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Query: UNIPROT:O76050 (
neu
)
3,969
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Increased levels of
S100A4
(p9Ka) confer metastatic ability on a normally non-metastatic epithelial cell line. To find out whether
S100A4
can induce metastasis in vivo, transgenic mice expressing high levels of
S100A4
, but which show no phenotypic effect, have been mated with MMTV-
neu
transgenic mice which succumb to stochastic mammary neoplasia related to expression of the MMTV-
neu
transgene. Resultant bitransgenic, multiparous, female progeny expressing both
S100A4
and Neu have a slightly earlier incidence of palpable mammary tumours than the MMTV-
neu
offspring and specifically exhibit macroscopic metastatic lesions in the lungs. The
S100A4
transgene is expressed in primary and secondary lesions of bitransgenic offspring and its expression is particularly associated with regions of invasion of primary lesions and metastases.
...
PMID:Expression of the calcium-binding protein S100A4 (p9Ka) in MMTV-neu transgenic mice induces metastasis of mammary tumours. 889 8
The S100-related calcium-binding protein
S100A4
(p9Ka) is expressed at a low level in rat mammary epithelial cells from normal mammary gland and benign mammary tumors. In transgenic mice, expressed rat
S100A4
transgenes co-operate with the activated c-erbB-2 oncogene,
neu
, to form metastatic mammary tumors. Elevated levels of
S100A4
(p9Ka) in cultured benign rat or mouse mammary epithelial cells are associated with the induction of metastatic capability. A cis-acting sequence related to the consensus recognition sequence of GC-factor, 1,300 base pairs upstream of the start site of transcription of the rat
S100A4
gene, acts as a cis-acting inhibitor of transcription of the
S100A4
(p9Ka) gene in a low
S100A4
(p9Ka)-expressing benign rat mammary epithelial cell line, but not in highly expressing rat mammary epithelial cell lines. There is an inverse relationship between the level of
S100A4
(p9Ka) mRNA and the level of GC-factor mRNA in a range of rat mammary cell lines. The results suggest a novel mechanism for regulating the expression of the mRNA encoding an S100 protein.
...
PMID:Transcriptional down-regulation of the metastasis-inducing S100A4 (p9Ka) in benign but not in malignant rat mammary epithelial cells by GC-factor. 924 9
Rodent
S100A4
(p9Ka) induces a metastatic phenotype in benign rat mammary tumour cells and cooperates with the
neu
oncogene to produce metastatic tumours in a transgenic mouse model system. Human
S100A4
possesses similar metastasis-inducing properties.
S100A4
mRNA is now sought in human breast tumour-derived cell lines and tumour specimens.
S100A4
mRNA is present in some cell lines derived from malignant breast cancers, but is not detectable in cells derived from benign breast tumours. In human tumour specimens, using in situ hybridisation, the mRNA for
S100A4
is localised to the epithelial cells of carcinoma specimens, and in some normal breast specimens, to a stromal region surrounding the epithelial ducts. In carcinoma specimens,
S100A4
mRNA is also found in the stromal region surrounding islands of cancer cells. For both the epithelial and stromal components,
S100A4
mRNA is present at a higher level in carcinomas relative to benign breast tumour specimens. In general, there is a concordance between the
S100A4
mRNA signal from the epithelial and stromal elements of the same carcinoma specimens. Using Northern blotting techniques, these results have been extended to a panel of 137 benign and malignant breast tumour specimens. The results show that
S100A4
mRNA occurs in the more-malignant, rather than in the more-benign tumour specimens.
...
PMID:Localisation by in situ hybridisation of S100A4 (p9Ka) mRNA in primary human breast tumour specimens. 1073 49
Elevated levels of the calcium-binding protein
S100A4
have been causally linked to the metastatic spread of breast cancer cells in several in vitro and in vivo model systems and, more recently, correlated with patient death in a series of human breast cancer specimens. In transgenic mice expressing MMTV-
neu
transgenes in mammary gland, additional expression of
S100A4
transgenes results in an enhanced metastatic capability. Despite this phenotypic difference arising from elevated
S100A4
, it is now shown that the primary breast tumours in all mice examined are histopathologically very similar and resemble those human tumours associated with elevated c-erbB-2. Using a panel of genes identified by suppression subtractive hybridization of cDNAs from individual primary tumours and a metastasis, some cDNAs were found to exhibit a differential pattern of expression associated with the expression of
S100A4
protein (including osteopontin, S100A9, claudin 2 and several Expressed Sequence Tags sequences). Whilst confirming differential expression of these genes, it was demonstrated that individual primary tumours of matched transgenic status, histology and grade exhibit some degree of heterogeneity at the mRNA level by reverse Northern and Northern hybridizations. This intertumour heterogeneity of mRNA level was confirmed by cDNA array analysis and suggests that even in a transgenic model, which exhibits far less variation than the human disease, there may be multiple mechanisms of disease progression.
...
PMID:Examination of tumour histopathology and gene expression in a neu/S100A4 transgenic model of metastatic breast cancer. 1463 31
Elevated levels of the calcium-binding protein
S100A4
are associated with poor patient survival in breast cancer patients and induce metastasis in rodent models. To investigate the effects of
S100A4
on different components of the metastatic process, epithelial cells lines have been isolated from nonmalignant tumours in
neu
transgenic mice and from malignant tumours in
neu
/
S100A4
double transgenic mice. Additional cell lines expressing both Neu and
S100A4
have also been derived by transfection of rat
S100A4
cDNA into tumour cell lines cloned from
neu
single transgenic mice. Using these cells in transfilter migration assays, it has been shown that increases in either motility or invasive properties correlate with each other and with the level of
S100A4
protein. Injection of three of the cell lines separately into the mammary fat pads of nude mice showed that elevated levels of
S100A4
correlated with the degree of metastasis to the lungs. In contrast, changes in cell proliferation and cell-substrate adhesion did not correlate with
S100A4
levels. Neither motility nor invasiveness correlated with proteolytic degradation of gelatin as measured by zymography. Thus, the results suggest that the main effect of increases in
S100A4
levels in metastasis is to generate increased cell motility and invasion and that this latter change is not dependent upon an increased ability to degrade the intercellular matrix.
...
PMID:S100A4 regulates cell motility and invasion in an in vitro model for breast cancer metastasis. 1471 Feb 37
