Monitoring of NY-ESO-1 specific CD4 ⁺ T cells using molecularly defined MHC class II/His-tag-peptide tetramers

Abstract: MHC-peptide tetramers have become essential tools for T-cell analysis, but few MHC class II tetramers incorporating peptides from human tumor and self-antigens have been developed. Among limiting factors are the high polymorphism of class II molecules and the low binding capacity of the peptides. Here, we report the generation of molecularly defined tetramers using His-tagged peptides and isolation of folded MHC/peptide monomers by affinity purification. Using this strategy we generated tetramers of DR52b (DRB… Show more

“…In contrast, we obtained no significant in vitro priming from EM populations ( Figure 2B + DC, generated from isolated circulating CD14 + monocytes as described, 31 with a recombinant full-length ESO protein, and assessed antigen recognition by the lines by measuring IFN-g secretion. 28 Similar to vaccine-induced ESO-T H , in vitro primed ESO-tetramer + -T H lines efficiently recognized the recombinant ESO protein processed and presented by DC, whereas they failed to recognize DC incubated with a control protein ( Figure 3C). …”

“…28 Ex vivo sorted CD4 + T-cell subpopulations (3-5x10 6 ) were stimulated in vitro with peptide ESO119-143 (2 mM) in the presence of irradiated autologous CD4 -cells (3-5x10 6 ) and were cultured in the presence of rhIL-2 (100 U/mlL, Chiron). Day 12 cultures were incubated with tetramers at a final concentration of 3 g/mL for 1 h at 37°C and then stained with anti-CD4 mAb and analyzed by flow cytometry.…”

“…TCR variable b chain (BV) usage by ESO-specific cells was determined by flow cytometry analysis following staining of Day 12 cultures with ESO-tetramers and anti-BV2 mAb (Immunotech), as previously described. 28 ESO-specific T cells were isolated from peptide-stimulated cultures by tetramerguided flow cytometry cell sorting, and expanded by stimulation with PHA and irradiated allogeneic PBMC in the presence of IL-2, as previously described. 28 The specificity of the obtained polyclonal T H lines was assessed by tetramer staining and flow cytometry analysis.…”

“…[25][26][27] Through a strategy that combines the use of Histidine (His)-tagged peptides with isolation of MHC/peptide monomers by affinity purification, we have recently generated MHC class II tetramers incorporating an ESO immunodominant peptide (ESO-tetramers). 28,29 We have shown that MHC class II/ESO tetramers specifically and avidly bind to ESO-specific CD4 + T cells, allowing their highly sensitive detection and isolation from polyspecific populations. In this study, we have used ESO-tetramers to implement an in vitro priming platform, allowing the generation of ESO-monospecific polyclonal T H lines from CD4 + T cells of non-immune individuals.…”

MHC class II/ESO tetramer-based generation of in vitro primed anti-tumor T-helper lines for adoptive cell therapy of cancer

“…In contrast, we obtained no significant in vitro priming from EM populations ( Figure 2B + DC, generated from isolated circulating CD14 + monocytes as described, 31 with a recombinant full-length ESO protein, and assessed antigen recognition by the lines by measuring IFN-g secretion. 28 Similar to vaccine-induced ESO-T H , in vitro primed ESO-tetramer + -T H lines efficiently recognized the recombinant ESO protein processed and presented by DC, whereas they failed to recognize DC incubated with a control protein ( Figure 3C). …”

“…28 Ex vivo sorted CD4 + T-cell subpopulations (3-5x10 6 ) were stimulated in vitro with peptide ESO119-143 (2 mM) in the presence of irradiated autologous CD4 -cells (3-5x10 6 ) and were cultured in the presence of rhIL-2 (100 U/mlL, Chiron). Day 12 cultures were incubated with tetramers at a final concentration of 3 g/mL for 1 h at 37°C and then stained with anti-CD4 mAb and analyzed by flow cytometry.…”

“…TCR variable b chain (BV) usage by ESO-specific cells was determined by flow cytometry analysis following staining of Day 12 cultures with ESO-tetramers and anti-BV2 mAb (Immunotech), as previously described. 28 ESO-specific T cells were isolated from peptide-stimulated cultures by tetramerguided flow cytometry cell sorting, and expanded by stimulation with PHA and irradiated allogeneic PBMC in the presence of IL-2, as previously described. 28 The specificity of the obtained polyclonal T H lines was assessed by tetramer staining and flow cytometry analysis.…”

“…[25][26][27] Through a strategy that combines the use of Histidine (His)-tagged peptides with isolation of MHC/peptide monomers by affinity purification, we have recently generated MHC class II tetramers incorporating an ESO immunodominant peptide (ESO-tetramers). 28,29 We have shown that MHC class II/ESO tetramers specifically and avidly bind to ESO-specific CD4 + T cells, allowing their highly sensitive detection and isolation from polyspecific populations. In this study, we have used ESO-tetramers to implement an in vitro priming platform, allowing the generation of ESO-monospecific polyclonal T H lines from CD4 + T cells of non-immune individuals.…”

MHC class II/ESO tetramer-based generation of in vitro primed anti-tumor T-helper lines for adoptive cell therapy of cancer

“…44 However, there are still a number of aspects to improve regarding the applicability of these reagents, in particular the strength of the TCR/pMHC II interactions. 45,46 TRANSLATIONAL APPLICABILITY OF THE MULTIMER TECHNOLOGY There are many strategies to select antigen-specific CD8 þ T cells for adoptive transfer; however, multimer-based technology has the potential to select antigen-specific T cells from healthy seropositive donors and transfer them directly to the patient without any further manipulation.…”

Viral-specific adoptive immunotherapy after allo-SCT: the role of multimer-based selection strategies

Immune Monitoring Design within the Developmental Pipeline for an Immunotherapeutic or Preventive Vaccine