UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Glioblastoma multiforme WHO grade IV is the most common and malignant variant of astrocytic tumors. Loss of heterozygosity of chromosome 10 and mutations in the tumor suppressor gene PTEN on 10q are molecular hallmarks of glioblastomas. Recently, mutations were identified in PIK3CA, encoding a protein that antagonizes the function of PTEN protein in the PI3K/Akt pathway. To address the question whether an exclusive mutation pattern can be observed in PIK3CA and PTEN, we determined the frequency of mutations in both genes. All coding exons were examined by single strand confirmation polymorphism and direct sequencing. Additionally, we analyzed chromosome 10 for loss of heterozygosity and evaluated the mutational status of TP53. In 70 glioblastomas, 5 (7%) PIK3CA mutations and 10 (14%) PTEN mutations were found. All mutations in PIK3CA located to exons 1, 9 and 20, thereby supporting the concept of mutational hot spot regions. In all but one glioblastoma, mutations were seen either in PIK3CA or in PTEN. In conclusion, the frequency of PIK3CA mutations in glioblastomas appears to be much lower than initially reported.
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PMID:PIK3CA mutations in glioblastoma multiforme. 1592 53

PIK3CA is mutated in diverse human cancers, but the functional effects of these mutations have not been defined. To evaluate the consequences of PIK3CA alterations, the two most common mutations were inactivated by gene targeting in colorectal cancer (CRC) cells. Biochemical analyses of these cells showed that mutant PIK3CA selectively regulated the phosphorylation of AKT and the forkhead transcription factors FKHR and FKHRL1. PIK3CA mutations had little effect on growth under standard conditions, but reduced cellular dependence on growth factors. PIK3CA mutations resulted in attenuation of apoptosis and facilitated tumor invasion. Treatment with the PI3K inhibitor LY294002 abrogated PIK3CA signaling and preferentially inhibited growth of PIK3CA mutant cells. These data have important implications for therapy of cancers harboring PIK3CA alterations.
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PMID:Mutant PIK3CA promotes cell growth and invasion of human cancer cells. 1595 Sep 5

Mounting evidence exists that the activation of proto-oncogene by somatic mutation plays an important roles in the development of human cancers. Recent reports revealed that the kinase domain of ERBB2 gene, a proto-oncogene, is somatically mutated in the lung adenocarcinomas, suggesting the mutated ERBB2 gene may act as an oncogene in human cancers. The purpose of this was to see whether the ERBB2 kinase domain is mutated in other lung cancer types besides the adenocarcinoma. Here, we performed mutational analysis of the ERBB2 kinase domain by polymerase chain reaction-single strand conformation polymorphism assay in 114 non-adenocarcinoma type non-small cell lung cancers (NSCLCs) tissue samples, including 100 squamous cell carcinomas, three adenosquamous carcinomas and 11 large cell carcinomas. We detected the ERBB2 kinase domain mutation in one squamous cell carcinoma (1.0%). The detected ERBB2 mutation showed G to C transversion at bp 2305 (2305G>C), which would result in the substitution of Asp to His at codon 769 (D769H). The amino acid D769 is located in the alpha-helix within the kinase domain, which is important in the binding of ATP with ERBB2. We simultaneously analyzed the somatic mutations of EGFR, K-RAS, PIK3CA and BRAF genes in the squamous cell carcinoma with the ERBB2 mutation, and found that the tumor did not harbor any EGFR or ERBB2 or K-RAS or PIK3CA or BRAF gene mutation, either. This study demonstrated that in addition to lung adenocarcinoma ERBB2 kinase domain mutation could occur in lung squamous cell carcinomas, and suggested that alterations of ERBB2-mediated signaling pathway by ERBB2 mutations may occasionally contribute to the development of lung squamous cell carcinomas.
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PMID:ERBB2 kinase domain mutation in the lung squamous cell carcinoma. 1602 27

Silencing of gene expression by small interfering RNAs (siRNAs) is rapidly becoming a powerful tool for genetic analysis and represents a potential strategy for therapeutic product development. However, there are no reports of systemic delivery for siRNAs toward treatment of bone-metastatic cancer. Accordingly, we report here that i.v. injection of GL3 luciferase siRNA complexed with atelocollagen showed effective reduction of luciferase expression from bone-metastatic prostate tumor cells developed in mouse thorax, jaws, and/or legs. We also show that the siRNA/atelocollagen complex can be efficiently delivered to tumors 24 h after injection and can exist intact at least for 3 days. Furthermore, atelocollagen-mediated systemic administration of siRNAs such as enhancer of zeste homolog 2 and phosphoinositide 3'-hydroxykinase p110-alpha-subunit, which were selected as candidate targets for inhibition of bone metastasis, resulted in an efficient inhibition of metastatic tumor growth in bone tissues. In addition, upregulation of serum IL-12 and IFN-alpha levels was not associated with the in vivo administration of the siRNA/atelocollagen complex. Thus, for treatment of bone metastasis of prostate cancer, an atelocollagen-mediated systemic delivery method could be a reliable and safe approach to the achievement of maximal function of siRNA.
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PMID:Efficient delivery of small interfering RNA to bone-metastatic tumors by using atelocollagen in vivo. 1609 73

Uterine cervical carcinogenesis is probably dependent on cellular genetic damage in addition to the integration of high-risk HPV DNA in the epithelial cell genome. Gain of chromosome 3q24-29 is commonly observed in cervical neoplasia. The putative oncogene PIK3CA located in this region encodes a phosphatidylinositol 3-kinase (PI3K). In a process reversed by PTEN, PI3K generates inositol phospholipids that trigger AKT phosphorylation, which in turn effects tumor driving signals. We studied 46 specimens of formalin-fixed, paraffin-embedded cervical neoplastic tissue. The activation state of the PI3K-AKT pathway was assessed immunohistochemically using an antibody with specificity towards serine 473-phosphorylated AKT. AKT phosphorylation was found in 39 out of 46 examined specimens. To examine the possible molecular basis for this activation, we searched for PIK3CA amplification using quantitative real-time polymerase chain reaction. PIK3CA gene copy number was estimated to be 3 or more in 28 out of 40 successfully examined cases. Further, a PTEN mutation analysis of all 9 PTEN exons was carried out, but except for 1 metastasis with an exon 9 V369I heterozygosity, all cases showed normal PTEN sequence. Immunohistochemical staining for PTEN was strong in all lesions. In conclusion, an increased activation state of AKT kinase appears to be present in cervical carcinogenesis, and may be accounted for by PIK3CA amplification, whereas PTEN mutation seems to be of little importance.
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PMID:Molecular analysis of the PI3K-AKT pathway in uterine cervical neoplasia: frequent PIK3CA amplification and AKT phosphorylation. 1628 65

The phosphatidylinositol-3-kinase (PI3K)-AKT signaling pathway is considered to play an important role in tumorigenesis. Frequent somatic mutations in the PI3K subunit p110alpha (PIK3CA) occur in a variety of cancer types. We screened 250 primary human breast tumors for mutations in PIK3CA in order to determine associations with pathological features and with patient outcome. The frequency of PIK3CA mutations in the C2, helical and kinase domains was 35% (88/250). Mutations were associated with larger tumor size (p = 0.004) and positive estrogen receptor status (p = 0.008). Patients with PIK3CA mutations showed significantly worse survival (p = 0.004), particularly those with positive estrogen receptor expression or non-amplified erbB2 (both p = 0.002). PIK3CA mutation was an independent factor for worse survival in breast cancer patients with non-amplified erbB2 (RR = 2.6, 95%CI [1.2-5.5], p = 0.016).
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PMID:PIK3CA mutations in breast cancer are associated with poor outcome. 1631 85

The phosphatidylinositol 3'-kinase (PI3K) pathway is activated in many human cancers. In addition to inactivation of the PTEN tumor suppressor gene, mutations or amplifications of the catalytic subunit alpha of PI3K (PIK3CA) have been reported. However, the coexistence of mutations in these two genes seems exceedingly rare. As PTEN mutations occur at high frequency in endometrial carcinoma, we screened 66 primary endometrial carcinomas for mutations in the helical and catalytic domains of PIK3CA. We identified a total of 24 (36%) mutations in this gene and coexistence of PIK3CA/PTEN mutations at high frequency (26%). PIK3CA mutations were more common in tumors with PTEN mutations (17 of 37, 46%) compared with those without PTEN mutations (7 of 29, 24%). Array comparative genomic hybridization detected 3q24-qter amplification, which covers the PIK3CA gene (3q26.3), in one of nine tumors. Knocking down PTEN expression in the HEC-1B cell line, which possesses both K-Ras and PIK3CA mutations, further enhances phosphorylation of Akt (Ser473), indicating that double mutation of PIK3CA and PTEN has an additive effect on PI3K activation. Our data suggest that the PI3K pathway is extensively activated in endometrial carcinomas, and that combination of PIK3CA/PTEN alterations might play an important role in development of these tumors.
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PMID:High frequency of coexistent mutations of PIK3CA and PTEN genes in endometrial carcinoma. 1632 9

Activation of the phosphoinositide 3-kinase (PI3K) pathway has been implicated in the pathogenesis of a variety of cancers. Recently, mutations in the gene encoding the p110alpha catalytic subunit of PI3K (PIK3CA) have been identified in several human cancers. The mutations primarily result in single amino acid substitutions, with >85% of the mutations in either exon 9 or 20. Multiple studies have shown that these mutations are observed in 18% to 40% of breast cancers. However, the phenotypic effects of these PIK3CA mutations have not been examined in breast epithelial cells. Herein, we examine the activity of the two most common variants, E545K and H1047R, in the MCF-10A immortalized breast epithelial cell line. Both variants display higher PI3K activity than wild-type p110alpha yet remain sensitive to pharmacologic PI3K inhibition. In addition, expression of p110alpha mutants in mammary epithelial cells induces multiple phenotypic alterations characteristic of breast tumor cells, including anchorage-independent proliferation in soft agar, growth factor-independent proliferation, and protection from anoikis. Expression of these mutant p110alpha isoforms also confers increased resistance to paclitaxel and induces abnormal mammary acinar morphogenesis in three-dimensional basement membrane cultures. Together, these data support the notion that the cancer-associated mutations in PIK3CA may significantly contribute to breast cancer pathogenesis and represent attractive targets for therapeutic inhibition.
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PMID:Breast cancer-associated PIK3CA mutations are oncogenic in mammary epithelial cells. 1632 48

The PIK3CA gene encoding the p110alpha subunit of Class IA phosphatidylinositol 3-kinases (PI3Ks) is frequently mutated in human tumors. Mutations in the PIK3CB gene encoding p110beta, the only other widely expressed Class IA PI3K, have not been reported. We compared the biochemical activity and transforming potential of mutant forms of p110alpha and p110beta in a human mammary epithelial cell system. The two most common tumor-derived alleles of p110alpha, H1047R and E545K, potently activated PI3K signaling. Human mammary epithelial cells expressing these alleles grew efficiently in soft agar and as orthotopic tumors in nude mice. We also examined a third class of mutations in p110alpha, those in the p85-binding domain. A representative tumor-derived p85-binding-domain mutant R38H showed modestly reduced p85 binding and weakly activated PI3K/Akt signaling. In contrast, a deletion mutant lacking the entire p85-binding domain efficiently activated PI3K signaling. When we constructed in p110beta a mutation homologous to the E545K allele of p110alpha, the resulting p110beta mutant was only weakly activated and allowed minimal soft-agar growth. However, a gene fusion of p110beta with the membrane anchor from c-Src was highly active and transforming in both soft-agar and orthotopic nude mouse assays. Thus, although introduction of activating mutations from p110alpha at the corresponding sites in p110beta failed to render the enzyme oncogenic in human cells, the possibility remains that other mutations might activate the beta isoform.
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PMID:The oncogenic properties of mutant p110alpha and p110beta phosphatidylinositol 3-kinases in human mammary epithelial cells. 1633 15

Mutation of PIK3CA, the gene coding for the p110alpha catalytic subunit of phosphoinositide 3-kinase (PI3K), has been reported in a limited range of human tumors. We now report that PIK3CA is also mutated in esophageal tumors. Single-strand conformational polymorphism (SSCP) and denaturing high-performance liquid chromatography (DHPLC) were used to screen all 20 exons of PIK3CA in 101 samples from 95 individuals with esophageal cancer and/or Barrett's esophagus. Somatic mutation of PIK3CA was detected in 4 of 35 (11.8%) of esophageal squamous cell carcinomas (SCC) and 3 of 50 (6%) adenocarcinomas. No mutations were detected in any of 17 samples of Barrett's esophagus. For PIK3CB, we screened exons 11 and 22, which code for the regions corresponding to the exon 9 and 20 mutational 'hotspots' of PIK3CA. No somatic changes were detected in PIK3CB This study extends previous observations in other tumor types by demonstrating the presence of somatic PIK3CA mutations in both SCC and adenocarcinoma of the esophagus, thus implicating the PI3K pathway in the initiation and/or progression of esophageal cancers.
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PMID:Mutation analysis of PIK3CA and PIK3CB in esophageal cancer and Barrett's esophagus. 1638 Sep 97

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