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Symptom
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Gene/Protein
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Target Concepts:
Gene/Protein
Disease
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Query: EC:2.7.10.1 (
ERK
)
95,504
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
It is difficult to evaluate the prognostic value of histologic criteria in gastric cancer because of the high variability of morphologic patterns. Recently, histologic subtypes of low, intermediate, or high malignant potential have been identified, providing the basis for a prognostically informative grading system. Because array comparative genomic hybridization systems allow systematic analysis of chromosome alterations, which may be prognostically and pathogenetically informative, we applied high-resolution genome-wide array comparative genomic hybridization to archival material from 81 gastric cancer cases followed for a median of 150 months after surgery. The DNA extracted from paraffin sections gave useful results in 49 tumors, 18 of which were of low-grade, 24 of intermediate, and 7 of high-grade histotypes. Based on the number of chromosome aberrations and the presence/absence of amplifications, 3 tumor clusters of increasing genomic lesion severity were constructed, which proved to correlate significantly with histologic grade and stage as well as with patient survival. Further investigation documented the lower number and severity of genomic alterations in tumors with microsatellite DNA instability and high CD8-rich lymphoid response; the close association of 8p23.1 amplification with cardial cancer; the frequent amplification of genes involved in cell renewal (CDC6,
HER2
,
GRB7
, IGFBP4) at 17q12-q21.1, with close histochemical correlation with
HER2
membranous expression; and more sporadic amplification of chromosome regions harboring important oncogenes like MYC, KRAS, NRAS, CRKL, CCNE1, or ZNF217. We conclude that genome-wide array comparative genomic hybridization of gastric cancer contributes prognostically relevant information providing a genetic background for histologic grading.
...
PMID:Correlation between genomic alterations assessed by array comparative genomic hybridization, prognostically informative histologic subtype, stage, and patient survival in gastric cancer. 2167 33
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
HER2
/neu is associated with poorer clinical outcome in breast cancer. Expression patterns of co-localised cancer-associated genes at 17q12-21 were examined using RT-PCR. The study group consisted of a 96-patient cohort. Relative quantity of mRNA expression was calculated using the comparative cycle threshold method and Qbase software. Results were analysed to detect expression patterns among the genes, and to identify associations between expression levels and clinical data. Levels of
HER2
/neu correlated with those of
GRB7
(r=0.551, p<0.001), RARA (r=0.391, p<0.001), RPL19 (r=0.549, p<0.001) and LASP1 (r=0.399, p<0.001).
GRB7
was significantly inversely associated with improved DFS at 60 months (p=0.036). RARA levels were greater in
HER2
/neu-positive as opposed to
HER2
/neu-negative patients (p=0.021); levels were significantly higher in ER-positive patients, relative to those who were ER-negative (p=0.003). Levels of RPL19 were significantly higher in the
HER2
/neu-overexpressing (p=0.010) and luminal B subtypes (p=0.007). LASP1 levels were higher in those patients who had been classified clinically as
HER2
/neu-positive (p=0.004). This study reaffirms the correlation between
HER2
/neu and the co-localised LASP1 and
GRB7
; the latter target may hold additional significance in addition to being a surrogate marker for
HER2
/neu expression. The relationship identified between RARA and ER-positivity may herald an avenue for targeted therapy of these tumours.
...
PMID:Expression levels of HER2/neu and those of collocated genes at 17q12-21, in breast cancer. 2255 11
Gene amplification is a major genetic alteration in human cancers. Amplicons, amplified genomic regions, are believed to contain "driver" genes responsible for tumorigenesis. However, the significance of co-amplified genes has not been extensively studied. We have established an integrated analysis system of amplicons using retrovirus-mediated gene transfer coupled with a human full-length cDNA set. Applying this system to 17q12-21 amplicon observed in breast cancer, we identified
GRB7
as a context-dependent oncogene, which modulates the
ERBB2
signaling pathway through enhanced phosphorylation of
ERBB2
and Akt. Our work provides an insight into the biological significance of gene amplification in human cancers.
...
PMID:Expression screening of 17q12-21 amplicon reveals GRB7 as an ERBB2-dependent oncogene. 2258 52
About 20% of breast cancers are characterized by amplification and overexpression of the
HER2
oncogene. Although significant progress has been achieved for treating such patients with
HER2
inhibitor trastuzumab, more than half of the patients respond poorly or become resistant to the treatment. Since the
HER2
amplicon at 17q12 contains multiple genes, we have systematically explored the role of the
HER2
co-amplified genes in breast cancer cell growth and their relation to trastuzumab resistance. We integrated aCGH data of the
HER2
amplicon from 71
HER2
positive breast tumors and 10 cell lines with systematic functional RNA interference analysis of 23 core amplicon genes with several phenotypic endpoints in a panel of trastuzumab responding and non-responding
HER2
positive breast cancer cells. Silencing of
HER2
caused a greater growth arrest and apoptosis in the responding compared to the non-responding cell lines, indicating that the resistant cells are inherently less dependent on the
HER2
pathway. Several other genes in the amplicon also showed a more pronounced effect when silenced; indicating that expression of
HER2
co-amplified genes may be needed to sustain the growth of breast cancer cells. Importantly, co-silencing of STARD3,
GRB7
, PSMD3 and PERLD1 together with
HER2
led to an additive inhibition of cell viability as well as induced apoptosis. These studies indicate that breast cancer cells may become addicted to the amplification of several genes that reside in the
HER2
amplicon. The simultaneous targeting of these genes may increase the efficacy of the anti-
HER2
therapies and possibly also counteract trastuzumab resistance. The observed additive effects seem to culminate to both apoptosis and cell proliferation pathways indicating that these pathways may be interesting targets for combinatorial treatment of HER2+ breast cancers.
...
PMID:The HER2 amplicon includes several genes required for the growth and survival of HER2 positive breast cancer cells. 2325 99
Ovarian cancer is a highly lethal disease with poor prognosis and especially in high-grade tumor. Emerging evidence has reported that aberrant upregulation and activation of
GRB7
,
ERK
as well as FOXM1 are closely associated with aggresivenesss of human cancers. However, the interplay between these factors in the pathogenesis of human cancers still remains unclear. In this study, we found that
GRB7
(P<0.0001),
ERK
phosphorylation (P<0.0001) and FOXM1 (P = 0.001) were frequently increased and associated with high-grade tumors, as well as a high tendency in association with advanced stage ovarian cancer by immunohistochemical analysis. Intriguingly, the expressions of
GRB7
(P<0.0001),
ERK
phosphorylation (P<0.001) and FOXM1 (P<0.001) showed a significant stepwise increase pattern along Grade 1 to Grade 3 ovarian cancers. Biochemical studies using western blot analysis demonstrated that enforced expression or knockdown of
GRB7
showed
GRB7
could elevate the levels of
ERK
phosphorylation and FOXM1, whereas enforced expression of FOXM1 could not alter levels of
GRB7
and
ERK
phosphorylation. But inhibition of
ERK
signaling by U0126 or PD98059 could reduce the level of FOXM1 in
GRB7
-overexpressing ovarian cancer cells, suggesting that
GRB7
,
ERK
and FOXM1 are regulated orderly. Moreover, inhibition of
ERK
activity by U0126 or PD98059, or decreased FOXM1 expression by Thiostrepton significantly inhibited cell migration/invasion, tumor growth in vitro and in vivo. Collectively, our findings confer that targeting
GRB7
/
ERK
/FOXM1 signaling cascade may be a promising molecular therapeutic choice in combating ovarian cancer.
...
PMID:Targeting GRB7/ERK/FOXM1 signaling pathway impairs aggressiveness of ovarian cancer cells. 2328 1
HER2
/neu amplification/overexpression is the only somatic mutation widely considered to be a marker of disease outcome and response to treatment in breast cancer. Pathologists have made large efforts to achieve accuracy in characterizing
HER2
/neu status. The introduction of transtuzumab contributed to development of additional measures to identify sensitive and resistant subclasses of
HER2
/neu-positive tumors. In this article, we describe the latest advances in
HER2
/neu status diagnostic assessment and the most relevant research emerging from "Omics" (genomics, epigenetics, transcriptomics, and proteomics) studies on
HER2
/neu-positive breast cancer. A large quantity of biomarkers from different studies highlighted
HER2
/neu-positive specific proliferation, cell cycle arrest, and apoptosis mechanisms, as well as immunological and metabolic behavior. Major driver genes of tumor progression have had a candidate status (
GRB7
, MYC, CCND1,
EGFR
, etc.), even though the main role for
HER2
/neu is largely recognized. Nonetheless, existing omics data and
HER2
/neu-positive molecular profiles seem to suggest that few proteogenomic alterations in
HER2
,
EGFR
, and PI3K networks could significantly affect the effectiveness of transtuzumab. The systematic search of molecular alterations in and across these pathways can help to select the most appropriate drug for a given patient based on in-depth understanding of complexity in tumor biology.
...
PMID:"Omics" of HER2-positive breast cancer. 2342 6
Amplification of human Her2 and its aberrant signaling in 20-30% of early breast cancer patients is responsible for highly aggressive tumors with poor outcome. Grb7 is reported to be co-amplified with Her2. We report a concurrent high expression of mRNA (from FFPE tumor samples; mRNA correlation, Pearson r(2)= 0.806), and high levels of
GRB7
protein (immunoblot) in HER2+ breast cancer cell lines. We demonstrated the signaling mechanism of
HER2
and downstream effectors that contributes to proliferation and migration. Using HER2+ and trastuzumab-resistant breast cancer cell lines, we identified the interaction between
GRB7
and
HER2
in the control of HER2+ cell proliferation. Our co-IP data show that
GRB7
recruits SHC into the
HER2
-
GRB7
signaling complex. This complex formation leads to activation of RAS-GTP. We also observed that following integrin engagement,
GRB7
is phosphorylated at tyrosine in a p-FAK (Y397) dependent manner. This FAK-
GRB7
complex leads to downstream activation of RAC1-GTP (responsible for migration) probably through the recruitment of VAV2. Our CO-IP data demonstrate that
GRB7
directly binds with VAV2 following fibronectin engagement in HER2+ cells. To address whether
GRB7
could serve as a pathway specific therapeutic target, we used siRNA to suppress
GRB7
expression. Knockdown of
GRB7
expression in the HER2+ breast cancer cell lines decreases RAS activation, cell proliferation, 2D and 3D colony formation and also blocked integrin-mediated RAC1 activation along with integrin-directed cell migration. These findings dissected the
HER2
-mediated signaling cascade into (1) HER2+ cell proliferation (
HER2
-
GRB7
-SHC-RAS) and (2) HER2+ cell migration (alpha5 beta1/alpha4 beta1-FAK-
GRB7
-VAV2-RAC1). Our data clearly demonstrate that a coupling of
GRB7
with
HER2
is required for the proliferative and migratory signals in HER2+ breast tumor cells.
...
PMID:Dissecting GRB7-mediated signals for proliferation and migration in HER2 overexpressing breast tumor cells: GTP-ase rules. 2359 40
HER2
gene amplification is observed in about 15% of breast cancers. The subgroup of
HER2
-positive breast cancers appears to be heterogeneous and presents complex patterns of gene amplification at the locus on chromosome 17q12-21. The molecular variations within the chromosome 17q amplicon and their clinical implications remain largely unknown. Besides the well-known TOP2A gene encoding Topoisomerase IIA, other genes might also be amplified and could play functional roles in breast cancer development and progression. This review will focus on the current knowledge concerning the
HER2
amplicon heterogeneity, its clinical and biological impact and the pitfalls associated with the evaluation of gene amplifications at this locus, with particular attention to TOP2A and the link between TOP2A and anthracycline benefit. In addition it will discuss the clinical and biological implications of the amplification of ten other genes at this locus (MED1, STARD3,
GRB7
, THRA, RARA, IGFPB4, CCR7, KRT20, KRT19 and GAST) in breast cancer.
...
PMID:The HER2 amplicon in breast cancer: Topoisomerase IIA and beyond. 2362 26
Genome sequencing of relapsed, invasive lobular breast cancer identified actionable mutations in 86% of the cases.
HER2
alterations occur in 27% of the cases, including 4 cases with activating
HER2
mutations and 1 with a novel
HER2
-
GRB7
gene fusion. This fusion links the
HER2
tyrosine kinase domain to the
GRB7
src homology 2 (SH2) domain.
...
PMID:A neu view of invasive lobular breast cancer. 2357 77
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