B Bewkes; Ruth-Ann Roman; Paul B Chapman; Gary K Schwartz; Richard D Carvajal; Katherine S Panageas; Stephanie L Terzulli; Alan N Houghton; Jianda D Yuan; Jedd D Wolchok Journal: Clin Cancer Res Date: 2010-07-20 Impact factor: 12.531
Authors: Megan M Suhoski; Tatiana N Golovina; Nicole A Aqui; Victoria C Tai; Angel Varela-Rohena; Michael C Milone; Richard G Carroll; James L Riley; Carl H June Journal: Mol Ther Date: 2007-03-20 Impact factor: 11.454
Authors: Amy B Hont; Allison B Powell; Danielle K Sohai; Izabella K Valdez; Maja Stanojevic; Ashley E Geiger; Kajal Chaudhary; Ehsan Dowlati; Catherine M Bollard; Conrad Russell Y Cruz Journal: Mol Ther Date: 2022-02-09 Impact factor: 12.910
Authors: Yun Lin; Humilidad F Gallardo; Geoffrey Y Ku; Hao Li; Gregor Manukian; Teresa S Rasalan; Yinyan Xu; Stephanie L Terzulli; Lloyd J Old; James P Allison; Alan N Houghton; Jedd D Wolchok; Jianda Yuan Journal: Cytotherapy Date: 2009 Impact factor: 5.414
Authors: Jianda Yuan; Geoffrey Y Ku; Humilidad F Gallardo; Francesca Orlandi; Gregor Manukian; Teresa S Rasalan; Yinyan Xu; Hao Li; Shachi Vyas; Zhenyu Mu; Paul B Chapman; Susan E Krown; Katherine Panageas; Stephanie L Terzulli; Lloyd J Old; Alan N Houghton; Jedd D Wolchok Journal: Cancer Immun Date: 2009-06-05
Authors: Miguel-Angel Perales; Jianda Yuan; Sarah Powel; Humilidad F Gallardo; Teresa S Rasalan; Christina Gonzalez; Gregor Manukian; Jian Wang; Yan Zhang; Paul B Chapman; Susan E Krown; Philip O Livingston; Samuel Ejadi; Katherine S Panageas; Manuel E Engelhorn; Stephanie L Terzulli; Alan N Houghton; Jedd D Wolchok Journal: Mol Ther Date: 2008-09-16 Impact factor: 11.454
Authors: Jianda Yuan; Geoffrey Y Ku; Matthew Adamow; Zhenyu Mu; Sapna Tandon; Drew Hannaman; Paul Chapman; Gary Schwartz; Richard Carvajal; Katherine S Panageas; Alan N Houghton; Jedd D Wolchok Journal: J Immunother Cancer Date: 2013-11-18 Impact factor: 13.751