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Query: UNIPROT:P04626 (
erbB-2
)
5,251
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
An approach to stimulating an immune response against tumors is to transduce tumor cells with bacterial genes, which represent a "danger signal" and can induce a wide immune response. Mycobacterium tuberculosis genes and their encoded proteins play a pivotal role in linking innate and cell-mediated adaptive immunity and represent ideal candidates as immune adjuvants for tumor vaccines. The efficacy of a cancer vaccine, obtained by transduction of a mammary tumor cell line with the M. tuberculosis Ag38 gene, was investigated in female mice transgenically expressing the rat
HER-2/neu
proto-oncogene. These mice spontaneously develop stochastic mammary tumors after a long latency period. The onset of spontaneous mammary tumors was significantly delayed in mice vaccinated with Ag38-transduced cells but not in mice vaccinated with nontransduced cells as compared with untreated mice. Protection from spontaneous tumor development was increased when mice were vaccinated with the mycobacterium gene-transduced vaccine plus a systemic administration of
interleukin 12
(IL-12) at a low dose. Mice vaccinated with nontransduced cells plus IL-12 developed tumors, with only a slight delay in tumor appearance as compared with the control group. Lymphocytes obtained from lymph nodes of mice vaccinated with transduced cells secreted high levels of IFN-gamma. CD3+CD8+ spleen cells derived from these mice responded to the tumor with IFN-gamma production. These data indicate the efficacy of a short-term protocol of vaccinations exploiting the adjuvant potency of a M. tuberculosis gene and low doses of IL-12 in a model of stochastic development of mammary tumors. This adjuvant approach may represent a promising immunotherapeutic strategy for cancer immunization.
...
PMID:Cooperative effects of Mycobacterium tuberculosis Ag38 gene transduction and interleukin 12 in vaccination against spontaneous tumor development in proto-neu transgenic mice. 1091 50
FVB-NeuN (N#202) female mice transgenic for the
HER-2/neu
protooncogene driven by the murine mammary tumor virus (MMTV) promoter develop mammary carcinomas with a progression from focal atypical hyperplasia to in situ carcinoma and to invasive carcinoma that closely resembles that of human neoplasia. Here we report that the combination of tamoxifen plus
interleukin 12
(IL-12) results in a very effective prevention of mammary carcinogenesis, significantly higher than those obtained with either tamoxifen or IL-12 alone. At 1 year of age, 20% of control mice resulted tumor-free, whereas 80% of mice receiving the combined treatment were tumor-free. At 2 years of age, less than 5% of control mice were tumor-free, as opposed to 70% of mice treated with tamoxifen plus IL-12. The combined treatment inhibited mammary carcinogenesis mainly through a reduction in the number of mammary cells at risk of progression, a reduction in estrogen receptors (ERs) expression and a reduction in the angiogenic support to mammary development, likely due to cross-talk between tamoxifen and interferon-gamma (IFN-gamma) (the main downstream mediator elicited in vivo by IL-12). The addition of IL-12 to the tamoxifen treatment more than doubled mouse lifetime and did not exacerbate known side effects of tamoxifen.
...
PMID:Prevention of HER-2/neu transgenic mammary carcinoma by tamoxifen plus interleukin 12. 1270 73
Vaccines effectively prevent the onset of tumors in transgenic mice carrying activated oncogenes; however, human tumors are caused by combined alterations in oncogenes and oncosuppressor genes. We evaluated the impact of prophylactic vaccines in
HER-2/neu
transgenic, p53 wild-type/null mice that succumb to an aggressive cancer syndrome comprising mammary and salivary gland carcinomas and rhabdomyosarcoma. A vaccine made of allogeneic mammary carcinoma cells expressing
HER-2/neu
and
interleukin 12
afforded long-term protection from tumor onset. Tumor prevention was mediated by T cell-derived cytokines, in particular gamma-interferon, and by anti-
HER-2/neu
antibodies.
HER-2/neu
expression was inhibited in target tissues of vaccinated mice, and somatic loss of the wild-type p53 allele did not occur. A highly effective vaccine against a single oncoprotein induced a powerful immune response that arrested multistep carcinogenesis in distinct target tissues.
...
PMID:Immunological prevention of a multigene cancer syndrome. 1554 14
We previously showed that a vaccine combining
interleukin 12
and allogeneic p185(neu)-positive mammary carcinoma cells completely prevented multifocal mammary carcinogenesis in
HER-2/neu
transgenic mice. To identify the molecular events responsible for effective tumor prevention and to define the tumor gene expression signature, we used microarrays to analyze the expression profile of mammary tissue of untreated transgenic mice and of vaccine-treated, tumor-free mice at different time points. Mammary tissue from vaccinated mice displayed a gene expression profile different from that of untreated, tumor-bearing mice but similar to that of normal/hyperplastic mammary gland. Comparison of treated and untreated mice at 15 weeks of age revealed up-regulation of genes encoding antibodies, chemokines, gamma-interferon-induced genes and inflammatory molecules, and down-regulation of early genes induced by tumor development. The gene expression signature of
HER-2/neu
-transformed tumor cells showed modulation of genes promoting proliferation, angiogenesis, migration, invasion, and metastasis and inhibiting apoptosis and immune response. Meta-analysis of microarray data on human breast cancer showed that the signature of tumors arising in murine
HER-2/neu
transgenic model correctly classified human
HER-2/neu
-expressing tumors and normal breast tissue. Moreover murine and human
HER-2/neu
-positive tumors share the signature of basal-like breast cancers. This gene expression analysis reveals the immune events associated with prevention of tumor development and shows that
HER-2/neu
transgenic mice represent a good model of a poor-prognosis group of human breast tumors.
...
PMID:Gene expression analysis of immune-mediated arrest of tumorigenesis in a transgenic mouse model of HER-2/neu-positive basal-like mammary carcinoma. 1579 99
Prevention of cancer through the activation of the immune system has been explored in recent years in preclinical systems thanks to the availability of several new transgenic mouse models that closely mimic the natural history of human tumors. The most thoroughly investigated model of cancer immunoprevention is the mammary carcinoma of
HER-2/neu
transgenic mouse. In this system it has clearly been shown that the activation of immune defences in healthy individuals can effectively prevent the subsequent onset of highly aggressive mammary carcinomas. A complete prevention was obtained using a combination of three signals (the so called "triplex" vaccine) that included the specific antigen (p185, the product of
HER-2/neu
) and nonspecific signals like allogeneic histocompatibility antigens and
interleukin 12
. The analysis of protective immune responses in models of cancer immunoprevention revealed some unexpected features, in particular the central role of antibodies in immunoprevention, at variance with conventional immuno-therapy which is firmly based on cytotoxic T cells. In the
HER-2/neu
system anti-p185 antibodies, in addition to immunological functions leading to tumor cell lysis, inhibit p185 dimerization and induce its internalization, resulting in the inhibition of mitogenic signaling. Most current tumor antigens appear to be unsuitable targets for cancer immunoprevention. An ideal antigen should have a crucial pathogenetic role in tumor growth to avoid the selection of antigen loss variants. Downregulation of major histocompatibility complex (MHC) expression during tumor progression frequently limits antigen recognition by MHC-restricted T cells. Thus an ideal antigen for cancer immunoprevention should be recognized both by T cells and by antibodies. Antibody binding to cell surface oncogenic determinants, in addition to complement- and cell-mediated tumor cell lysis, can block mitogenic signaling and induce internalization, resulting in tumor growth arrest. A search for new tumor antigens should be conducted among molecules that are directly involved in neoplastic transformation and are recognizable by the immune response also in MHC loss variants. Novel tumor antigens fulfilling both conditions will be crucial for the development of cancer immunoprevention and will provide new targets also for cancer immunotherapy.
...
PMID:New target antigens for cancer immunoprevention. 1589 21
