Your search keyword '"Salomon, Nadja"' showing total 9 results

1. A liposomal RNA vaccine inducing neoantigen-specific CD4+ T cells augments the antitumor activity of local radiotherapy in mice

Author

Salomon, Nadja, primary, Vascotto, Fulvia, additional, Selmi, Abderaouf, additional, Vormehr, Mathias, additional, Quinkhardt, Juliane, additional, Bukur, Thomas, additional, Schrörs, Barbara, additional, Löewer, Martin, additional, Diken, Mustafa, additional, Türeci, Özlem, additional, Sahin, Ugur, additional, and Kreiter, Sebastian, additional

Published

2020

2. HPV16 RNA-LPX vaccine mediates complete regression of aggressively growing HPV-positive mouse tumors and establishes protective T cell memory

Author

Grunwitz, Christian, primary, Salomon, Nadja, additional, Vascotto, Fulvia, additional, Selmi, Abderaouf, additional, Bukur, Thomas, additional, Diken, Mustafa, additional, Kreiter, Sebastian, additional, Türeci, Özlem, additional, and Sahin, Ugur, additional

Published

2019

3. A non-functional neoepitope specific CD8+ T-cell response induced by tumor derived antigen exposure in vivo

Author

Vormehr, Mathias, primary, Reinhard, Katharina, additional, Blatnik, Renata, additional, Josef, Kathrin, additional, Beck, Jan David, additional, Salomon, Nadja, additional, Suchan, Martin, additional, Selmi, Abderraouf, additional, Vascotto, Fulvia, additional, Zerweck, Johannes, additional, Wenschuh, Holger, additional, Diken, Mustafa, additional, Kreiter, Sebastian, additional, Türeci, Özlem, additional, Riemer, Angelika B., additional, and Sahin, Ugur, additional

Published

2018

4. A liposomal RNA vaccine inducing neoantigen-specific CD4+ T cells augments the antitumor activity of local radiotherapy in mice.

Author

Salomon, Nadja, Vascotto, Fulvia, Selmi, Abderaouf, Vormehr, Mathias, Quinkhardt, Juliane, Bukur, Thomas, Schrörs, Barbara, Löewer, Martin, Diken, Mustafa, Türeci, Özlem, Sahin, Ugur, and Kreiter, Sebastian

Subjects

*T cells, *RNA, *VACCINES, *MICE, *RADIOTHERAPY, *MAYER-Rokitansky-Kuster-Hauser syndrome, *REJECTION (Psychology)

Abstract

Antigen-encoding, lipoplex-formulated RNA (RNA-LPX) enables systemic delivery to lymphoid compartments and selective expression in resident antigen-presenting cells. We report here that the rejection of CT26 tumors, mediated by local radiotherapy (LRT), is further augmented in a CD8+ T cell-dependent manner by an RNA-LPX vaccine that encodes CD4+ T cell-recognized neoantigens (CD4 neoantigen vaccine). Whereas CD8+ T cells induced by LRT alone were primarily directed against the immunodominant gp70 antigen, mice treated with LRT plus the CD4 neoantigen vaccine rejected gp70-negative tumors and were protected from rechallenge with these tumors, indicating a potent poly-antigenic CD8+ T cell response and T cell memory. In the spleens of CD4 neoantigen-vaccinated mice, we found a high number of activated, poly-functional, Th1-like CD4+ T cells against ME1, the immunodominant CD4 neoantigen within the poly-neoantigen vaccine. LRT itself strongly increased CD8+ T cell numbers and clonal expansion. However, tumor infiltrates of mice treated with CD4 neoantigen vaccine/LRT, as compared to LRT alone, displayed a higher fraction of activated gp70-specific CD8+ T cells, lower PD-1/LAG-3 expression and contained ME1-specific IFNγ+ CD4+ T cells capable of providing cognate help. CD4 neoantigen vaccine/LRT treatment followed by anti-CTLA-4 antibody therapy further enhanced the efficacy with complete remission of gp70-negative CT26 tumors and survival of all mice. Our data highlight the power of combining synergistic modes of action and warrants further exploration of the presented treatment schema. [ABSTRACT FROM AUTHOR]

Published

2020

5. A liposomal RNA vaccine inducing neoantigen-specific CD4+T cells augments the antitumor activity of local radiotherapy in mice

Author

Salomon, Nadja, Vascotto, Fulvia, Selmi, Abderaouf, Vormehr, Mathias, Quinkhardt, Juliane, Bukur, Thomas, Schrörs, Barbara, Löewer, Martin, Diken, Mustafa, Türeci, Özlem, Sahin, Ugur, and Kreiter, Sebastian

Abstract

ABSTRACTAntigen-encoding, lipoplex-formulated RNA (RNA-LPX) enables systemic delivery to lymphoid compartments and selective expression in resident antigen-presenting cells. We report here that the rejection of CT26 tumors, mediated by local radiotherapy (LRT), is further augmented in a CD8+T cell-dependent manner by an RNA-LPX vaccine that encodes CD4+T cell-recognized neoantigens (CD4 neoantigen vaccine). Whereas CD8+T cells induced by LRT alone were primarily directed against the immunodominant gp70 antigen, mice treated with LRT plus the CD4 neoantigen vaccine rejected gp70-negative tumors and were protected from rechallenge with these tumors, indicating a potent poly-antigenic CD8+T cell response and T cell memory. In the spleens of CD4 neoantigen-vaccinated mice, we found a high number of activated, poly-functional, Th1-like CD4+T cells against ME1, the immunodominant CD4 neoantigen within the poly-neoantigen vaccine. LRT itself strongly increased CD8+T cell numbers and clonal expansion. However, tumor infiltrates of mice treated with CD4 neoantigen vaccine/LRT, as compared to LRT alone, displayed a higher fraction of activated gp70-specific CD8+T cells, lower PD-1/LAG-3 expression and contained ME1-specific IFNγ+CD4+T cells capable of providing cognate help. CD4 neoantigen vaccine/LRT treatment followed by anti-CTLA-4 antibody therapy further enhanced the efficacy with complete remission of gp70-negative CT26 tumors and survival of all mice. Our data highlight the power of combining synergistic modes of action and warrants further exploration of the presented treatment schema.

Published

2020

6. A non-functional neoepitope specific CD8+ T-cell response induced by tumor derived antigen exposure in vivo.

Author

Vormehr, Mathias, Reinhard, Katharina, Blatnik, Renata, Josef, Kathrin, Beck, Jan David, Salomon, Nadja, Suchan, Martin, Selmi, Abderraouf, Vascotto, Fulvia, Zerweck, Johannes, Wenschuh, Holger, Diken, Mustafa, Kreiter, Sebastian, Türeci, Özlem, Riemer, Angelika B., and Sahin, Ugur

Subjects

T cell receptors, TUMOR antigens, T cells, CELL death, CELL tumors

Abstract

Cancer-associated mutations, mostly single nucleotide variations, can act as neoepitopes and prime targets for effective anti-cancer T-cell immunity. T cells recognizing cancer mutations are critical for the clinical activity of immune checkpoint blockade (ICB) and they are potent vaccine antigens. High frequencies of mutation-specific T cells are rarely spontaneously induced. Hence, therapies that broaden the tumor specific T-cell response are of interest. Here, we analyzed neoepitope-specific CD8+ T-cell responses mounted either spontaneously or after immunotherapy regimens, which induce local tumor inflammation and cell death, in mice bearing tumors of the widely used colon carcinoma cell line CT26. A comprehensive immune reactivity screening of 2474 peptides covering 628 transcribed CT26 point mutations was conducted. All tested treatment regimens were found to induce a single significant CD8+ T-cell response against a non-synonymous D733A point mutation in the Smc3 gene. Surprisingly, even though Smc3 D733A turned out to be the immune-dominant neoepitope in CT26 tumor bearing mice, neither T cells specific for this neoepitope nor their T cell receptors (TCRs) were able to recognize or lyse tumor cells. Moreover, vaccination with the D733A neoepitope did not result in anti-tumoral activity despite induction of specific T cells. This is to our knowledge the first report that neoepitope specific CD8+ T cells primed by tumor-released antigen exposure in vivo can be functionally irrelevant. [ABSTRACT FROM AUTHOR]

Published

2019

7. A non-functional neoepitope specific CD8+T-cell response induced by tumor derived antigen exposure in vivo

Author

Vormehr, Mathias, Reinhard, Katharina, Blatnik, Renata, Josef, Kathrin, Beck, Jan David, Salomon, Nadja, Suchan, Martin, Selmi, Abderraouf, Vascotto, Fulvia, Zerweck, Johannes, Wenschuh, Holger, Diken, Mustafa, Kreiter, Sebastian, Türeci, Özlem, Riemer, Angelika B., and Sahin, Ugur

Abstract

ABSTRACTCancer-associated mutations, mostly single nucleotide variations, can act as neoepitopes and prime targets for effective anti-cancer T-cell immunity. T cells recognizing cancer mutations are critical for the clinical activity of immune checkpoint blockade (ICB) and they are potent vaccine antigens. High frequencies of mutation-specific T cells are rarely spontaneously induced. Hence, therapies that broaden the tumor specific T-cell response are of interest. Here, we analyzed neoepitope-specific CD8+T-cell responses mounted either spontaneously or after immunotherapy regimens, which induce local tumor inflammation and cell death, in mice bearing tumors of the widely used colon carcinoma cell line CT26. A comprehensive immune reactivity screening of 2474 peptides covering 628 transcribed CT26 point mutations was conducted. All tested treatment regimens were found to induce a single significant CD8+T-cell response against a non-synonymous D733A point mutation in the Smc3 gene. Surprisingly, even though Smc3 D733A turned out to be the immune-dominant neoepitope in CT26 tumor bearing mice, neither T cells specific for this neoepitope nor their T cell receptors (TCRs) were able to recognize or lyse tumor cells. Moreover, vaccination with the D733A neoepitope did not result in anti-tumoral activity despite induction of specific T cells. This is to our knowledge the first report that neoepitope specific CD8+T cells primed by tumor-released antigen exposure in vivocan be functionally irrelevant.

Published

2019

8. A liposomal RNA vaccine inducing neoantigen-specific CD4 + T cells augments the antitumor activity of local radiotherapy in mice.

Author

Salomon N, Vascotto F, Selmi A, Vormehr M, Quinkhardt J, Bukur T, Schrörs B, Löewer M, Diken M, Türeci Ö, Sahin U, and Kreiter S

Subjects

Animals, Antigens, Neoplasm genetics, CD4-Positive T-Lymphocytes immunology, CD8-Positive T-Lymphocytes immunology, Female, Mice, Mice, Inbred BALB C, RNA, Cancer Vaccines

Abstract

Antigen-encoding, lipoplex-formulated RNA (RNA-LPX) enables systemic delivery to lymphoid compartments and selective expression in resident antigen-presenting cells. We report here that the rejection of CT26 tumors, mediated by local radiotherapy (LRT), is further augmented in a CD8 + T cell-dependent manner by an RNA-LPX vaccine that encodes CD4 + T cell-recognized neoantigens (CD4 neoantigen vaccine). Whereas CD8 + T cells induced by LRT alone were primarily directed against the immunodominant gp70 antigen, mice treated with LRT plus the CD4 neoantigen vaccine rejected gp70-negative tumors and were protected from rechallenge with these tumors, indicating a potent poly-antigenic CD8 + T cell response and T cell memory. In the spleens of CD4 neoantigen-vaccinated mice, we found a high number of activated, poly-functional, Th1-like CD4 + T cells against ME1, the immunodominant CD4 neoantigen within the poly-neoantigen vaccine. LRT itself strongly increased CD8 + T cell numbers and clonal expansion. However, tumor infiltrates of mice treated with CD4 neoantigen vaccine/LRT, as compared to LRT alone, displayed a higher fraction of activated gp70-specific CD8 + T cells, lower PD-1/LAG-3 expression and contained ME1-specific IFNγ + CD4 + T cells capable of providing cognate help. CD4 neoantigen vaccine/LRT treatment followed by anti-CTLA-4 antibody therapy further enhanced the efficacy with complete remission of gp70-negative CT26 tumors and survival of all mice. Our data highlight the power of combining synergistic modes of action and warrants further exploration of the presented treatment schema., (© 2020 The Author(s). Published with license by Taylor & Francis Group, LLC.)

Published

2020

9. A non-functional neoepitope specific CD8 + T-cell response induced by tumor derived antigen exposure in vivo .

Author

Vormehr M, Reinhard K, Blatnik R, Josef K, Beck JD, Salomon N, Suchan M, Selmi A, Vascotto F, Zerweck J, Wenschuh H, Diken M, Kreiter S, Türeci Ö, Riemer AB, and Sahin U

Abstract

Cancer-associated mutations, mostly single nucleotide variations, can act as neoepitopes and prime targets for effective anti-cancer T-cell immunity. T cells recognizing cancer mutations are critical for the clinical activity of immune checkpoint blockade (ICB) and they are potent vaccine antigens. High frequencies of mutation-specific T cells are rarely spontaneously induced. Hence, therapies that broaden the tumor specific T-cell response are of interest. Here, we analyzed neoepitope-specific CD8 + T-cell responses mounted either spontaneously or after immunotherapy regimens, which induce local tumor inflammation and cell death, in mice bearing tumors of the widely used colon carcinoma cell line CT26. A comprehensive immune reactivity screening of 2474 peptides covering 628 transcribed CT26 point mutations was conducted. All tested treatment regimens were found to induce a single significant CD8 + T-cell response against a non-synonymous D733A point mutation in the Smc3 gene. Surprisingly, even though Smc3 D733A turned out to be the immune-dominant neoepitope in CT26 tumor bearing mice, neither T cells specific for this neoepitope nor their T cell receptors (TCRs) were able to recognize or lyse tumor cells. Moreover, vaccination with the D733A neoepitope did not result in anti-tumoral activity despite induction of specific T cells. This is to our knowledge the first report that neoepitope specific CD8 + T cells primed by tumor-released antigen exposure in vivo can be functionally irrelevant.

Published

2018