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Query: UMLS:C0006142 (
breast cancer
)
160,383
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
To unravel the mechanisms underlying failure of endocrine therapy of
breast cancer
, we have previously executed a functional genetic screen and identified the adaptor protein
BCAR1
to be causative for tamoxifen resistance. As a consequence of the manifold of interactions with other proteins, we characterized the contribution of individual protein domains of
BCAR1
to anti-estrogen-resistant proliferation of human
breast cancer
cells. We took advantage of the observation that the closely related family member HEF1 was unable to support long-term anti-estrogen-resistant cell proliferation. Chimerical proteins containing defined domains of
BCAR1
and HEF1 were evaluated for anti-estrogen-resistant growth. Exchange of the SH3 and C-terminal domains did not modify the capacity to support cell proliferation. Full support of anti-estrogen resistant proliferation was observed for chimerical molecules containing the central part of
BCAR1
. The bi-partite SRC-binding site or the Serine-rich domain did not explain the differential capacity of
BCAR1
. These findings indicate that the differences between
BCAR1
and HEF1 with respect to support of anti-estrogen resistance reside in the substrate domain which contains multiple sites for tyrosine phosphorylation. The crucial interactions required for anti-estrogen resistance occur within the substrate domain of
BCAR1
. Further deciphering of these interactions may resolve the growth regulatory mechanism and provide an explanation for the observation that primary tumors with high levels of
BCAR1
are likely to fail on tamoxifen therapy. This information may also help to devise alternative personalized treatment strategies with improved outcome for
breast cancer
patients.
Breast Cancer
Res Treat 2010 Apr
PMID:The substrate domain of BCAR1 is essential for anti-estrogen-resistant proliferation of human breast cancer cells. 1941 34
The Cas scaffolding proteins (NEDD9/HEF1/CAS-L,
BCAR1
/p130Cas, EFSSIN, and HEPL/CASS4) regulate cell migration, division and survival, and are often deregulated in cancer. High
BCAR1
expression is linked to poor prognosis in
breast cancer
patients, while upregulation of NEDD9 contributes to the metastatic behavior of melanoma and glioblastoma cells. Our recent work knocking out the single Drosophila Cas protein, Dcas, identified a genetic interaction with E-cadherin. As E-cadherin is often downregulated during epithelial-mesenchymal transition (EMT) prior to metastasis, if such an activity was conserved in mammals it might partially explain how Cas proteins promote aggressive tumor behavior. We here establish that Cas proteins negatively regulate E-cadherin expression in human mammary cells. Cas proteins do not affect E-cadherin transcription, but rather,
BCAR1
and NEDD9 signal through SRC to promote E-cadherin removal from the cell membrane and lysosomal degradation. We also find mammary tumors arising in MMTV-polyoma virus T-antigen mice have enhanced junctional E-cadherin in a Nedd9(-/-) background. Cumulatively, these results suggest a new role for Cas proteins in cell-cell adhesion signaling in cancer.
...
PMID:NEDD9 and BCAR1 negatively regulate E-cadherin membrane localization, and promote E-cadherin degradation. 2176 37
Previously, we have identified a panel of
breast cancer
antiestrogen resistance (BCAR) genes. Several of these genes have clinical relevance because mRNA or protein levels associate with tamoxifen resistance or tumor aggressiveness. We postulated that changes in activation status of protein signaling networks induced by BCAR genes may provide better insight into the mechanisms underlying antiestrogen resistance. Key signal transduction pathways were analyzed for changes in activation or expression using reverse-phase protein microarrays probed with 78 antibodies against signaling proteins with known roles in tumorigenesis. We used ZR-75-1-derived cell lines transduced with AKT1, AKT2,
BCAR1
, BCAR3, BCAR4, EGFR, GRB7, HRAS, HRAS(v12) or HEF1 and MCF7-derived cell lines transduced with BCAR3, BCAR4 or EGFR. In the antiestrogen-resistant cell lines, we observed increased phosphorylation of several pathways involved in cell proliferation and survival. All tamoxifen-resistant cell lines contained high levels of phosphorylated AKT and its biochemically linked substrates Forkhead box O1/3. The activation of ERBB2, ERBB3 and the downstream modulators focal adhesion kinase and SHC were activated in cells with overexpression of BCAR4. Remarkable differences were observed for the levels of activated AMPK alpha1, cyclins, STAT5, STAT6, ERK1/2 and BCL2. The comparison of the cell signaling networks in estrogen-dependent and -independent cell lines revealed biochemically linked kinase-substrate markers that comprised systemically activated signaling pathways involved in tamoxifen resistance. Our results show that this model provides insights into the molecular and cellular mechanisms of
breast cancer
progression and antiestrogen resistance. This knowledge may help the development of novel targeted treatments.
...
PMID:Protein pathway activation mapping reveals molecular networks associated with antiestrogen resistance in breast cancer cell lines. 2232 89
Elevated levels of p130(Cas)/
BCAR1
(Crk-associated substrate/
breast cancer
antiestrogen resistance 1) are found in aggressive breast tumors and are associated with tamoxifen resistance of mammary cancers. p130(Cas) promotes the integration of protein complexes involved in multiple signaling pathways frequently deregulated in
breast cancer
. To elucidate mechanisms leading to p130(Cas) up-regulation in mammary carcinomas and during acquired tamoxifen resistance, the regulation of p130(Cas)/
BCAR1
was studied. Because multiple putative binding motifs for the inducible transcription factor EGR1 were identified in the 5' region of
BCAR1
, the p130(Cas)/
BCAR1
regulation by EGR1 and its coregulator NAB2 was investigated. Overexpression or short interfering RNA (siRNA)-mediated down-regulation of EGR1 or NAB2, and chromatin immunoprecipitations indicated that EGR1 and NAB2 act in concert to positively regulate p130(Cas)/
BCAR1
expression in
breast cancer
cells. p130(Cas) depletion using siRNA showed that, in tamoxifen-sensitive MCF-7 cells, p130(Cas) regulates EGR1 and NAB2 expression, whereas in the derivative tamoxifen-resistant TAM-R cells, only NAB2 levels were influenced.
BCAR1
messenger RNA and p130(Cas) protein were upregulated by phorbol esters following the kinetics of late response genes in MCF-7 but not in TAM-R cells. Thus, in MCF-7 cells, we identified a positive feedback loop where p130(Cas) positively regulates EGR1 and NAB2, which in turn induce p130(Cas) expression. Importantly, compared with MCF-7, enhanced NAB2 expression and increased EGR1 binding to the
BCAR1
5' region observed in TAM-R may lead to the constitutively increased p130(Cas)/
BCAR1
levels in TAM-R cells. The uncovered differences in this EGR1/NAB2/p130(Cas) network in MCF-7 versus TAM-R cells may also contribute to p130(Cas) up-regulation during acquired tamoxifen resistance.
...
PMID:Regulation of p130(Cas)/BCAR1 expression in tamoxifen-sensitive and tamoxifen-resistant breast cancer cells by EGR1 and NAB2. 2243 19
CAS proteins and Ezrin, Radixin, Moesin (ERM) family members act as intracellular scaffolds and are involved in interactions with the cytoskeleton, respectively. Both protein families have previously been associated with metastasis and poor prognosis in cancer. Our group recently reported on the overexpression of EZR/VIL2 and
BCAR1
and their protein products in breast carcinoma effusions compared to primary breast carcinoma. In the present study, the role of these two proteins was studied in semi-normal MCF10A cells and metastatic MDA-MB-231 breast carcinoma cells cultured in tri-dimensional (3-D) conditions that were hypothesized to reproduce the in vivo conditions of
breast cancer
metastasis. MCF10A cells formed spheroid-shaped colonies without any Matrigel invasion, while MDA-MB-231 cells displayed an invasive phenotype and showed satellite projections that bridged multiple cell colonies in 3-D culture. E-cadherin was expressed in MCF10A, but not in MDA-MB-231 cells. The temporal expression of ezrin and
BCAR1
/p130Cas at the mRNA and protein level differed in the two cell lines upon 3-D culturing on Matrigel. Upregulation of
BCAR1
/p130cas was observed in the transition of MDA-MB-231 from attached to detached culture. Silencing of Ezrin and p130Cas in MDA-MB-231 cells by short hairpin RNA resulted in decreased invasive potential, and p130Cas silencing further resulted in smaller spheroid/colony formation. Our data show that MCF10A and MDA-MB-231 cells differ in their ability to form spheroids, in expression of E-cadherin and in the expression of Ezrin and
BCAR1
/p130Cas in 3-D cultures on Matrigel, suggesting a role in tumor progression in breast carcinoma.
...
PMID:Ezrin and BCAR1/p130Cas mediate breast cancer growth as 3-D spheroids. 2247 38
Elevated expression of p130Cas (Crk-associated substrate)/
BCAR1
(
breast cancer
antiestrogen resistance 1) in human breast tumors is a marker of poor prognosis and poor overall survival. p130Cas is a downstream target of the tyrosine kinase c-Src. Signaling mediated by p130Cas through its phosphorylated substrate domain (SD) and interaction with effector molecules directly promotes tumor progression. We previously developed a constitutively phosphorylated p130Cas SD molecule, Src*/SD (formerly referred to as Src*/CasSD), which acts as decoy molecule and attenuates the transformed phenotype in v-crk-transformed murine fibroblasts and human
breast cancer
cells. To test the function of this molecule in vivo, we established mouse mammary tumor virus (MMTV)-long terminal repeat-Src*/SD transgenic mice in which mammary gland development and tumor formation were analyzed. Transgenic expression of the Src*/SD molecule under the MMTV-long terminal repeat promoter did not interfere with normal mammary gland development or induce tumors in mice observed for up to 11 months. To evaluate the effects of the Src*/SD molecule on tumor development in vivo, we utilized the MMTV-polyoma middle T-antigen (PyMT) murine
breast cancer
model that depends on c-Src. PyMT mice crossed with Src*/SD mice displayed accelerated tumor formation. The earlier onset of tumors can be explained by the interaction of the Src* domain with PyMT and targeting the fused phosphorylated SD to the membrane. At membrane compartments, it might integrate membrane-associated active signaling complexes leading to increased proliferation measured by phospho-Histone H3 staining. Although these results were unexpected, they emphasize the importance of preventing the membrane association of Src*/SD when employed as decoy molecule.
...
PMID:Expression of a phosphorylated substrate domain of p130Cas promotes PyMT-induced c-Src-dependent murine breast cancer progression. 2382 55
Most breast cancers are estrogen receptor-positive and treated with antiestrogens, but aberrant signaling networks can induce drug resistance. One of these networks involves the scaffolding protein
BCAR1
/p130CAS, which regulates cell growth and migration/invasion. A less investigated scaffolding protein that also confers antiestrogen resistance is the SH2 domain-containing protein BCAR3.
BCAR1
and BCAR3 bind tightly to each other through their C-terminal domains, thus potentially connecting their associated signaling networks. However, recent studies using
BCAR1
and BCAR3 interaction mutants concluded that association between the two proteins is not critical for many of their interrelated activities regulating
breast cancer
malignancy. We report that these previously used BCAR mutations fail to cause adequate loss-of-function of the complex. By using structure-based
BCAR1
and BCAR3 mutants that lack the ability to interact, we show that BCAR3-induced antiestrogen resistance in MCF7
breast cancer
cells critically depends on its ability to bind
BCAR1
. Interaction with BCAR3 increases the levels of phosphorylated
BCAR1
, ultimately potentiating
BCAR1
-dependent antiestrogen resistance. Furthermore, antiestrogen resistance in cells overexpressing
BCAR1
/BCAR3 correlates with increased ERK1/2 activity. Inhibiting ERK1/2 through overexpression of the regulatory protein PEA15 negates the resistance, revealing a key role for ERK1/2 in
BCAR1
/BCAR3-induced antiestrogen resistance. Reverse-phase protein array data show that PEA15 levels in invasive breast cancers correlate with patient survival, suggesting that PEA15 can override ERK1/2 activation by
BCAR1
/BCAR3 and other upstream regulators. We further uncovered that the BCAR3-related NSP3 can also promote antiestrogen resistance. Thus, strategies to disrupt
BCAR1
-BCAR3/NSP3 complexes and associated signaling networks could ultimately lead to new
breast cancer
therapies.
...
PMID:Association of the breast cancer antiestrogen resistance protein 1 (BCAR1) and BCAR3 scaffolding proteins in cell signaling and antiestrogen resistance. 2458 39
The members of the Cas protein family (p130Cas/
BCAR1
, Nedd9/HEF1, EFS and CASS4) are scaffold proteins required for the assembly of signal transduction complexes in response to several stimuli, such as growth factors, hormones and extracellular matrix components. Given their ability to integrate and coordinate multiple signalling events, Cas proteins have emerged as crucial players in the control of mammary cell proliferation, survival and differentiation. More importantly, it has been found that alterations of their expression levels result in aberrant signalling cascades, which promote initiation and progression of
breast cancer
. Based on the increasing data from in vitro, mouse model and clinical studies, in this review we will focus on two Cas proteins, p130Cas/
BCAR1
and Nedd9, and their coupled signalling pathways, to examine their role in mammary cell transformation and in the acquirement of invasiveness and drug resistance of
breast cancer
cells.
Breast Cancer
Res 2014
PMID:Cas proteins: dodgy scaffolding in breast cancer. 2560 87
Elevated levels of p130(Cas) (Crk-associated substrate)/
BCAR1
(
breast cancer
antiestrogen resistance 1 gene) are associated with aggressiveness of breast tumors. Following phosphorylation of its substrate domain, p130(Cas) promotes the integration of protein complexes involved in multiple signaling pathways and mediates cell proliferation, adhesion, and migration. In addition to the known
BCAR1
-1A (wild-type) and 1C variants, we identified four novel
BCAR1
mRNA variants, generated by alternative first exon usage (1B, 1B1, 1D, and 1E). Exons 1A and 1C encode for four amino acids (aa), whereas 1D and 1E encode for 22 aa and 1B1 encodes for 50 aa. Exon 1B is non-coding, resulting in a truncated p130(Cas) protein (Cas1B).
BCAR1
-1A, 1B1, and variant 1C mRNAs were ubiquitously expressed in cell lines and a survey of human tissues, whereas 1B, 1D, and 1E expression was more restricted. Reconstitution of all isoforms except for 1B in p130(Cas)-deficient murine fibroblasts induced lamellipodia formation and membrane ruffling, which was unrelated to the substrate domain phosphorylation status. The longer isoforms exhibited increased binding to focal adhesion kinase (FAK), a molecule important for migration and adhesion. The shorter 1B isoform exhibited diminished FAK binding activity and significantly reduced migration and invasion. In contrast, the longest variant 1B1 established the most efficient FAK binding and greatly enhanced migration. Our results indicate that the p130(Cas) exon 1 variants display altered functional properties. The truncated variant 1B and the longer isoform 1B1 may contribute to the diverse effects of p130(Cas) on cell biology and therefore will be the target of future studies.
...
PMID:Identification of Novel Crk-associated Substrate (p130Cas) Variants with Functionally Distinct Focal Adhesion Kinase Binding Activities. 2580
Protein tyrosine kinase 6 (PTK6) expression, activation, and amplification of the PTK6 gene have been reported in ERBB2/HER2-positive mammary gland cancers. To explore contributions of PTK6 to mammary gland tumorigenesis promoted by activated ERBB2, we crossed Ptk6-/- mice with the mouse mammary tumor virus-ERBB2 transgenic mouse line expressing activated ERBB2 and characterized tumor development and progression. ERBB2-induced tumorigenesis was significantly delayed and diminished in mice lacking PTK6. PTK6 expression was induced in the mammary glands of ERBB2 transgenic mice before tumor development and correlated with activation of signal transducer and activator of transcription 3 (STAT3) and increased proliferation. Disruption of PTK6 impaired STAT3 activation and proliferation. Phosphorylation of the PTK6 substrates focal adhesion kinase (FAK) and breast cancer anti-estrogen resistance 1 (
BCAR1
; p130CAS) was decreased in Ptk6-/- mammary gland tumors. Reduced numbers of metastases were detected in the lungs of Ptk6-/- mice expressing activated ERBB2, compared with wild-type ERBB2 transgenic mice. PTK6 activation was detected at the edges of ERBB2-positive tumors. These data support roles for PTK6 in both ERBB2-induced mammary gland tumor initiation and metastasis, and identify STAT3, FAK, and
BCAR1
as physiologically relevant PTK6 substrates in
breast cancer
. Including PTK6 inhibitors as part of a treatment regimen could have distinct benefits in ERBB2/HER2-positive breast cancers.
...
PMID:Protein tyrosine kinase 6 promotes ERBB2-induced mammary gland tumorigenesis in the mouse. 2624 33
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