Your search keyword '"Poschke I"' showing total 95 results

1. Prediction of tumor-reactive T cell receptors from scRNA-seq data for personalized T cell therapy

Author

Tan, C. L., Lindner, K., Boschert, T., Meng, Z., Rodriguez Ehrenfried, A., De Roia, A., Haltenhof, G., Faenza, A., Imperatore, F., Bunse, L., Lindner, J. M., Harbottle, R. P., Ratliff, M., Offringa, R., Poschke, I., Platten, M., and Green, E. W.

Published

2025

2. Low tumor interleukin-1β expression predicts a limited effect of adjuvant platinum-based chemotherapy for patients with completely resected lung adenocarcinoma: An identification and validation study

Author

Safi, S., primary, Krzykalla, J., additional, Hoffmann, H., additional, Benner, A., additional, Bischoff, H., additional, Eichhorn, M., additional, Kriegsmann, M., additional, Poschke, I., additional, Stögbauer, F., additional, Umansky, L., additional, Mogler, C., additional, Weichert, W., additional, Winter, H., additional, Beckhove, P., additional, and Muley, T., additional

Published

2024

3. PL01.4.A LATE BREAKING ABSTRACT: A LONG PEPTIDE VACCINE TARGETING THE CLONAL DRIVER MUTATION H3K27M IN ADULT PATIENTS WITH DIFFUSE MIDLINE GLIOMA

Author

Grassl, N, primary, Poschke, I, additional, Lindner, K, additional, Kromer, K, additional, Bunse, L, additional, Mildenberger, I, additional, Jaehne, K, additional, Haltenhof, G, additional, Tan, C, additional, Green, E, additional, Kessler, T, additional, Suwala, A, additional, Sahm, F, additional, Eisele, P, additional, Breckwoldt, M, additional, Vajkoczy, P, additional, Grauer, O, additional, Herrlinger, U, additional, Tonn, J, additional, Denk, M, additional, Bendszus, M, additional, von Deimling, A, additional, Winkler, F, additional, Wick, W, additional, Lindner, J, additional, Platten, M, additional, and Sahm, K, additional

Published

2023

4. KS01.5.A LATE BREAKING ABSTRACT: LONG-TERM FOLLOW-UP OF PATIENTS WITH NEWLY DIAGNOSED IDH-MUTANT ASTROCYTOMA AFTER IDH1-VAC TREATMENT

Author

Bunse, L, primary, Lindner, K, additional, Wick, A, additional, Poschke, I, additional, Freitag, A, additional, Edelmann, D, additional, Lanz, L, additional, Breckwoldt, M, additional, Sahm, F, additional, Schmitt, A, additional, Schnell, O, additional, Hense, J, additional, Misch, M, additional, Krex, D, additional, Denk, M, additional, Steinbach, J, additional, von Deimling, A, additional, Schmitt, M, additional, Tabatabai, G, additional, Bendszus, M, additional, Wick, W, additional, and Platten, M, additional

Published

2023

5. 8P Pre-treatment blood gene expression changes associated with durable clinical benefit in metastatic non-small cell lung cancer with high PD-L1 expression receiving first-line pembrolizumab

Author

Elshiaty, M., primary, Lusky, F., additional, Bozorgmehr, F., additional, Gaissmaier, L., additional, Schindler, H., additional, Poschke, I., additional, Angeles, A., additional, Janke, F., additional, Kriegsmann, M., additional, Kuon, J.B., additional, Shah, R., additional, Schneider, M.A., additional, Daniello, L., additional, Meister, M., additional, Muley, T., additional, Eichhorn, F., additional, Sültmann, H., additional, Stenzinger, A., additional, Thomas, M., additional, and Christopoulos, P., additional

Published

2021

6. P03.06 Deciphering vaccine-induced neoepitope-specific T cell responses in a patient with H3K27M-mutant midline glioma WHO grade 4

Author

Lindner, K, primary, Kromer, K, additional, Jähne, K, additional, Bunse, L, additional, Tan, C, additional, Poschke, I, additional, Green, E, additional, Lindner, JM, additional, Platten, M, additional, and Sahm, K, additional

Published

2021

7. Immunosuppressive CD14+HLA-DRlow/neg IDO+ myeloid cells in patients following allogeneic hematopoietic stem cell transplantation

Author

Mougiakakos, D, Jitschin, R, von Bahr, L, Poschke, I, Gary, R, Sundberg, B, Gerbitz, A, Ljungman, P, and Le Blanc, K

Published

2013

8. Myeloid-derived suppressor cells impair the quality of dendritic cell vaccines

Author

Poschke, I., Mao, Y., Adamson, L., Salazar-Onfray, F., Masucci, G., and Kiessling, R.

Published

2012

9. Tumour-induced immune suppression: role of inflammatory mediators released by myelomonocytic cells

Author

Mao, Y., Poschke, I., and Kiessling, R.

Published

2014

10. Progress in vaccination against cancer-7: report of the meeting in Stockholm, September 10–11, 2007

Author

Kiessling, R., De Geer, A., Johansson, C., Poschke, I., Triulzi, C., and Vertuani, S.

Published

2008

11. 2320P Detection of gene fusion-induced neoepitopes in dedifferentiated liposarcoma

Author

Horak, P., Becker, J., Blobner, S., Weber, D., Uhrig, S., Förster, J., Raveendran, A., Baude, A., Wagner, J., Poschke, I., Zörnig, I., Volkmar, M., Platten, M., Jäger, D., Fröhling, S., Chudasama, P., and Riemer, A.

Published

2023

12. Immunosuppressive CD14+ HLA-DRlow/neg IDO+ myeloid cells in patients following allogeneic hematopoietic stem cell transplantation

Author

Mougiakakos, D, Jitschin, R, von Bahr, L, Poschke, I, Gary, R, Sundberg, B, Gerbitz, A, Ljungman, P, and Le Blanc, K

Published

2013

13. Tumor-induced changes in the phenotype of blood-derived and tumor-associated T cells of early stage breast cancer patients

Author

Poschke, I., De Boniface, J., Mao, Y., and Kiessling, R.

Published

2012

14. Tumor-dependent down-regulation of the ζ-chain in T-cells is detectable in early breast cancer and correlates with immune cell function

Author

Boniface, De J., Poschke, I., Mao, Y., and Kiessling, R.

Published

2012

15. Melanoma and immunotherapy bridge 2015 : Naples, Italy. 1-5 December 2015.

Author

Nanda, VGY, Peng, W, Hwu, P, Davies, MA, Ciliberto, G, Fattore, L, Malpicci, D, Aurisicchio, L, Ascierto, PA, Croce, CM, Mancini, R, Spranger, S, Gajewski, TF, Wang, Y, Ferrone, S, Vanpouille-Box, C, Wennerberg, E, Pilones, KA, Formenti, SC, Demaria, S, Tang, H, Fu, Y-X, Dummer, R, Puzanov, I, Tarhini, A, Chauvin, J-M, Pagliano, O, Fourcade, J, Sun, Z, Wang, H, Sanders, C, Kirkwood, JM, Chen, T-HT, Maurer, M, Korman, AJ, Zarour, HM, Stroncek, DF, Huber, V, Rivoltini, L, Thurin, M, Rau, T, Lugli, A, Pagès, F, Camarero, J, Sancho, A, Jommi, C, de Coaña, YP, Wolodarski, M, Yoshimoto, Y, Gentilcore, G, Poschke, I, Masucci, GV, Hansson, J, Kiessling, R, Scognamiglio, G, Sabbatino, F, Marino, FZ, Anniciello, AM, Cantile, M, Cerrone, M, Scala, S, D’alterio, C, Ianaro, A, Cirin, G, Liguori, G, Bott, G, Chapman, PB, Robert, C, Larkin, J, Haanen, JB, Ribas, A, Hogg, D, Hamid, O, Testori, A, Lorigan, P, Sosman, JA, Flaherty, KT, Yue, H, Coleman, S, Caro, I, Hauschild, A, McArthur, GA, Sznol, M, Callahan, MK, Kluger, H, Postow, MA, Gordan, R, Segal, NH, Rizvi, NA, Lesokhin, A, Atkins, MB, Burke, MM, Ralabate, A, Rivera, A, Kronenberg, SA, Agunwamba, B, Ruisi, M, Horak, C, Jiang, J, Wolchok, J, Liszkay, G, Maio, M, Mandalà, M, Demidov, L, Stoyakovskiy, D, Thomas, L, de la Cruz-Merino, L, Atkinson, V, Dutriaux, C, Garbe, C, Wongchenko, M, Chang, I, Koralek, DO, Rooney, I, Yan, Y, Dréno, B, Sullivan, R, Patel, M, Hodi, S, Amaria, R, Boasberg, P, Wallin, J, He, X, Cha, E, Richie, N, Ballinger, M, Smith, DC, Bauer, TM, Wasser, JS, Luke, JJ, Balmanoukian, AS, Kaufman, DR, Zhao, Y, Maleski, J, Leopold, L, Gangadhar, TC, Long, GV, Michielin, O, VanderWalde, A, Andtbacka, RHI, Cebon, J, Fernandez, E, Malvehy, J, Olszanski, AJ, Gause, C, Chen, L, Chou, J, Stephen Hodi, F, Brady, B, Mortier, L, Hassel, JC, Rutkowski, P, McNeil, C, Kalinka-Warzocha, E, Lebbé, C, Ny, L, Chacon, M, Queirolo, P, Loquai, C, Cheema, P, Berrocal, A, Eizmendi, KM, Bar-Sela, G, Hardy, H, Weber, JS, Grob, J-J, Marquez-Rodas, I, Schmidt, H, Briscoe, K, Baurain, J-F, Wolchok, JD, Pinto, R, De Summa, S, Garrisi, VM, Strippoli, S, Azzariti, A, Guida, G, Guida, M, Tommasi, S, Jacquelot, N, Enot, D, Flament, C, Pitt, JM, Vimond, N, Blattner, C, Yamazaki, T, Roberti, M-P, Vetizou, M, Daillere, R, Poirier-Colame, V, la Semeraro, M, Caignard, A, Slingluff, CL, Sallusto, F, Rusakiewicz, S, Weide, B, Marabelle, A, Kohrt, H, Dalle, S, Cavalcanti, A, Kroemer, G, Di Giacomo, AM, Wong, P, Yuan, J, Umansky, V, Eggermont, A, Zitvogel, L, Anna, P, Marco, T, Stefania, S, Francesco, M, Mariaelena, C, Gabriele, M, Antonio, AP, Franco, S, Roberti, MP, Enot, DP, Semeraro, M, Jégou, S, Flores, C, Kwon, BS, Anderson, AC, Borg, C, Aubin, F, Ayyoub, M, De Presbiteris, AL, Cordaro, FG, Camerlingo, R, Fratangelo, F, Mozzillo, N, Pirozzi, G, Patriarca, EJ, Caputo, E, Motti, ML, Falcon, R, Miceli, R, Capone, M, Madonna, G, Mallardo, D, Carrier, MV, Panza, E, De Cicco, P, Armogida, C, Ercolano, G, Botti, G, Cirino, G, Sandru, A, Blank, M, Balatoni, T, Olasz, J, Farkas, E, Szollar, A, Savolt, A, Godeny, M, Csuka, O, Horvath, S, Eles, K, Shoenfeld, Y, Kasler, M, Costantini, S, Capone, F, Moradi, F, Berglund, P, Leandersson, K, Linnskog, R, Andersson, T, Prasad, CP, Nigro, CL, Lattanzio, L, Proby, C, Syed, N, Occelli, M, Cauchi, C, Merlano, M, Harwood, C, Thompson, A, Crook, T, Bifulco, K, Ingangi, V, Minopoli, M, Ragone, C, Pessi, A, Mannavola, F, D’Oronzo, S, Felici, C, Tucci, M, Doronzo, A, Silvestris, F, Ferretta, A, Guida, S, Maida, I, Cocco, T, Passarelli, A, Quaresmini, D, Franzese, O, Palermo, B, Di Donna, C, Sperduti, I, Foddai, M, Stabile, H, Gismondi, A, Santoni, A, Nisticò, P, Sponghini, AP, Platini, F, Marra, E, Rondonotti, D, Alabiso, O, Fierro, MT, Savoia, P, Stratica, F, Quaglino, P, Di Monta, G, Corrado, C, Di Marzo, M, Ugo, M, Di Cecilia, ML, Nicola, M, Fusciello, C, Marra, A, Guarrasi, R, Baldi, C, Russo, R, Di Giulio, G, Faiola, V, Zeppa, P, Pepe, S, Gambale, E, Carella, C, Di Paolo, A, De Tursi, M, Marra, L, De Murtas, F, Sorrentino, V, Voinea, S, Panaitescu, E, Bolovan, M, Stanciu, A, Cinca, S, Botti, C, Aquino, G, Anniciello, A, Fortes, C, Mastroeni, S, Caggiati, A, Passarelli, F, Zappalà, A, Capuano, M, Bono, R, Nudo, M, Marino, C, Michelozzi, P, De Biasio, V, Battarra, VC, Formenti, S, Ascierto, ML, McMiller, TL, Berger, AE, Danilova, L, Anders, RA, Netto, GJ, Xu, H, Pritchard, TS, Fan, J, Cheadle, C, Cope, L, Drake, CG, Pardoll, DM, Taube, JM, Topalian, SL, Gnjatic, S, Nataraj, S, Imai, N, Rahman, A, Jungbluth, AA, Pan, L, Venhaus, R, Park, A, Lehmann, FF, Lendvai, N, Cohen, AD, Cho, HJ, Daniel, S, Hirsh, V, Nanda, VGY, Peng, W, Hwu, P, Davies, MA, Ciliberto, G, Fattore, L, Malpicci, D, Aurisicchio, L, Ascierto, PA, Croce, CM, Mancini, R, Spranger, S, Gajewski, TF, Wang, Y, Ferrone, S, Vanpouille-Box, C, Wennerberg, E, Pilones, KA, Formenti, SC, Demaria, S, Tang, H, Fu, Y-X, Dummer, R, Puzanov, I, Tarhini, A, Chauvin, J-M, Pagliano, O, Fourcade, J, Sun, Z, Wang, H, Sanders, C, Kirkwood, JM, Chen, T-HT, Maurer, M, Korman, AJ, Zarour, HM, Stroncek, DF, Huber, V, Rivoltini, L, Thurin, M, Rau, T, Lugli, A, Pagès, F, Camarero, J, Sancho, A, Jommi, C, de Coaña, YP, Wolodarski, M, Yoshimoto, Y, Gentilcore, G, Poschke, I, Masucci, GV, Hansson, J, Kiessling, R, Scognamiglio, G, Sabbatino, F, Marino, FZ, Anniciello, AM, Cantile, M, Cerrone, M, Scala, S, D’alterio, C, Ianaro, A, Cirin, G, Liguori, G, Bott, G, Chapman, PB, Robert, C, Larkin, J, Haanen, JB, Ribas, A, Hogg, D, Hamid, O, Testori, A, Lorigan, P, Sosman, JA, Flaherty, KT, Yue, H, Coleman, S, Caro, I, Hauschild, A, McArthur, GA, Sznol, M, Callahan, MK, Kluger, H, Postow, MA, Gordan, R, Segal, NH, Rizvi, NA, Lesokhin, A, Atkins, MB, Burke, MM, Ralabate, A, Rivera, A, Kronenberg, SA, Agunwamba, B, Ruisi, M, Horak, C, Jiang, J, Wolchok, J, Liszkay, G, Maio, M, Mandalà, M, Demidov, L, Stoyakovskiy, D, Thomas, L, de la Cruz-Merino, L, Atkinson, V, Dutriaux, C, Garbe, C, Wongchenko, M, Chang, I, Koralek, DO, Rooney, I, Yan, Y, Dréno, B, Sullivan, R, Patel, M, Hodi, S, Amaria, R, Boasberg, P, Wallin, J, He, X, Cha, E, Richie, N, Ballinger, M, Smith, DC, Bauer, TM, Wasser, JS, Luke, JJ, Balmanoukian, AS, Kaufman, DR, Zhao, Y, Maleski, J, Leopold, L, Gangadhar, TC, Long, GV, Michielin, O, VanderWalde, A, Andtbacka, RHI, Cebon, J, Fernandez, E, Malvehy, J, Olszanski, AJ, Gause, C, Chen, L, Chou, J, Stephen Hodi, F, Brady, B, Mortier, L, Hassel, JC, Rutkowski, P, McNeil, C, Kalinka-Warzocha, E, Lebbé, C, Ny, L, Chacon, M, Queirolo, P, Loquai, C, Cheema, P, Berrocal, A, Eizmendi, KM, Bar-Sela, G, Hardy, H, Weber, JS, Grob, J-J, Marquez-Rodas, I, Schmidt, H, Briscoe, K, Baurain, J-F, Wolchok, JD, Pinto, R, De Summa, S, Garrisi, VM, Strippoli, S, Azzariti, A, Guida, G, Guida, M, Tommasi, S, Jacquelot, N, Enot, D, Flament, C, Pitt, JM, Vimond, N, Blattner, C, Yamazaki, T, Roberti, M-P, Vetizou, M, Daillere, R, Poirier-Colame, V, la Semeraro, M, Caignard, A, Slingluff, CL, Sallusto, F, Rusakiewicz, S, Weide, B, Marabelle, A, Kohrt, H, Dalle, S, Cavalcanti, A, Kroemer, G, Di Giacomo, AM, Wong, P, Yuan, J, Umansky, V, Eggermont, A, Zitvogel, L, Anna, P, Marco, T, Stefania, S, Francesco, M, Mariaelena, C, Gabriele, M, Antonio, AP, Franco, S, Roberti, MP, Enot, DP, Semeraro, M, Jégou, S, Flores, C, Kwon, BS, Anderson, AC, Borg, C, Aubin, F, Ayyoub, M, De Presbiteris, AL, Cordaro, FG, Camerlingo, R, Fratangelo, F, Mozzillo, N, Pirozzi, G, Patriarca, EJ, Caputo, E, Motti, ML, Falcon, R, Miceli, R, Capone, M, Madonna, G, Mallardo, D, Carrier, MV, Panza, E, De Cicco, P, Armogida, C, Ercolano, G, Botti, G, Cirino, G, Sandru, A, Blank, M, Balatoni, T, Olasz, J, Farkas, E, Szollar, A, Savolt, A, Godeny, M, Csuka, O, Horvath, S, Eles, K, Shoenfeld, Y, Kasler, M, Costantini, S, Capone, F, Moradi, F, Berglund, P, Leandersson, K, Linnskog, R, Andersson, T, Prasad, CP, Nigro, CL, Lattanzio, L, Proby, C, Syed, N, Occelli, M, Cauchi, C, Merlano, M, Harwood, C, Thompson, A, Crook, T, Bifulco, K, Ingangi, V, Minopoli, M, Ragone, C, Pessi, A, Mannavola, F, D’Oronzo, S, Felici, C, Tucci, M, Doronzo, A, Silvestris, F, Ferretta, A, Guida, S, Maida, I, Cocco, T, Passarelli, A, Quaresmini, D, Franzese, O, Palermo, B, Di Donna, C, Sperduti, I, Foddai, M, Stabile, H, Gismondi, A, Santoni, A, Nisticò, P, Sponghini, AP, Platini, F, Marra, E, Rondonotti, D, Alabiso, O, Fierro, MT, Savoia, P, Stratica, F, Quaglino, P, Di Monta, G, Corrado, C, Di Marzo, M, Ugo, M, Di Cecilia, ML, Nicola, M, Fusciello, C, Marra, A, Guarrasi, R, Baldi, C, Russo, R, Di Giulio, G, Faiola, V, Zeppa, P, Pepe, S, Gambale, E, Carella, C, Di Paolo, A, De Tursi, M, Marra, L, De Murtas, F, Sorrentino, V, Voinea, S, Panaitescu, E, Bolovan, M, Stanciu, A, Cinca, S, Botti, C, Aquino, G, Anniciello, A, Fortes, C, Mastroeni, S, Caggiati, A, Passarelli, F, Zappalà, A, Capuano, M, Bono, R, Nudo, M, Marino, C, Michelozzi, P, De Biasio, V, Battarra, VC, Formenti, S, Ascierto, ML, McMiller, TL, Berger, AE, Danilova, L, Anders, RA, Netto, GJ, Xu, H, Pritchard, TS, Fan, J, Cheadle, C, Cope, L, Drake, CG, Pardoll, DM, Taube, JM, Topalian, SL, Gnjatic, S, Nataraj, S, Imai, N, Rahman, A, Jungbluth, AA, Pan, L, Venhaus, R, Park, A, Lehmann, FF, Lendvai, N, Cohen, AD, Cho, HJ, Daniel, S, and Hirsh, V

Abstract

MELANOMA BRIDGE 2015 KEYNOTE SPEAKER PRESENTATIONS Molecular and immuno-advances K1 Immunologic and metabolic consequences of PI3K/AKT/mTOR activation in melanoma Vashisht G. Y. Nanda, Weiyi Peng, Patrick Hwu, Michael A. Davies K2 Non-mutational adaptive changes in melanoma cells exposed to BRAF and MEK inhibitors help the establishment of drug resistance Gennaro Ciliberto, Luigi Fattore, Debora Malpicci, Luigi Aurisicchio, Paolo Antonio Ascierto, Carlo M. Croce, Rita Mancini K3 Tumor-intrinsic beta-catenin signaling mediates tumor-immune avoidance Stefani Spranger, Thomas F. Gajewski K4 Intracellular tumor antigens as a source of targets of antibody-based immunotherapy of melanoma Yangyang Wang, Soldano Ferrone Combination therapies K5 Harnessing radiotherapy to improve responses to immunotherapy in cancer Claire Vanpouille-Box, Erik Wennerberg, Karsten A. Pilones, Silvia C. Formenti, Sandra Demaria K6 Creating a T cell-inflamed tumor microenvironment overcomes resistance to checkpoint blockade Haidong Tang, Yang Wang, Yang-Xin Fu K7 Biomarkers for treatment decisions? Reinhard Dummer K8 Combining oncolytic therapies in the era of checkpoint inhibitors Igor Puzanov K9 Immune checkpoint blockade for melanoma: should we combine or sequence ipilimumab and PD-1 antibody therapy? Michael A. Postow News in immunotherapy K10 An update on adjuvant and neoadjuvant therapy for melanom Ahmad Tarhini K11 Targeting multiple inhibitory receptors in melanoma Joe-Marc Chauvin, Ornella Pagliano, Julien Fourcade, Zhaojun Sun, Hong Wang, Cindy Sanders, John M. Kirkwood, Tseng-hui Timothy Chen, Mark Maurer, Alan J. Korman, Hassane M. Zarour K12 Improving adoptive immune therapy using genetically engineered T cells David F. Stroncek Tumor microenvironment and biomarkers K13 Myeloid cells and tumor exosomes: a crosstalk for assessing immunosuppression? Veronica Huber, Licia Rivoltini K14 Update on the SITC biomarker taskforce: progress and challenges Magdalena Thurin World-wide immunosc

Published

2016

16. 489 Investigation of the immune infiltrate of metastatic melanoma under immune checkpoint inhibition

Author

Hassel, J.C., primary, Flossdorf, M., additional, Hänzelmann, S., additional, Winkler, J., additional, Appel, L., additional, Streit, E., additional, Halama, N., additional, Faryna, M., additional, and Poschke, I., additional

Published

2016

17. Differential tumor infiltration by T-cells characterizes intrinsic molecular subtypes in breast cancer

Author

Miyan, M., primary, Schmidt-Mende, J., additional, Kiessling, R., additional, Poschke, I., additional, and de Boniface, J., additional

Published

2016

18. Immunosuppressive CD14+HLA-DRlow/neg IDO+ myeloid cells in patients following allogeneic hematopoietic stem cell transplantation

Author

Mougiakakos, D, primary, Jitschin, R, additional, von Bahr, L, additional, Poschke, I, additional, Gary, R, additional, Sundberg, B, additional, Gerbitz, A, additional, Ljungman, P, additional, and Le Blanc, K, additional

Published

2012

19. Myeloid-derived suppressor cells impair the quality of dendritic cell vaccines

Author

Poschke, I., primary, Mao, Y., additional, Adamson, L., additional, Salazar-Onfray, F., additional, Masucci, G., additional, and Kiessling, R., additional

Published

2011

20. Tumor-dependent down-regulation of the ζ-chain in T-cells is detectable in early breast cancer and correlates with immune cell function

Author

Boniface, J. De, primary, Poschke, I., additional, Mao, Y., additional, and Kiessling, R., additional

Published

2011

21. Progress in vaccination against cancer-7: report of the meeting in Stockholm, September 10–11, 2007

Author

Kiessling, R., primary, De Geer, A., additional, Johansson, C., additional, Poschke, I., additional, Triulzi, C., additional, and Vertuani, S., additional

Published

2007

22. Immunosuppressive CD14+HLA-DRlow/neg IDO+ myeloid cells in patients following allogeneic hematopoietic stem cell transplantation.

Author

Mougiakakos, D, Jitschin, R, von Bahr, L, Poschke, I, Gary, R, Sundberg, B, Gerbitz, A, Ljungman, P, and Le Blanc, K

Subjects

HEMATOPOIETIC stem cell transplantation, IMMUNOSUPPRESSIVE agents, SUPPRESSOR cells, T cells, MYELOID leukemia, CYTOKINES, GRANULOCYTE colony stimulating factor receptor, INTERLEUKIN-6

Abstract

Myeloid-derived suppressor cells (MDSCs) have emerged as a heterogeneic immunoregulatory population that can expand in response to inflammatory signals. Predominantly studied in cancer, MDSCs suppress T cells utilizing various mechanisms. In allogeneic hematopoietic stem cell transplantation (allo-HSCT) therapy-related toxicity and alloreactivity increase inflammatory cytokines that might favor an MDSC accumulation. To address this question, circulating CD14+HLA-DRlow/neg cells were studied retrospectively in 51 allo-HSCT patients. These cells represent one of the few well-described human MDSC subsets under physiological and pathological conditions. The frequency of CD14+HLA-DRlow/neg cells was significantly increased after allo-HSCT, especially in patients with acute graft-versus-host disease. Compared to healthy donor cells they were pSTAT1low (phosphorylated signal transducer and activator of transcription) and indoleamine 2,3-dioxygenase (IDO)high. Serum levels of granulocyte colony-stimulating factor and interleukin-6, which both have been linked to MDSC induction, correlated positively with the frequency of CD14+HLA-DRlow/neg cells. In vitro dysfunction of patient T cells, such as reduced proliferative capacity or CD3ζ-chain expression, was rescued by blocking the IDO activity of CD14+HLA-DRlow/neg cells. Overall, we identified a T-cell-suppressive monocytic population that expands after allo-HSCT. The mechanisms responsible for such accumulation remain to be elucidated. It will be of great interest to prospectively investigate the influence of these cells on the graft-versus-tumor and -host reaction. [ABSTRACT FROM AUTHOR]

Published

2013

23. IMMU-41. HIGH-THROUGHPUT RETRIEVAL OF THERAPEUTIC T CELL RECEPTORS FROM GLIOMA

Author

Lindner K, Tan C, Bozza M, Sanghvi K, Poschke I, Richard Harbottle, von Deimling A, Wick W, Sahm F, Platten M, Green E, and Bunse L

24. NOA-16 IDH1-vac

Author

Platten, M, primary, Bunse, L, additional, Wick, A, additional, Bunse, T, additional, Le Cornet, L, additional, Harting, I, additional, Sahm, F, additional, Sanghvi, K, additional, Tan, CL, additional, Poschke, I, additional, Green, E, additional, Justesen, S, additional, Behrens, GA, additional, Breckwoldt, M, additional, Freitag, A, additional, Rother, LM, additional, Schmitt, A, additional, Schnell, O, additional, Hense, J, additional, Misch, M, additional, Krex, D, additional, Stevanovic, S, additional, Tabatabai, G, additional, Steinbach, JP, additional, Bendszus, M, additional, von Deimling, A, additional, Schmitt, M, additional, and Wick, W, additional

25. Neoepitope-specific vaccination of patients with diffuse midline glioma targeting H3K27M induces polyclonal B and T cell responses across diverse HLA alleles

Author

Boschert, T, primary, Kromer, K, additional, Lerner, T, additional, Lindner, K, additional, Poschke, I, additional, Bunse, L, additional, Haltenhof, G, additional, Tan, C, additional, Jähne, K, additional, Mildenberger, I, additional, Sahm, K, additional, Platten, M, additional, Lindner, J, additional, and Green, E, additional

26. Vaccination with a plasmid DNA encoding HER-2/neu together with low doses of GM-CSF and IL-2 in patients with metastatic breast carcinoma: a pilot clinical trial

Author

Knutson Keith L, Piechocki Marie P, Erskine Courtney, Wei Wei Z, Charo Jehad, Poschke Isabel, Norell Håkan, Bergh Jonas, Lidbrink Elisabet, and Kiessling Rolf

Subjects

Medicine

Abstract

Abstract Background Adjuvant trastuzumab (Herceptin) treatment of breast cancer patients significantly improves their clinical outcome. Vaccination is an attractive alternative approach to provide HER-2/neu (Her2)-specific antibodies and may in addition concomitantly stimulate Her2-reactive T-cells. Here we report the first administration of a Her2-plasmid DNA (pDNA) vaccine in humans. Patients and Methods The vaccine, encoding a full-length signaling-deficient version of the oncogene Her2, was administered together with low doses of GM-CSF and IL-2 to patients with metastatic Her2-expressing breast carcinoma who were also treated with trastuzumab. Six of eight enrolled patients completed all three vaccine cycles. In the remaining two patients treatment was discontinued after one vaccine cycle due to rapid tumor progression or disease-related complications. The primary objective was the evaluation of safety and tolerability of the vaccine regimen. As a secondary objective, treatment-induced Her2-specific immunity was monitored by measuring antibody production as well as T-cell proliferation and cytokine production in response to Her2-derived antigens. Results No clinical manifestations of acute toxicity, autoimmunity or cardiotoxicity were observed after administration of Her2-pDNA in combination with GM-CSF, IL-2 and trastuzumab. No specific T-cell proliferation following in vitro stimulation of freshly isolated PBMC with recombinant human Her2 protein was induced by the vaccination. Immediately after all three cycles of vaccination no or even decreased CD4+ T-cell responses towards Her2-derived peptide epitopes were observed, but a significant increase of MHC class II restricted T-cell responses to Her2 was detected at long term follow-up. Since concurrent trastuzumab therapy was permitted, λ-subclass specific ELISAs were performed to specifically measure endogenous antibody production without interference by trastuzumab. Her2-pDNA vaccination induced and boosted Her2-specific antibodies that could be detected for several years after the last vaccine administration in a subgroup of patients. Conclusion This pilot clinical trial demonstrates that Her2-pDNA vaccination in conjunction with GM-CSF and IL-2 administration is safe, well tolerated and can induce long-lasting cellular and humoral immune responses against Her2 in patients with advanced breast cancer. Trial registration The trial registration number at the Swedish Medical Products Agency for this trial is Dnr151:785/2001.

Published

2010

27. Vaccination with a plasmid DNA encoding HER-2/neu together with low doses of GM-CSF and IL-2 in patients with metastatic breast carcinoma: a pilot clinical trial.

Author

Norell H, Poschke I, Charo J, Wei WZ, Erskine C, Piechocki MP, Knutson KL, Bergh J, Lidbrink E, Kiessling R, Norell, Håkan, Poschke, Isabel, Charo, Jehad, Wei, Wei Z, Erskine, Courtney, Piechocki, Marie P, Knutson, Keith L, Bergh, Jonas, Lidbrink, Elisabet, and Kiessling, Rolf

Abstract

Background: Adjuvant trastuzumab (Herceptin) treatment of breast cancer patients significantly improves their clinical outcome. Vaccination is an attractive alternative approach to provide HER-2/neu (Her2)-specific antibodies and may in addition concomitantly stimulate Her2-reactive T-cells. Here we report the first administration of a Her2-plasmid DNA (pDNA) vaccine in humans.Patients and Methods: The vaccine, encoding a full-length signaling-deficient version of the oncogene Her2, was administered together with low doses of GM-CSF and IL-2 to patients with metastatic Her2-expressing breast carcinoma who were also treated with trastuzumab. Six of eight enrolled patients completed all three vaccine cycles. In the remaining two patients treatment was discontinued after one vaccine cycle due to rapid tumor progression or disease-related complications. The primary objective was the evaluation of safety and tolerability of the vaccine regimen. As a secondary objective, treatment-induced Her2-specific immunity was monitored by measuring antibody production as well as T-cell proliferation and cytokine production in response to Her2-derived antigens.Results: No clinical manifestations of acute toxicity, autoimmunity or cardiotoxicity were observed after administration of Her2-pDNA in combination with GM-CSF, IL-2 and trastuzumab. No specific T-cell proliferation following in vitro stimulation of freshly isolated PBMC with recombinant human Her2 protein was induced by the vaccination. Immediately after all three cycles of vaccination no or even decreased CD4+ T-cell responses towards Her2-derived peptide epitopes were observed, but a significant increase of MHC class II restricted T-cell responses to Her2 was detected at long term follow-up. Since concurrent trastuzumab therapy was permitted, lambda-subclass specific ELISAs were performed to specifically measure endogenous antibody production without interference by trastuzumab. Her2-pDNA vaccination induced and boosted Her2-specific antibodies that could be detected for several years after the last vaccine administration in a subgroup of patients.Conclusion: This pilot clinical trial demonstrates that Her2-pDNA vaccination in conjunction with GM-CSF and IL-2 administration is safe, well tolerated and can induce long-lasting cellular and humoral immune responses against Her2 in patients with advanced breast cancer. [ABSTRACT FROM AUTHOR]

Published

2010

28. optiPRM: A Targeted Immunopeptidomics LC-MS Workflow With Ultra-High Sensitivity for the Detection of Mutation-Derived Tumor Neoepitopes From Limited Input Material.

Author

Salek M, Förster JD, Becker JP, Meyer M, Charoentong P, Lyu Y, Lindner K, Lotsch C, Volkmar M, Momburg F, Poschke I, Fröhling S, Schmitz M, Offringa R, Platten M, Jäger D, Zörnig I, and Riemer AB

Subjects

Humans, Chromatography, Liquid, Mass Spectrometry methods, Epitopes immunology, Neoplasms immunology, Peptides, Animals, Antigens, Neoplasm immunology, Mice, Liquid Chromatography-Mass Spectrometry, Workflow, Mutation, Proteomics methods

Abstract

Personalized cancer immunotherapies such as therapeutic vaccines and adoptive transfer of T cell receptor-transgenic T cells rely on the presentation of tumor-specific peptides by human leukocyte antigen class I molecules to cytotoxic T cells. Such neoepitopes can for example arise from somatic mutations and their identification is crucial for the rational design of new therapeutic interventions. Liquid chromatography mass spectrometry (LC-MS)-based immunopeptidomics is the only method to directly prove actual peptide presentation and we have developed a parameter optimization workflow to tune targeted assays for maximum detection sensitivity on a per peptide basis, termed optiPRM. Optimization of collision energy using optiPRM allows for the improved detection of low abundant peptides that are very hard to detect using standard parameters. Applying this to immunopeptidomics, we detected a neoepitope in a patient-derived xenograft from as little as 2.5 × 10 6  cells input. Application of the workflow on small patient tumor samples allowed for the detection of five mutation-derived neoepitopes in three patients. One neoepitope was confirmed to be recognized by patient T cells. In conclusion, optiPRM, a targeted MS workflow reaching ultra-high sensitivity by per peptide parameter optimization, makes the identification of actionable neoepitopes possible from sample sizes usually available in the clinic., Competing Interests: Conflicts of interest The authors declare no competing interests., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

29. T-Cell-Based Platform for Functional Screening of T-Cell Receptors Identified in Single-Cell RNA Sequencing Data Sets of Tumor-Infiltrating T-Cells.

Author

Ehrenfried AR, Zens S, Steffens LK, Kehm H, Paul A, Lauenstein C, Volkmar M, Poschke I, Meng Z, and Offringa R

Abstract

The advent of single-cell RNA sequencing (scRNAseq) has enabled in-depth gene expression analysis of several thousand cells isolated from tissues. We recently reported the application of scRNAseq toward the dissection of the tumor-infiltrating T-cell repertoire in human pancreatic cancer samples. In this study, we demonstrated that combined whole transcriptome and T-cell receptor (TCR) sequencing provides an effective way to identify tumor-reactive TCR clonotypes on the basis of gene expression signatures. An important aspect in this respect was the experimental validation of TCR-mediated anti-tumor reactivity by means of an in vitro functional assay, which is the subject of the present protocol. This assay involves the transient transfection of mRNA gene constructs encoding TCRα/β pairs into a well-defined human T-cell line, followed by co-cultivation with the tumor cells of interest and detection of T-cell activation by flow cytometry. Due to the high transfectability and the low background reactivity of the mock-transfected T-cell line to a wide variety of tumor cells, this assay offers a highly robust and versatile platform for the functional screening of large numbers of TCR clonotypes as identified in scRNAseq data sets. Whereas the assay was initially developed to test TCRs of human origin, it was more recently also applied successfully for the screening of TCRs of murine origin. Key features • Efficient functional screening of-and discrimination between-TCRs isolated from tumor-reactive vs. bystander T-cell clones. • Applicable to TCRs from CD8 + and CD4 + tumor-infiltrating T-cells originating from patient-derived tumor samples and syngeneic mouse tumor models. • Rapid flow cytometric detection of T-cell activation by means of TNFα and CD107a expression after a 5 h T-cell/tumor cell co-cultivation., Competing Interests: Competing interestsThe authors declare no competing interests., (©Copyright : © 2024 The Authors; This is an open access article under the CC BY-NC license.)

Published

2024

30. H3K27M neoepitope vaccination in diffuse midline glioma induces B and T cell responses across diverse HLA loci of a recovered patient.

Author

Boschert T, Kromer K, Lerner T, Lindner K, Haltenhof G, Tan CL, Jähne K, Poschke I, Bunse L, Eisele P, Grassl N, Mildenberger I, Sahm K, Platten M, Lindner JM, and Green EW

Subjects

Humans, HLA-DR Antigens, Vaccination, Epitopes, T-Lymphocytes, Glioma genetics

Abstract

H3K27M, a driver mutation with T and B cell neoepitope characteristics, defines an aggressive subtype of diffuse glioma with poor survival. We functionally dissect the immune response of one patient treated with an H3K27M peptide vaccine who subsequently entered complete remission. The vaccine robustly expanded class II human leukocyte antigen (HLA)-restricted peripheral H3K27M-specific T cells. Using functional assays, we characterized 34 clonally unique H3K27M-reactive T cell receptors and identified critical, conserved motifs in their complementarity-determining region 3 regions. Using detailed HLA mapping, we further demonstrate that diverse HLA-DQ and HLA-DR alleles present immunogenic H3K27M epitopes. Furthermore, we identified and profiled H3K27M-reactive B cell receptors from activated B cells in the cerebrospinal fluid. Our results uncover the breadth of the adaptive immune response against a shared clonal neoantigen across multiple HLA allelotypes and support the use of class II-restricted peptide vaccines to stimulate tumor-specific T and B cells harboring receptors with therapeutic potential.

Published

2024

31. MediMer: a versatile do-it-yourself peptide-receptive MHC class I multimer platform for tumor neoantigen-specific T cell detection.

Author

Meyer M, Parpoulas C, Barthélémy T, Becker JP, Charoentong P, Lyu Y, Börsig S, Bulbuc N, Tessmer C, Weinacht L, Ibberson D, Schmidt P, Pipkorn R, Eichmüller SB, Steinberger P, Lindner K, Poschke I, Platten M, Fröhling S, Riemer AB, Hassel JC, Roberti MP, Jäger D, Zörnig I, and Momburg F

Subjects

Humans, Receptors, Antigen, T-Cell, HLA Antigens metabolism, Antigens, Neoplasm, CD8-Positive T-Lymphocytes, Peptides

Abstract

Peptide-loaded MHC class I (pMHC-I) multimers have revolutionized our capabilities to monitor disease-associated T cell responses with high sensitivity and specificity. To improve the discovery of T cell receptors (TCR) targeting neoantigens of individual tumor patients with recombinant MHC molecules, we developed a peptide-loadable MHC class I platform termed MediMer. MediMers are based on soluble disulfide-stabilized β 2 -microglobulin/heavy chain ectodomain single-chain dimers (dsSCD) that can be easily produced in large quantities in eukaryotic cells and tailored to individual patients' HLA allotypes with only little hands-on time. Upon transient expression in CHO-S cells together with ER-targeted BirA biotin ligase, biotinylated dsSCD are purified from the cell supernatant and are ready to use. We show that CHO-produced dsSCD are free of endogenous peptide ligands. Empty dsSCD from more than 30 different HLA-A,B,C allotypes, that were produced and validated so far, can be loaded with synthetic peptides matching the known binding criteria of the respective allotypes, and stored at low temperature without loss of binding activity. We demonstrate the usability of peptide-loaded dsSCD multimers for the detection of human antigen-specific T cells with comparable sensitivities as multimers generated with peptide-tethered β 2 m-HLA heavy chain single-chain trimers (SCT) and wild-type peptide-MHC-I complexes prior formed in small-scale refolding reactions. Using allotype-specific, fluorophore-labeled competitor peptides, we present a novel dsSCD-based peptide binding assay capable of interrogating large libraries of in silico predicted neoepitope peptides by flow cytometry in a high-throughput and rapid format. We discovered rare T cell populations with specificity for tumor neoepitopes and epitopes from shared tumor-associated antigens in peripheral blood of a melanoma patient including a so far unreported HLA-C*08:02-restricted NY-ESO-1-specific CD8 + T cell population. Two representative TCR of this T cell population, which could be of potential value for a broader spectrum of patients, were identified by dsSCD-guided single-cell sequencing and were validated by cognate pMHC-I multimer staining and functional responses to autologous peptide-pulsed antigen presenting cells. By deploying the technically accessible dsSCD MHC-I MediMer platform, we hope to significantly improve success rates for the discovery of personalized neoepitope-specific TCR in the future by being able to also cover rare HLA allotypes., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision., (Copyright © 2024 Meyer, Parpoulas, Barthélémy, Becker, Charoentong, Lyu, Börsig, Bulbuc, Tessmer, Weinacht, Ibberson, Schmidt, Pipkorn, Eichmüller, Steinberger, Lindner, Poschke, Platten, Fröhling, Riemer, Hassel, Roberti, Jäger, Zörnig and Momburg.)

Published

2024

32. Transcriptome-based identification of tumor-reactive and bystander CD8 + T cell receptor clonotypes in human pancreatic cancer.

Author

Meng Z, Rodriguez Ehrenfried A, Tan CL, Steffens LK, Kehm H, Zens S, Lauenstein C, Paul A, Schwab M, Förster JD, Salek M, Riemer AB, Wu H, Eckert C, Leonhardt CS, Strobel O, Volkmar M, Poschke I, and Offringa R

Subjects

Humans, CD8-Positive T-Lymphocytes, Transcriptome genetics, Receptors, Antigen, T-Cell genetics, Pancreatic Neoplasms pathology, Carcinoma, Pancreatic Ductal genetics, Carcinoma, Pancreatic Ductal pathology

Abstract

Pancreatic ductal adenocarcinoma (PDAC) is generally refractory to immune checkpoint blockade, although patients with genetically unstable tumors can show modest therapeutic benefit. We previously demonstrated the presence of tumor-reactive CD8 + T cells in PDAC samples. Here, we charted the tumor-infiltrating T cell repertoire in PDAC by combining single-cell transcriptomics with functional testing of T cell receptors (TCRs) for reactivity against autologous tumor cells. On the basis of a comprehensive dataset including 93 tumor-reactive and 65 bystander TCR clonotypes, we delineated a gene signature that effectively distinguishes between these T cell subsets in PDAC, as well as in other tumor indications. This revealed a high frequency of tumor-reactive TCR clonotypes in three genetically unstable samples. In contrast, the T cell repertoire in six genetically stable PDAC tumors was largely dominated by bystander T cells. Nevertheless, multiple tumor-reactive TCRs were successfully identified in each of these samples, thereby providing a perspective for personalized immunotherapy in this treatment-resistant indication.

Published

2023

33. INTERCEPT H3: a multicenter phase I peptide vaccine trial for the treatment of H3-mutated diffuse midline gliomas.

Author

Grassl N, Sahm K, Süße H, Poschke I, Bunse L, Bunse T, Boschert T, Mildenberger I, Rupp AK, Ewinger MP, Lanz LM, Denk M, Tabatabai G, Ronellenfitsch MW, Herrlinger U, Glas M, Krex D, Vajkoczy P, Wick A, Harting I, Sahm F, von Deimling A, Bendszus M, Wick W, and Platten M

Abstract

Introduction: Diffuse midline gliomas (DMG) are universally lethal central nervous system tumors that carry almost unanimously the clonal driver mutation histone-3 K27M (H3K27M). The single amino acid substitution of lysine to methionine harbors a neoantigen that is presented in tumor tissue. The long peptide vaccine H3K27M-vac targeting this major histocompatibility complex class II (MHC class II)-restricted neoantigen induces mutation-specific immune responses that suppress the growth of H3K27M + flank tumors in an MHC-humanized rodent model., Methods: INTERCEPT H3 is a non-controlled open label, single arm, multicenter national phase 1 trial to assess safety, tolerability and immunogenicity of H3K27M-vac in combination with standard radiotherapy and the immune checkpoint inhibitor atezolizumab (ATE). 15 adult patients with newly diagnosed K27M-mutant histone-3.1 (H3.1K27M) or histone-3.3 (H3.3K27M) DMG will be enrolled in this trial. The 27mer peptide vaccine H3K27M-vac will be administered concomitantly to standard radiotherapy (RT) followed by combinatorial treatment with the programmed death-ligand 1 (PD-L1) targeting antibody ATE. The first three vaccines will be administered bi-weekly (q2w) followed by a dose at the beginning of recovery after RT and six-weekly administrations of doses 5 to 11 thereafter. In a safety lead-in, the first three patients (pts. 1-3) will be enrolled sequentially., Perspective: H3K27M-vac is a neoepitope targeting long peptide vaccine derived from the clonal driver mutation H3K27M in DMG. The INTERCEPT H3 trial aims at demonstrating (1) safety and (2) immunogenicity of repeated fixed dose vaccinations of H3K27M-vac administered with RT and ATE in adult patients with newly diagnosed H3K27M-mutant DMG., Trial Registration: NCT04808245., (© 2023. Deutsche Gesellschaft für Neurologie e.V.)

Published

2023

34. A H3K27M-targeted vaccine in adults with diffuse midline glioma.

Author

Grassl N, Poschke I, Lindner K, Bunse L, Mildenberger I, Boschert T, Jähne K, Green EW, Hülsmeyer I, Jünger S, Kessler T, Suwala AK, Eisele P, Breckwoldt MO, Vajkoczy P, Grauer OM, Herrlinger U, Tonn JC, Denk M, Sahm F, Bendszus M, von Deimling A, Winkler F, Wick W, Platten M, and Sahm K

Subjects

Humans, Adult, Animals, Mice, Histones genetics, Mutation genetics, Brain Neoplasms genetics, Brain Neoplasms therapy, Glioma genetics, Glioma therapy, Vaccines

Abstract

Substitution of lysine 27 to methionine in histone H3 (H3K27M) defines an aggressive subtype of diffuse glioma. Previous studies have shown that a H3K27M-specific long peptide vaccine (H3K27M-vac) induces mutation-specific immune responses that control H3K27M + tumors in major histocompatibility complex-humanized mice. Here we describe a first-in-human treatment with H3K27M-vac of eight adult patients with progressive H3K27M + diffuse midline glioma on a compassionate use basis. Five patients received H3K27M-vac combined with anti-PD-1 treatment based on physician's discretion. Repeat vaccinations with H3K27M-vac were safe and induced CD4 + T cell-dominated, mutation-specific immune responses in five of eight patients across multiple human leukocyte antigen types. Median progression-free survival after vaccination was 6.2 months and median overall survival was 12.8 months. One patient with a strong mutation-specific T cell response after H3K27M-vac showed pseudoprogression followed by sustained complete remission for >31 months. Our data demonstrate safety and immunogenicity of H3K27M-vac in patients with progressive H3K27M + diffuse midline glioma., (© 2023. The Author(s).)

Published

2023

35. T cell receptor dynamic and transcriptional determinants of T cell expansion in glioma-infiltrating T cells.

Author

Lu KH, Michel J, Kilian M, Aslan K, Qi H, Kehl N, Jung S, Sanghvi K, Lindner K, Zhang XW, Green EW, Poschke I, Ratliff M, Bunse T, Sahm F, von Deimling A, Wick W, Platten M, and Bunse L

Abstract

Background: Glioblastoma (GBM) is characterized by low numbers of glioma-infiltrating lymphocytes (GIL) with a dysfunctional phenotype. Whether this dysfunctional phenotype is fixed or can be reversed upon ex vivo culturing is poorly understood. The aim of this study was to assess T cell receptor (TCR)-dynamics and -specificities as well as determinants of in vitro GIL expansion by sequencing-based technologies and functional assays to explore the use of GIL for cell therapy., Methods: By means of flow cytometry, T cell functionality in GIL cultures was assessed from 9 GBM patients. TCR beta sequencing (TCRB-seq) was used for TCR repertoire profiling before and after in vitro expansion. Microarrays or RNA sequencing (RNA-seq) were performed from 6 micro-dissected GBM tissues and healthy brain RNA to assess the individual expression of GBM-associated antigens (GAA). GIL reactivity against in silico predicted tumor-associated antigens (TAA) and patient-individual GAA was assessed by ELISpot assay. Combined ex vivo single cell (sc)TCR-/RNA-seq and post-expansion TCRB-seq were used to evaluate transcriptional signatures that determine GIL expansion., Results: Human GIL regains cellular fitness upon in vitro expansion. Profound TCR dynamics were observed during in vitro expansion and only in one of six GIL cultures, reactivity against GAA was observed. Paired ex vivo scTCR/RNA-seq and TCRB-seq revealed predictive transcriptional signatures that determine GIL expansion., Conclusions: Profound TCR repertoire dynamics occur during GIL expansion. Ex vivo transcriptional T cell states determine expansion capacity in gliomas. Our observation has important implications for the use of GIL for cell therapy including genetic manipulation to maintain both antigen specificity and expansion capacity., (© The Author(s) 2022. Published by Oxford University Press, the Society for Neuro-Oncology and the European Association of Neuro-Oncology.)

Published

2022

36. AMPLIFY-NEOVAC: a randomized, 3-arm multicenter phase I trial to assess safety, tolerability and immunogenicity of IDH1-vac combined with an immune checkpoint inhibitor targeting programmed death-ligand 1 in isocitrate dehydrogenase 1 mutant gliomas.

Author

Bunse L, Rupp AK, Poschke I, Bunse T, Lindner K, Wick A, Blobner J, Misch M, Tabatabai G, Glas M, Schnell O, Gempt J, Denk M, Reifenberger G, Bendszus M, Wuchter P, Steinbach JP, Wick W, and Platten M

Abstract

Introduction: Isocitrate dehydrogenase (IDH) mutations are disease-defining mutations in IDH-mutant astrocytomas and IDH-mutant and 1p/19q-codeleted oligodendrogliomas. In more than 80% of these tumors, point mutations in IDH type 1 (IDH1) lead to expression of the tumor-specific protein IDH1R132H. IDH1R132H harbors a major histocompatibility complex class II (MHCII)-restricted neoantigen that was safely and successfully targeted in a first-in human clinical phase 1 trial evaluating an IDH1R132H 20-mer peptide vaccine (IDH1-vac) in newly diagnosed astrocytomas concomitant to standard of care (SOC)., Methods: AMPLIFY-NEOVAC is a randomized, 3-arm, window-of-opportunity, multicenter national phase 1 trial to assess safety, tolerability and immunogenicity of IDH1-vac combined with avelumab (AVE), an immune checkpoint inhibitor (ICI) targeting programmed death-ligand 1 (PD-L1). The target population includes patients with resectable IDH1R132H-mutant recurrent astrocytoma or oligodendroglioma after SOC. Neoadjuvant and adjuvant immunotherapy will be administered to 48 evaluable patients. In arm 1, 12 patients will receive IDH1-vac; in arm 2, 12 patients will receive the combination of IDH1-vac and AVE, and in arm 3, 24 patients will receive AVE only. Until disease progression according to immunotherapy response assessment for neuro-oncology (iRANO) criteria, treatment will be administered over a period of maximum 43 weeks (primary treatment phase) followed by facultative maintenance treatment., Perspective: IDH1R132H 20-mer peptide is a shared clonal driver mutation-derived neoepitope in diffuse gliomas. IDH1-vac safely targets IDH1R132H in newly diagnosed astrocytomas. AMPLIFY-NEOVAC aims at (1) demonstrating safety of enhanced peripheral IDH1-vac-induced T cell responses by combined therapy with AVE compared to IDH1-vac only and (2) investigating intra-glioma abundance and phenotypes of IDH1-vac induced T cells in exploratory post-treatment tissue analyses. In an exploratory analysis, both will be correlated with clinical outcome., Trial Registration: NCT03893903., (© 2022. The Author(s).)

Published

2022

37. Salt-inducible kinase 3 protects tumor cells from cytotoxic T-cell attack by promoting TNF-induced NF-κB activation.

Author

Sorrentino A, Menevse AN, Michels T, Volpin V, Durst FC, Sax J, Xydia M, Hussein A, Stamova S, Spoerl S, Heuschneider N, Muehlbauer J, Jeltsch KM, Rathinasamy A, Werner-Klein M, Breinig M, Mikietyn D, Kohler C, Poschke I, Purr S, Reidell O, Martins Freire C, Offringa R, Gebhard C, Spang R, Rehli M, Boutros M, Schmidl C, Khandelwal N, and Beckhove P

Subjects

Apoptosis, Humans, Phosphorylation, T-Lymphocytes metabolism, NF-kappa B metabolism, Tumor Necrosis Factor-alpha metabolism

Abstract

Background: Cancer immunotherapeutic strategies showed unprecedented results in the clinic. However, many patients do not respond to immuno-oncological treatments due to the occurrence of a plethora of immunological obstacles, including tumor intrinsic mechanisms of resistance to cytotoxic T-cell (TC) attack. Thus, a deeper understanding of these mechanisms is needed to develop successful immunotherapies., Methods: To identify novel genes that protect tumor cells from effective TC-mediated cytotoxicity, we performed a genetic screening in pancreatic cancer cells challenged with tumor-infiltrating lymphocytes and antigen-specific TCs., Results: The screening revealed 108 potential genes that protected tumor cells from TC attack. Among them, salt-inducible kinase 3 (SIK3) was one of the strongest hits identified in the screening. Both genetic and pharmacological inhibitions of SIK3 in tumor cells dramatically increased TC-mediated cytotoxicity in several in vitro coculture models, using different sources of tumor and TCs. Consistently, adoptive TC transfer of TILs led to tumor growth inhibition of SIK3-depleted cancer cells in vivo. Mechanistic analysis revealed that SIK3 rendered tumor cells susceptible to tumor necrosis factor (TNF) secreted by tumor-activated TCs. SIK3 promoted nuclear factor kappa B (NF-κB) nuclear translocation and inhibited caspase-8 and caspase-9 after TNF stimulation. Chromatin accessibility and transcriptome analyses showed that SIK3 knockdown profoundly impaired the expression of prosurvival genes under the TNF-NF-κB axis. TNF stimulation led to SIK3-dependent phosphorylation of the NF-κB upstream regulators inhibitory-κB kinase and NF-kappa-B inhibitor alpha on the one side, and to inhibition of histone deacetylase 4 on the other side, thus sustaining NF-κB activation and nuclear stabilization. A SIK3-dependent gene signature of TNF-mediated NF-κB activation was found in a majority of pancreatic cancers where it correlated with increased cytotoxic TC activity and poor prognosis., Conclusion: Our data reveal an abundant molecular mechanism that protects tumor cells from cytotoxic TC attack and demonstrate that pharmacological inhibition of this pathway is feasible., Competing Interests: Competing interests: This work was supported by iOmx Therapeutics AG (Martinsried, Germany)., (© Author(s) (or their employer(s)) 2022. Re-use permitted under CC BY-NC. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2022

38. Humoral and cellular responses after COVID-19 vaccination in anti-CD20-treated lymphoma patients.

Author

Liebers N, Speer C, Benning L, Bruch PM, Kraemer I, Meissner J, Schnitzler P, Kräusslich HG, Dreger P, Mueller-Tidow C, Poschke I, and Dietrich S

Subjects

Adult, Aged, Aged, 80 and over, Antibodies, Monoclonal, Humanized adverse effects, Antibodies, Monoclonal, Humanized therapeutic use, Antibodies, Neutralizing biosynthesis, Antibodies, Viral biosynthesis, Antigens, CD20 immunology, Antineoplastic Agents, Immunological adverse effects, Antineoplastic Agents, Immunological therapeutic use, Female, Humans, Immunity, Cellular, Immunocompromised Host, Male, Middle Aged, Multivariate Analysis, Rituximab adverse effects, Rituximab therapeutic use, Seroconversion, Young Adult, COVID-19 immunology, COVID-19 prevention & control, COVID-19 Vaccines administration & dosage, Lymphoma immunology, Lymphoma therapy, SARS-CoV-2 immunology

Published

2022

39. A vaccine targeting mutant IDH1 in newly diagnosed glioma.

Author

Platten M, Bunse L, Wick A, Bunse T, Le Cornet L, Harting I, Sahm F, Sanghvi K, Tan CL, Poschke I, Green E, Justesen S, Behrens GA, Breckwoldt MO, Freitag A, Rother LM, Schmitt A, Schnell O, Hense J, Misch M, Krex D, Stevanovic S, Tabatabai G, Steinbach JP, Bendszus M, von Deimling A, Schmitt M, and Wick W

Subjects

Adult, Cells, Cultured, Disease Progression, Female, Glioma genetics, Glioma immunology, Humans, Male, Mutant Proteins genetics, Mutant Proteins immunology, Phenotype, Receptors, Antigen, T-Cell immunology, Survival Rate, T-Lymphocytes immunology, Cancer Vaccines immunology, Cancer Vaccines therapeutic use, Glioma diagnosis, Glioma therapy, Isocitrate Dehydrogenase genetics, Isocitrate Dehydrogenase immunology, Mutation

Abstract

Mutated isocitrate dehydrogenase 1 (IDH1) defines a molecularly distinct subtype of diffuse glioma 1-3 . The most common IDH1 mutation in gliomas affects codon 132 and encodes IDH1(R132H), which harbours a shared clonal neoepitope that is presented on major histocompatibility complex (MHC) class II 4,5 . An IDH1(R132H)-specific peptide vaccine (IDH1-vac) induces specific therapeutic T helper cell responses that are effective against IDH1(R132H) + tumours in syngeneic MHC-humanized mice 4,6-8 . Here we describe a multicentre, single-arm, open-label, first-in-humans phase I trial that we carried out in 33 patients with newly diagnosed World Health Organization grade 3 and 4 IDH1(R132H) + astrocytomas (Neurooncology Working Group of the German Cancer Society trial 16 (NOA16), ClinicalTrials.gov identifier NCT02454634). The trial met its primary safety endpoint, with vaccine-related adverse events restricted to grade 1. Vaccine-induced immune responses were observed in 93.3% of patients across multiple MHC alleles. Three-year progression-free and death-free rates were 0.63 and 0.84, respectively. Patients with immune responses showed a two-year progression-free rate of 0.82. Two patients without an immune response showed tumour progression within two years of first diagnosis. A mutation-specificity score that incorporates the duration and level of vaccine-induced IDH1(R132H)-specific T cell responses was associated with intratumoral presentation of the IDH1(R132H) neoantigen in pre-treatment tumour tissue. There was a high frequency of pseudoprogression, which indicates intratumoral inflammatory reactions. Pseudoprogression was associated with increased vaccine-induced peripheral T cell responses. Combined single-cell RNA and T cell receptor sequencing showed that tumour-infiltrating CD40LG + and CXCL13 + T helper cell clusters in a patient with pseudoprogression were dominated by a single IDH1(R132H)-reactive T cell receptor.

Published

2021

40. Complete and long-lasting clinical responses in immune checkpoint inhibitor-resistant, metastasized melanoma treated with adoptive T cell transfer combined with DC vaccination.

Author

Lövgren T, Wolodarski M, Wickström S, Edbäck U, Wallin M, Martell E, Markland K, Blomberg P, Nyström M, Lundqvist A, Jacobsson H, Ullenhag G, Ljungman P, Hansson J, Masucci G, Tell R, Poschke I, Adamson L, Mattsson J, and Kiessling R

Subjects

Humans, Immunotherapy, Adoptive, Positron Emission Tomography Computed Tomography, Vaccination, Immune Checkpoint Inhibitors, Melanoma therapy

Abstract

Development of T cell-directed immune checkpoint inhibitors (ICI) has revolutionized metastatic melanoma (MM) therapy, but <50% of treated patients experience durable responses. This phase I trial (NCT01946373) investigates the safety/feasibility of tumor-infiltrating lymphocyte (TIL) adoptive cell therapy (ACT) combined with dendritic cell (DC) vaccination in MM patients progressing on ICI. An initial cohort (5 patients) received TIL therapy alone to evaluate safety and allow for optimization of TIL expansion protocols. A second cohort (first-in-man, 5 patients) received TIL combined with autologous tumor lysate-loaded DC vaccination. All patients received cyclophosphamide/fludarabine preconditioning prior to, and intravenous (i.v.) IL-2 after, TIL transfer. The DC vaccine was given as five intradermal injections after TIL and IL-2 administration. [ 18 F]-FDG PET/CT radiology was performed to evaluate clinical response, according to RECIST 1.1 (on the CT part). Immunological monitoring was performed by flow cytometry and T-cell receptor (TCR) sequencing. In the safety/optimization cohort, all patients had a mixed response or stable disease, but none durable. In the combination cohort, two patients experienced complete responses (CR) that are still ongoing (>36 and >18 months, respectively). In addition, two patients had partial responses (PR), one still ongoing (>42 months) with only a small bone-lesion remaining, and one of short duration (<4 months). One patient died early during treatment and did not receive DC. Long-lasting persistency of the injected TILs was demonstrated in blood. In summary, we report clinical responses by TIL therapy combined with DC vaccination in 4 out of 4 treated MM patients who previously failed ICI., (© 2020 The Author(s). Published with license by Taylor & Francis Group, LLC.)

Published

2020

41. INFORM2 NivEnt: The first trial of the INFORM2 biomarker driven phase I/II trial series: the combination of nivolumab and entinostat in children and adolescents with refractory high-risk malignancies.

Author

van Tilburg CM, Witt R, Heiss M, Pajtler KW, Plass C, Poschke I, Platten M, Harting I, Sedlaczek O, Freitag A, Meyrath D, Taylor L, Balasubramanian GP, Jäger N, Pfaff E, Jones BC, Milde T, Pfister SM, Jones DTW, Kopp-Schneider A, and Witt O

Subjects

Adolescent, Antineoplastic Combined Chemotherapy Protocols adverse effects, Bayes Theorem, Benzamides adverse effects, Biomarkers, Tumor genetics, Biomarkers, Tumor metabolism, Child, Dose-Response Relationship, Drug, Drug Monitoring methods, Drug Resistance, Neoplasm, Female, Humans, Male, Medical Futility, Mutation, Neoplasms diagnosis, Neoplasms genetics, Neoplasms pathology, Nivolumab adverse effects, Precision Medicine methods, Pyridines adverse effects, Treatment Outcome, Young Adult, Antineoplastic Combined Chemotherapy Protocols administration & dosage, Benzamides administration & dosage, Biomarkers, Tumor analysis, Neoplasms drug therapy, Nivolumab administration & dosage, Pyridines administration & dosage

Abstract

Background: Pediatric patients with relapsed or refractory disease represent a population with a desperate medical need. The aim of the INFORM (INdividualized Therapy FOr Relapsed Malignancies in Childhood) program is to translate next generation molecular diagnostics into a biomarker driven treatment strategy. The program consists of two major foundations: the INFORM registry providing a molecular screening platform and the INFORM2 series of biomarker driven phase I/II trials. The INFORM2 NivEnt trial aims to determine the recommended phase 2 dose (RP2D) of the combination treatment of nivolumab and entinostat (phase I) and to evaluate activity and safety (phase II)., Methods: This is an exploratory non-randomized, open-label, multinational and multicenter seamless phase I/II trial in children and adolescents with relapsed / refractory or progressive high-risk solid tumors and CNS tumors. The phase I is divided in 2 age cohorts: 12-21 years and 6-11 years and follows a 3 + 3 design with two dose levels for entinostat (2 mg/m 2 and 4 mg/m 2 once per week) and fixed dose nivolumab (3 mg/kg every 2 weeks). Patients entering the trial on RP2D can seamlessly enter phase II which consists of a biomarker defined four group basket trial: high mutational load (group A), high PD-L1 mRNA expression (group B), focal MYC(N) amplification (group C), low mutational load and low PD-L1 mRNA expression and no MYC(N) amplification (group D). A Bayesian adaptive design will be used to early stop cohorts that fail to show evidence of activity. The maximum number of patients is 128., Discussion: This trial intends to exploit the immune enhancing effects of entinostat on nivolumab using an innovative biomarker driven approach in order to maximize the chance of detecting signs of activity. It prevents exposure to unnecessary risks by applying the Bayesian adaptive design for early stopping for futility. The adaptive biomarker driven design provides an innovative approach accelerating drug development and reducing exposure to investigational treatments in these vulnerable children at the same time., Trial Registration: ClinicalTrials.gov, NCT03838042. Registered on 12 February 2019.

Published

2020

42. Phosphoproteomics of CD2 signaling reveals AMPK-dependent regulation of lytic granule polarization in cytotoxic T cells.

Author

Zurli V, Montecchi T, Heilig R, Poschke I, Volkmar M, Wimmer G, Boncompagni G, Turacchio G, D'Elios MM, Campoccia G, Resta N, Offringa R, Fischer R, Acuto O, Baldari CT, and Kabanova A

Subjects

Humans, Phosphorylation immunology, Proteomics, AMP-Activated Protein Kinases immunology, CD2 Antigens immunology, Phosphoproteins immunology, Secretory Vesicles immunology, Signal Transduction immunology, T-Lymphocytes, Cytotoxic immunology

Abstract

Understanding the costimulatory signaling that enhances the activity of cytotoxic T cells (CTLs) could identify potential targets for immunotherapy. Here, we report that CD2 costimulation plays a critical role in target cell killing by freshly isolated human CD8 + T cells, which represent a challenging but valuable model to gain insight into CTL biology. We found that CD2 stimulation critically enhanced signaling by the T cell receptor in the formation of functional immune synapses by promoting the polarization of lytic granules toward the microtubule-organizing center (MTOC). To gain insight into the underlying mechanism, we explored the CD2 signaling network by phosphoproteomics, which revealed 616 CD2-regulated phosphorylation events in 373 proteins implicated in the regulation of vesicular trafficking, cytoskeletal organization, autophagy, and metabolism. Signaling by the master metabolic regulator AMP-activated protein kinase (AMPK) was a critical node in the CD2 network, which promoted granule polarization toward the MTOC in CD8 + T cells. Granule trafficking was driven by active AMPK enriched on adjacent lysosomes, revealing previously uncharacterized signaling cross-talk between vesicular compartments in CD8 + T cells. Our results thus establish CD2 signaling as key for mediating cytotoxic killing and granule polarization in freshly isolated CD8 + T cells and strengthen the rationale to choose CD2 and AMPK as therapeutic targets to enhance CTL activity., (Copyright © 2020 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.)

Published

2020

43. Cancer Neoepitopes for Immunotherapy: Discordance Between Tumor-Infiltrating T Cell Reactivity and Tumor MHC Peptidome Display.

Author

Wickström SL, Lövgren T, Volkmar M, Reinhold B, Duke-Cohan JS, Hartmann L, Rebmann J, Mueller A, Melief J, Maas R, Ligtenberg M, Hansson J, Offringa R, Seliger B, Poschke I, Reinherz EL, and Kiessling R

Subjects

Adult, Aged, Alleles, Antigen Presentation, Cell Line, Tumor, Flow Cytometry, HLA-A2 Antigen immunology, Histocompatibility Antigens immunology, Humans, Inflammation immunology, Male, Mass Spectrometry, Melanoma-Specific Antigens genetics, Mutation, Peptide Library, Exome Sequencing, Epitopes, T-Lymphocyte immunology, Lymphocytes, Tumor-Infiltrating immunology, Melanoma immunology, Melanoma-Specific Antigens immunology

Abstract

Tumor-infiltrating lymphocytes (TIL) are considered enriched for T cells recognizing shared tumor antigens or mutation-derived neoepitopes. We performed exome sequencing and HLA-A * 02:01 epitope prediction from tumor cell lines from two HLA-A2-positive melanoma patients whose TIL displayed strong tumor reactivity. The potential neoepitopes were screened for recognition using autologous TIL by immunological assays and presentation on tumor major histocompatibility complex class I (MHC-I) molecules by Poisson detection mass spectrometry (MS). TIL from the patients recognized 5/181 and 3/49 of the predicted neoepitopes, respectively. MS screening detected 3/181 neoepitopes on tumor MHC-I from the first patient but only one was also among those recognized by TIL. Consequently, TIL enriched for neoepitope specificity failed to recognize tumor cells, despite being activated by peptides. For the second patient, only after IFN-γ treatment of the tumor cells was one of 49 predicted neoepitopes detected by MS, and this coincided with recognition by TIL sorted for the same specificity. Importantly, specific T cells could be expanded from patient and donor peripheral blood mononuclear cells (PBMC) for all neoepitopes recognized by TIL and/or detected on tumor MHC-I. In summary, stimulating the appropriate inflammatory environment within tumors may promote neoepitope MHC presentation while expanding T cells in blood may circumvent lack of specific TIL. The discordance in detection between physical and functional methods revealed here can be rationalized and used to improve neoantigen-targeted T cell immunotherapy., (Copyright © 2019 Wickström, Lövgren, Volkmar, Reinhold, Duke-Cohan, Hartmann, Rebmann, Mueller, Melief, Maas, Ligtenberg, Hansson, Offringa, Seliger, Poschke, Reinherz and Kiessling.)

Published

2019

44. Ipilimumab treatment decreases monocytic MDSCs and increases CD8 effector memory T cells in long-term survivors with advanced melanoma.

Author

de Coaña YP, Wolodarski M, Poschke I, Yoshimoto Y, Yang Y, Nyström M, Edbäck U, Brage SE, Lundqvist A, Masucci GV, Hansson J, and Kiessling R

Subjects

Adult, Aged, Aged, 80 and over, Double-Blind Method, Female, Flow Cytometry, Humans, Immunologic Memory drug effects, Ipilimumab, Kaplan-Meier Estimate, Male, Melanoma immunology, Middle Aged, Survivors, Treatment Outcome, Young Adult, Antibodies, Monoclonal therapeutic use, Antineoplastic Agents therapeutic use, CD8-Positive T-Lymphocytes drug effects, Melanoma drug therapy, Myeloid-Derived Suppressor Cells drug effects

Abstract

Ipilimumab has revolutionized malignant melanoma therapy, but a better understanding of the mechanisms behind treatment response and adverse effects is needed. In this work, the immune system of ipilimumab treated patients was monitored to investigate potential mechanisms of action that may correlate with treatment outcome. Blood samples from 43 advanced melanoma patients were taken before, during and at the end of treatment. Hematological parameters were measured and flow cytometry analysis was performed in fresh samples within two hours of sample collection. Strong differences in markers CD45RA, CCR7, HLA-DR and CD15 between fresh and cryopreserved samples were observed. Ipilimumab treatment increased absolute lymphocyte counts, eosinophils, effector T cells and their activation status, whilst diminishing the suppressive side of the immune response, acting on regulatory T cells and myeloid derived suppressor cells (MDSCs). These effects were visible after one ipilimumab infusion and, regarding eosinophil counts, correlated with onset of adverse events. Monocytic MDSCs were decreased in response to treatment only in patients with clinical benefit; additionally, patients with a lower frequency of these cells after the first ipilimumab infusion experienced increased overall survival. CD8 effector memory T cell frequencies at the end of treatment were higher in patients with clinical benefit and positively correlated with survival. These data show that a clinical response to ipilimumab not only requires reshaping T cell populations, but additionally involves a reduction in suppressive cells such as monocytic MDSCs. Our work could provide insight on predicting treatment outcome, assisting clinicians in offering the best personalized therapeutic approach.

Published

2017

45. Next-generation TCR sequencing - a tool to understand T-cell infiltration in human cancers.

Author

Poschke I, Flossdorf M, and Offringa R

Subjects

High-Throughput Nucleotide Sequencing, Humans, United Kingdom, Lymphocytes, Tumor-Infiltrating, T-Lymphocytes

Abstract

Tumour-infiltrating lymphocytes (TILs) are known to mediate potent anti-tumour activity. As T-cell-based therapies start to reach clinical practice, it becomes increasingly important to understand what characterizes a successful anti-tumour T-cell response and to exploit this knowledge for patient stratification. Next-generation sequencing of T-cell receptors (TCRs) promises to provide insights into the complexity of the tumour T-cell infiltrate that go beyond the phenotypic level. A recent study by Chen et al made use of this novel technology to demonstrate that the TIL repertoire of oesophageal squamous cell carcinoma patients is distinct from that of non-tumour sites and is characterized by significant intratumoural heterogeneity. This study illustrates the great potential of the method and addresses several technical and biological hurdles that need to be considered. Careful sampling, normalization, and error correction will be required to optimally use TCR sequencing to answer biological questions and define predictive biomarkers, e.g. for cancer immunotherapy. Copyright © 2016 Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd., (Copyright © 2016 Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd.)

Published

2016

46. Identification of a tumor-reactive T-cell repertoire in the immune infiltrate of patients with resectable pancreatic ductal adenocarcinoma.

Author

Poschke I, Faryna M, Bergmann F, Flossdorf M, Lauenstein C, Hermes J, Hinz U, Hank T, Ehrenberg R, Volkmar M, Loewer M, Glimm H, Hackert T, Sprick MR, Höfer T, Trumpp A, Halama N, Hassel JC, Strobel O, Büchler M, Sahin U, and Offringa R

Abstract

Purpose: The devastating prognosis of patients with resectable pancreatic ductal adenocarcinoma (PDA) presents an urgent need for the development of therapeutic strategies targeting disseminated tumor cells. Until now, T-cell therapy has been scarcely pursued in PDA, due to the prevailing view that it represents a poorly immunogenic tumor., Experimental Design: We systematically analyzed T-cell infiltrates in tumor biopsies from 127 patients with resectable PDA by means of immunohistochemistry, flow cytometry, T-cell receptor (TCR) deep-sequencing and functional analysis of in vitro expanded T-cell cultures. Parallel studies were performed on tumor-infiltrating lymphocytes (TIL) from 44 patients with metastatic melanoma., Results: Prominent T-cell infiltrates, as well as tertiary lymphoid structures harboring proliferating T-cells, were detected in the vast majority of biopsies from PDA patients. The notion that the tumor is a site of local T-cell expansion was strengthened by TCR deep-sequencing, revealing that the T-cell repertoire in the tumor is dominated by highly frequent CDR3 sequences that can be up to 10,000-fold enriched in tumor as compared to peripheral blood. In fact, TCR repertoire composition in PDA resembled that in melanoma. Moreover, in vitro expansion of TILs was equally efficient for PDA and melanoma, resulting in T-cell cultures displaying HLA class I-restricted reactivity against autologous tumor cells., Conclusions: The tumor-infiltrating T-cell response in PDA shows striking similarity to that in melanoma, where adoptive T-cell therapy has significant therapeutic impact. Our findings indicate that T-cell-based therapies may be used to counter disease recurrence in patients with resectable PDA.

Published

2016

47. Low tumor interleukin-1β expression predicts a limited effect of adjuvant platinum-based chemotherapy for patients with completely resected lung adenocarcinoma: An identification and validation study.

Author

Safi S, Krzykalla J, Hoffmann H, Benner A, Bischoff H, Eichhorn M, Kriegsmann M, Poschke I, Stögbauer F, Umansky L, Mogler C, Weichert W, Winter H, Beckhove P, and Muley T

Subjects

Humans, Female, Male, Chemotherapy, Adjuvant methods, Middle Aged, Aged, Biomarkers, Tumor metabolism, Biomarkers, Tumor analysis, Prognosis, Lung Neoplasms drug therapy, Lung Neoplasms surgery, Lung Neoplasms mortality, Interleukin-1beta metabolism, Adenocarcinoma of Lung drug therapy, Adenocarcinoma of Lung surgery, Adenocarcinoma of Lung pathology, Adenocarcinoma of Lung metabolism

Abstract

Introduction and Objectives: Adjuvant platinum-based chemotherapy for completely resected non-small cell lung cancer is associated with modest improvement in survival; nevertheless, no validated biomarker exists for predicting the benefit or harm of adjuvant platinum-based chemotherapy., Materials and Methods: We simultaneously measured 27 cytokines in operative tumor specimens from a discovery cohort ( n = 97) by multiplex immunoassay; half of the patients received adjuvant platinum-based chemotherapy, and the other half were observed. We tested possible prognostic and predictive factors in multivariate Cox models for overall survival (OS) and relapse-free survival (RFS), and a tree-based method was applied to detect predictive factors with respect to RFS. The results were validated in an independent validation cohort ( n = 93)., Results: Fifty-two of 97 (54 %) patients in the discovery cohort and 50 of 93 (54 %) in the validation cohort received adjuvant chemotherapy; forty-four (85 %) patients in the discovery cohort and 37 (74 %) in the validation cohort received four cycles as planned. In patients with low IL-1β-expressing tumors, RFS and OS were worse after adjuvant chemotherapy than after observation. The limited effect of adjuvant chemotherapy for patients with low IL-1β-expressing tumors was confirmed in the validation cohort. Additionally, RFS and OS were prolonged by adjuvant chemotherapy only in patients with high IL-1β-expressing tumors in the validation cohort., Conclusions: This study identified and validated low tumor IL-1β expression as a potential biomarker of a limited response to adjuvant platinum-based chemotherapy after complete resection of pulmonary adenocarcinoma. This finding has the potential to inform adjuvant treatment decisions.

Published

2025

48. Non-classical HLA-class I expression in serous ovarian carcinoma: Correlation with the HLA-genotype, tumor infiltrating immune cells and prognosis.

Author

Andersson E, Poschke I, Villabona L, Carlson JW, Lundqvist A, Kiessling R, Seliger B, and Masucci GV

Abstract

In our previous studies, we have shown that patients with serous ovarian carcinoma in advanced surgical stage disease have a particularly poor prognosis if they carry the HLA-A*02 genotype. This represent a stronger prognostic factor than loss or downregulation of the MHC class I heavy chain (HC) on tumor cells. In this study, we investigated the expression of the non-classical, immune tolerogenic HLA -G and -E on the tumor cells along with the infiltration of immune cells in the tumor microenvironment. FFPE primary tumors from 72 patients with advanced stages of serous adenocarcinoma and metastatic cells present in ascites fluid from 8 additional patients were included in this study. Both expression of HLA-G and aberrant expression of HLA-E were correlated to a significant worse prognosis in patients with HLA-A*02, but not with different HLA genotypes. Focal cell expression of HLA-G correlated to a site-specific downregulation of classical MHC class I HC products and aberrant HLA-E expression, showing a poor survival. HLA-G was more frequently expressed in metastatic cells than in primary tumor lesions and the expression of HLA-G inversely correlated with the frequency of tumor infiltrating immune cells. All these parameters can contribute together to identify and discriminate subpopulations of patients with extremely poor prognosis and can give them the opportunity to receive, and benefit of individually tailored treatments.

Published

2015

49. A high-throughput RNAi screen for detection of immune-checkpoint molecules that mediate tumor resistance to cytotoxic T lymphocytes.

Author

Khandelwal N, Breinig M, Speck T, Michels T, Kreutzer C, Sorrentino A, Sharma AK, Umansky L, Conrad H, Poschke I, Offringa R, König R, Bernhard H, Machlenkin A, Boutros M, and Beckhove P

Subjects

Animals, B7-H1 Antigen immunology, Female, Humans, MCF-7 Cells, Mice, Receptors, CCR immunology, CD8-Positive T-Lymphocytes immunology, CD8-Positive T-Lymphocytes pathology, Immunity, Cellular, Immunotherapy methods, Neoplasms, Experimental immunology, Neoplasms, Experimental pathology, Neoplasms, Experimental therapy, RNA Interference, Th1 Cells immunology, Th1 Cells pathology

Abstract

The success of T cell-based cancer immunotherapy is limited by tumor's resistance against killing by cytotoxic T lymphocytes (CTLs). Tumor-immune resistance is mediated by cell surface ligands that engage immune-inhibitory receptors on T cells. These ligands represent potent targets for therapeutic inhibition. So far, only few immune-suppressive ligands have been identified. We here describe a rapid high-throughput siRNA-based screening approach that allows a comprehensive identification of ligands on human cancer cells that inhibit CTL-mediated tumor cell killing. We exemplarily demonstrate that CCR9, which is expressed in many cancers, exerts strong immune-regulatory effects on T cell responses in multiple tumors. Unlike PDL1, which inhibits TCR signaling, CCR9 regulates STAT signaling in T cells, resulting in reduced T-helper-1 cytokine secretion and reduced cytotoxic capacity. Moreover, inhibition of CCR9 expression on tumor cells facilitated immunotherapy of human tumors by tumor-specific T cells in vivo. Taken together, this method allows a rapid and comprehensive determination of immune-modulatory genes in human tumors which, as an entity, represent the 'immune modulatome' of cancer., (© 2015 The Authors. Published under the terms of the CC BY 4.0 license.)

Published

2015

50. A phase I clinical trial combining dendritic cell vaccination with adoptive T cell transfer in patients with stage IV melanoma.

Author

Poschke I, Lövgren T, Adamson L, Nyström M, Andersson E, Hansson J, Tell R, Masucci GV, and Kiessling R

Subjects

Adolescent, Adult, Aged, Female, Humans, Male, Melanoma pathology, Middle Aged, Neoplasm Staging, Vaccination methods, Young Adult, Dendritic Cells immunology, Dendritic Cells transplantation, Immunotherapy, Adoptive methods, Lymphocytes, Tumor-Infiltrating immunology, Lymphocytes, Tumor-Infiltrating transplantation, Melanoma immunology, Melanoma therapy

Abstract

Adoptive transfer of in vitro-expanded tumor-infiltrating lymphocytes (TIL) has shown great clinical benefit in patients with malignant melanoma. TIL therapy itself has little side effects, but conditioning chemo- or radiotherapy and postinfusion interleukin 2 (IL-2) injections are associated with severe adverse advents. We reasoned that combining TIL infusion with dendritic cell (DC) vaccination could circumvent the need for conditioning and IL-2 support and thus represent a milder treatment approach. Eight patients with stage IV melanoma were enrolled in the MAT01 study, consisting of vaccination with autologous tumor-lysate-loaded DC, followed by TIL infusion. Six of eight patients were treated according to protocol, while one patient received only TIL and one only DC. Treatments were well tolerated with a single grade 3 adverse event. The small study size precludes analysis of clinical responses, though interestingly one patient showed a complete remission and two had stable disease. Analysis of the infusion products revealed that mature DC were generated in all cases. TIL after expansion were CD3+ T cells, dominated by effector memory CD8+ cytotoxic T cells. Analysis of the T cell receptor repertoire revealed presence of highly dominant clones in most infusion products, and many of these could be detected in the circulation for weeks after T cell transfer. Here, we report the first combination of DC vaccination and TIL infusion in malignant melanoma. This combined treatment was safe and feasible, though after evaluating both clinical and immunological parameters, we expect that administration of lymphodepleting chemotherapy and IL-2 will likely increase treatment efficacy.

Published

2014