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Target Concepts:
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Query: UMLS:C0033036 (
APC
)
10,214
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The failure to treat and control the growth of metastases is the main cause of death in breast cancer (BC) patients. Compared to the traditional method of analyzing circulating tumor DNA (ctDNA), capturing intact circulating tumor cells (CTCs) allows us to more accurately characterize mutations and identify suitable targeted therapies. We used CellCollector to collect peripheral CTCs. Thirty metastatic breast cancer (MBC) patients were enrolled, and 17 were analyzed with next-generation sequencing (NGS) methods. Clinical characteristics were analyzed along with the CTCs enumeration and detection rates. Whole-genome amplification (WGA) was used to amplify the CTC genomic DNA of 127 genes. Patients younger than 45 years old, with brain metastasis, with three or more metastatic sites, or with HER2-positive had the highest number of CTCs collected. The CTCs detection rate was also correlated to the number of metastasis sites. Different metastasis sites such as the brain, viscus, bone, and soft tissue contained specific high-frequency gene mutations. AKT3, MYC, and NT5C2 mutations were only found in brain metastases.
APC
, BCL2L11,
ESRP1
, FLT3 mutations were only in the visceral metastases. KEAP1, KIT, MET were the specific mutation genes in patients with bone and soft tissue metastases. These findings provide evidence that we can detect gene mutation information for obtaining the biological characteristics by CTCs using CellCollector. Different metastasis sites contain specific high-frequency mutation genes, which provide guidance to the accurate gene therapy.
...
PMID:Recognition of the organ-specific mutations in metastatic breast cancer by circulating tumor cells isolated in vivo. 3294 42
The
APC
tumor suppressor protein is associated with the regulation of Wnt signaling, however
APC
also controls other cellular processes including the regulation of cell adhesion and migration. The expression of full-length
APC
in SW480 colorectal cancer cells (SW480+APC) not only reduces Wnt signaling, but increases membrane E-cadherin and restores cell-cell adhesion. This report describes the effects of full-length, wild-type
APC
(fl-APC) on cell-cell adhesion genes and p120-catenin isoform switching in SW480 colon cancer cells: fl-
APC
increased the expression of genes implicated in cell-cell adhesion, whereas the expression of negative regulators of E-cadherin were decreased. Analysis of cell-cell adhesion-related proteins in SW480+APC cells revealed an increase in p120-catenin isoform 3A; similarly, depletion of
APC
altered the p120-catenin protein isoform profile. Expression of
ESRP1
(epithelial splice regulatory protein 1) is increased in SW480+APC cells and its depletion results in reversion to the p120-catenin isoform 1A phenotype and reduced cell-cell adhesion.
ESRP1
transcript is reduced in primary CRC and its expression correlates with the level of
APC
. Pyrvinium pamoate, which inhibits Wnt signaling, promotes
ESRP1
expression. We conclude that re-expression of
APC
restores cell-cell adhesion gene and post-transcriptional regulatory programs leading to p120-catenin isoform switching and associated changes in cell-cell adhesion.
...
PMID:APC regulation of ESRP1 and p120-catenin isoforms in colorectal cancer cells. 3323 36
