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Query: UMLS:C0278488 (
metastatic breast cancer
)
7,812
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Our analysis of the tumors of 57 women with
metastatic breast cancer
with next generation sequencing (NGS) demonstrates that each patient's tumor is unique in its molecular fingerprint. We observed 216 somatic aberrations in 70 different genes, including 131 distinct aberrations. The most common gene alterations (in order of decreasing frequency) included: TP53, PIK3CA, CCND1, MYC, HER2 (ERBB2), MCL1, PTEN, FGFR1, GATA3, NF1, PIK3R1, BRCA2, EGFR, IRS2, CDH1,
CDKN2A
, FGF19, FGF3 and FGF4. Aberrations included mutations (46%), amplifications (45%), deletions (5%), splices (2%), truncations (1%), fusions (0.5%) and rearrangements (0.5%), with multiple distinct variants within the same gene. Many of these aberrations represent druggable targets, either through direct pathway inhibition or through an associated pathway (via 'crosstalk'). The 'molecular individuality' of these tumors suggests that a customized strategy, using an "N-of-One" model of precision medicine, may represent an optimal approach for the treatment of patients with advanced tumors.
...
PMID:Unique molecular signatures as a hallmark of patients with metastatic breast cancer: implications for current treatment paradigms. 2481 90
DNA sequencing has identified a limited number of driver mutations in
metastatic breast cancer
beyond single base-pair mutations in the estrogen receptor (
ESR1
). However, our previous studies and others have observed that structural variants, such as ESR1 fusions, may also play a role. Therefore, we expanded upon these observations by performing a comprehensive and highly sensitive characterization of copy-number (CN) alterations in a large clinical cohort of metastatic specimens. NanoString DNA hybridization was utilized to measure CN gains, amplifications, and deletions of 67 genes in 108 breast cancer metastases, and in 26 cases, the patient-matched primary tumor. For ESR1, a copyshift algorithm was applied to identify CN imbalances at exon-specific resolution and queried large data sets (>15,000 tumors) that had previously undergone next-generation sequencing (NGS). Interestingly, a subset of ER
+
tumors showed increased ESR1 CN (11/82, 13%); three had CN amplifications (4%) and eight had gains (10%). Increased
ESR1
CN was enriched in metastatic specimens versus primary tumors, and this was orthogonally confirmed in a large NGS data set.
ESR1
-amplified tumors showed a site-specific enrichment for bone metastases and worse outcomes than nonamplified tumors. No
ESR1
CN amplifications and only one gain was identified in ER
-
tumors.
ESR1
copyshift was present in 5 of the 11 ESR1-amplified tumors. Other frequent amplifications included
ERBB2, GRB7
, and cell-cycle pathway members
CCND1
and
CDK4/6
, which showed mutually exclusivity with deletions of
CDKN2A
, CDKN2B
, and
CDKN1B
. IMPLICATIONS: Copy-number alterations of
ESR1
and key CDK pathway genes are frequent in metastatic breast cancers, and their clinical relevance should be tested further.
...
PMID:Frequent ESR1 and CDK Pathway Copy-Number Alterations in Metastatic Breast Cancer. 3035 75
Nearly all breast cancer deaths result from metastatic disease. Despite this, the genomic events that drive metastatic recurrence are poorly understood. We performed whole-exome and shallow whole-genome sequencing to identify genes and pathways preferentially mutated or copy-number altered in metastases compared with the paired primary tumors from which they arose. Seven genes were preferentially mutated in metastases - MYLK, PEAK1, SLC2A4RG, EVC2, XIRP2, PALB2, and ESR1 - 5 of which are not significantly mutated in any type of human primary cancer. Four regions were preferentially copy-number altered: loss of STK11 and
CDKN2A
/B, as well as gain of PTK6 and the membrane-bound progesterone receptor, PAQR8. PAQR8 gain was mutually exclusive with mutations in the nuclear estrogen and progesterone receptors, suggesting a role in treatment resistance. Several pathways were preferentially mutated or altered in metastases, including mTOR, CDK/RB, cAMP/PKA, WNT, HKMT, and focal adhesion. Immunohistochemical analyses revealed that metastases preferentially inactivate pRB, upregulate the mTORC1 and WNT signaling pathways, and exhibit nuclear localization of activated PKA. Our findings identify multiple therapeutic targets in metastatic recurrence that are not significantly mutated in primary cancers, implicate membrane progesterone signaling and nuclear PKA in metastatic recurrence, and provide genomic bases for the efficacy of mTORC1, CDK4/6, and PARP inhibitors in
metastatic breast cancer
.
...
PMID:Genomic landscape of metastatic breast cancer identifies preferentially dysregulated pathways and targets. 3265 79
