Regression of established murine carcinoma metastases following vaccination with tumour-associated antigen peptides

Ofer Mandelboim; Ezra Vadai; Mati Fridkin; Anne Katz-Hillel; Michael Feldman; Gideon Berke; Lea Eisenbach

doi:10.1038/nm1195-1179

Regression of established murine carcinoma metastases following vaccination with tumour-associated antigen peptides

Ofer Mandelboim
, Ezra Vadai
, Mati Fridkin
, Anne Katz-Hillel
, Michael Feldman
, Gideon Berke
, Lea Eisenbach^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

155 Scopus citations

Abstract

The cure of micrometastases following surgery is the major goal of cancer immunotherapy. We have recently isolated tumour-associated antigen (TAA) peptides, MUT 1 and MUT 2, derived from a mutated connexin 37 gap-junction protein, from the malignant 3LL-D122 murine lung carcinoma. We now report that synthetic MUT 1 or MUT 2 induces effective antitumour cytoxic T lymphocytes. Peptide vaccines protect mice from spontaneous metastases of 3LL-D122 tumours. Moreover, peptide vaccines reduce metastatic loads in mice carrying pre-established micrometastases. Tumour-specific immunity was primarily mediated by CD8⁺ T cells. This is the first evidence that peptide therapy may be effective in treatment of residual tumours and provides a rationale for the development of peptide vaccines as a modality for cancer therapy.

Original language	English
Pages (from-to)	1179-1183
Number of pages	5
Journal	Nature Medicine
Volume	1
Issue number	11
DOIs	https://doi.org/10.1038/nm1195-1179
State	Published - Nov 1995
Externally published	Yes

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title = "Regression of established murine carcinoma metastases following vaccination with tumour-associated antigen peptides",

abstract = "The cure of micrometastases following surgery is the major goal of cancer immunotherapy. We have recently isolated tumour-associated antigen (TAA) peptides, MUT 1 and MUT 2, derived from a mutated connexin 37 gap-junction protein, from the malignant 3LL-D122 murine lung carcinoma. We now report that synthetic MUT 1 or MUT 2 induces effective antitumour cytoxic T lymphocytes. Peptide vaccines protect mice from spontaneous metastases of 3LL-D122 tumours. Moreover, peptide vaccines reduce metastatic loads in mice carrying pre-established micrometastases. Tumour-specific immunity was primarily mediated by CD8+ T cells. This is the first evidence that peptide therapy may be effective in treatment of residual tumours and provides a rationale for the development of peptide vaccines as a modality for cancer therapy.",

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AU - Mandelboim, Ofer

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AU - Katz-Hillel, Anne

AU - Feldman, Michael

AU - Berke, Gideon

AU - Eisenbach, Lea

PY - 1995/11

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N2 - The cure of micrometastases following surgery is the major goal of cancer immunotherapy. We have recently isolated tumour-associated antigen (TAA) peptides, MUT 1 and MUT 2, derived from a mutated connexin 37 gap-junction protein, from the malignant 3LL-D122 murine lung carcinoma. We now report that synthetic MUT 1 or MUT 2 induces effective antitumour cytoxic T lymphocytes. Peptide vaccines protect mice from spontaneous metastases of 3LL-D122 tumours. Moreover, peptide vaccines reduce metastatic loads in mice carrying pre-established micrometastases. Tumour-specific immunity was primarily mediated by CD8+ T cells. This is the first evidence that peptide therapy may be effective in treatment of residual tumours and provides a rationale for the development of peptide vaccines as a modality for cancer therapy.

AB - The cure of micrometastases following surgery is the major goal of cancer immunotherapy. We have recently isolated tumour-associated antigen (TAA) peptides, MUT 1 and MUT 2, derived from a mutated connexin 37 gap-junction protein, from the malignant 3LL-D122 murine lung carcinoma. We now report that synthetic MUT 1 or MUT 2 induces effective antitumour cytoxic T lymphocytes. Peptide vaccines protect mice from spontaneous metastases of 3LL-D122 tumours. Moreover, peptide vaccines reduce metastatic loads in mice carrying pre-established micrometastases. Tumour-specific immunity was primarily mediated by CD8+ T cells. This is the first evidence that peptide therapy may be effective in treatment of residual tumours and provides a rationale for the development of peptide vaccines as a modality for cancer therapy.

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Regression of established murine carcinoma metastases following vaccination with tumour-associated antigen peptides

Abstract

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