Targeting of MYCN by means of DNA vaccination is effective against neuroblastoma in mice

Alexander Stermann; Nicole Huebener; Diana Seidel; Stefan Fest; Georg Eschenburg; Michael Stauder; Alexander Schramm; Angelika Eggert; Holger N Lode

doi:10.1007/s00262-015-1733-1

Targeting of MYCN by means of DNA vaccination is effective against neuroblastoma in mice

Standard

Targeting of MYCN by means of DNA vaccination is effective against neuroblastoma in mice. / Stermann, Alexander; Huebener, Nicole; Seidel, Diana; Fest, Stefan; Eschenburg, Georg; Stauder, Michael; Schramm, Alexander; Eggert, Angelika; Lode, Holger N.

in: CANCER IMMUNOL IMMUN, Jahrgang 64, Nr. 10, 10.2015, S. 1215-27.

Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung

Harvard

Stermann, A, Huebener, N, Seidel, D, Fest, S, Eschenburg, G, Stauder, M, Schramm, A, Eggert, A & Lode, HN 2015, 'Targeting of MYCN by means of DNA vaccination is effective against neuroblastoma in mice', CANCER IMMUNOL IMMUN, Jg. 64, Nr. 10, S. 1215-27. https://doi.org/10.1007/s00262-015-1733-1

APA

Stermann, A., Huebener, N., Seidel, D., Fest, S., Eschenburg, G., Stauder, M., Schramm, A., Eggert, A., & Lode, H. N. (2015). Targeting of MYCN by means of DNA vaccination is effective against neuroblastoma in mice. CANCER IMMUNOL IMMUN, 64(10), 1215-27. https://doi.org/10.1007/s00262-015-1733-1

Vancouver

Stermann A, Huebener N, Seidel D, Fest S, Eschenburg G, Stauder M et al. Targeting of MYCN by means of DNA vaccination is effective against neuroblastoma in mice. CANCER IMMUNOL IMMUN. 2015 Okt;64(10):1215-27. https://doi.org/10.1007/s00262-015-1733-1

Bibtex

@article{3837819965424eca960bf4e82abc6f55,

title = "Targeting of MYCN by means of DNA vaccination is effective against neuroblastoma in mice",

abstract = "The MYCN oncogene is a strong genetic marker associated with poor prognosis in neuroblastoma (NB). Therefore, MYCN gene amplification and subsequent overexpression provide a possible target for new treatment approaches in NB. We first identified an inverse correlation of MYCN expression with CD45 mRNA in 101 NB tumor samples. KEGG mapping further revealed that MYCN expression was associated with immune-suppressive pathways characterized by a down-regulation of T cell activation and up-regulation of T cell inhibitory gene transcripts. We then aimed to investigate whether DNA vaccination against MYCN is effective to induce an antigen-specific and T cell-mediated immune response. For this purpose, we generated a MYCN-expressing syngeneic mouse model by MYCN gene transfer to NXS2 cells. MYCN-DNA vaccines were engineered based on the pCMV-F3Ub plasmid backbone to drive ubiquitinated full-length MYCN-cDNA and minigene expression. Vaccines were delivered orally with attenuated S. typhimurium strain SL7207 as a carrier. Immunization with both MYCN-DNA vaccines significantly reduced primary tumor growth of MYCN-expressing NB cells in contrast to negative controls. The immune response was mediated by tumor-infiltrating T cells in vivo, which revealed MYCN-specific and MHC class I-restricted lysis of inducible MYCN-expressing NB target cells in vitro. Finally, these antigen-specific T cells also killed MYCN-negative mammary carcinoma cells pulsed with MYCN peptides in contrast to controls. In summary, we demonstrate proof of concept that MYCN can be targeted by DNA vaccination, which may provide an approach to overcoming MYCN immune-suppressive activities in patients with MYCN-amplified disease.",

author = "Alexander Stermann and Nicole Huebener and Diana Seidel and Stefan Fest and Georg Eschenburg and Michael Stauder and Alexander Schramm and Angelika Eggert and Lode, {Holger N}",

year = "2015",

month = oct,

doi = "10.1007/s00262-015-1733-1",

language = "English",

volume = "64",

pages = "1215--27",

journal = "CANCER IMMUNOL IMMUN",

issn = "0340-7004",

publisher = "Springer Science and Business Media Deutschland GmbH",

number = "10",

}

RIS

TY - JOUR

T1 - Targeting of MYCN by means of DNA vaccination is effective against neuroblastoma in mice

AU - Stermann, Alexander

AU - Huebener, Nicole

AU - Seidel, Diana

AU - Fest, Stefan

AU - Eschenburg, Georg

AU - Stauder, Michael

AU - Schramm, Alexander

AU - Eggert, Angelika

AU - Lode, Holger N

PY - 2015/10

Y1 - 2015/10

N2 - The MYCN oncogene is a strong genetic marker associated with poor prognosis in neuroblastoma (NB). Therefore, MYCN gene amplification and subsequent overexpression provide a possible target for new treatment approaches in NB. We first identified an inverse correlation of MYCN expression with CD45 mRNA in 101 NB tumor samples. KEGG mapping further revealed that MYCN expression was associated with immune-suppressive pathways characterized by a down-regulation of T cell activation and up-regulation of T cell inhibitory gene transcripts. We then aimed to investigate whether DNA vaccination against MYCN is effective to induce an antigen-specific and T cell-mediated immune response. For this purpose, we generated a MYCN-expressing syngeneic mouse model by MYCN gene transfer to NXS2 cells. MYCN-DNA vaccines were engineered based on the pCMV-F3Ub plasmid backbone to drive ubiquitinated full-length MYCN-cDNA and minigene expression. Vaccines were delivered orally with attenuated S. typhimurium strain SL7207 as a carrier. Immunization with both MYCN-DNA vaccines significantly reduced primary tumor growth of MYCN-expressing NB cells in contrast to negative controls. The immune response was mediated by tumor-infiltrating T cells in vivo, which revealed MYCN-specific and MHC class I-restricted lysis of inducible MYCN-expressing NB target cells in vitro. Finally, these antigen-specific T cells also killed MYCN-negative mammary carcinoma cells pulsed with MYCN peptides in contrast to controls. In summary, we demonstrate proof of concept that MYCN can be targeted by DNA vaccination, which may provide an approach to overcoming MYCN immune-suppressive activities in patients with MYCN-amplified disease.

AB - The MYCN oncogene is a strong genetic marker associated with poor prognosis in neuroblastoma (NB). Therefore, MYCN gene amplification and subsequent overexpression provide a possible target for new treatment approaches in NB. We first identified an inverse correlation of MYCN expression with CD45 mRNA in 101 NB tumor samples. KEGG mapping further revealed that MYCN expression was associated with immune-suppressive pathways characterized by a down-regulation of T cell activation and up-regulation of T cell inhibitory gene transcripts. We then aimed to investigate whether DNA vaccination against MYCN is effective to induce an antigen-specific and T cell-mediated immune response. For this purpose, we generated a MYCN-expressing syngeneic mouse model by MYCN gene transfer to NXS2 cells. MYCN-DNA vaccines were engineered based on the pCMV-F3Ub plasmid backbone to drive ubiquitinated full-length MYCN-cDNA and minigene expression. Vaccines were delivered orally with attenuated S. typhimurium strain SL7207 as a carrier. Immunization with both MYCN-DNA vaccines significantly reduced primary tumor growth of MYCN-expressing NB cells in contrast to negative controls. The immune response was mediated by tumor-infiltrating T cells in vivo, which revealed MYCN-specific and MHC class I-restricted lysis of inducible MYCN-expressing NB target cells in vitro. Finally, these antigen-specific T cells also killed MYCN-negative mammary carcinoma cells pulsed with MYCN peptides in contrast to controls. In summary, we demonstrate proof of concept that MYCN can be targeted by DNA vaccination, which may provide an approach to overcoming MYCN immune-suppressive activities in patients with MYCN-amplified disease.

U2 - 10.1007/s00262-015-1733-1

DO - 10.1007/s00262-015-1733-1

M3 - SCORING: Journal article

C2 - 26076666

VL - 64

SP - 1215

EP - 1227

JO - CANCER IMMUNOL IMMUN

JF - CANCER IMMUNOL IMMUN

SN - 0340-7004

IS - 10

ER -