UMLS:C0017636 - FACTA Search

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Query: UMLS:C0017636 (glioblastoma)
18,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cowden disease, a dominantly inherited syndrome characterized by a variety of proliferative lesions and predisposition to breast and thyroid cancer, has recently been linked to the polymorphic marker D10S215 on chromosome segment 10q23. Loss of heterozygosity in prostate cancer is linked to the same marker, whereas loss of heterozygosity in glioblastoma, endometrial cancer, and other malignancies also localizes to this region. Most recently, a putative tumor suppressor gene (PTEN/MMAC1) has been identified in the region between D10S215 and an adjacent, more telomeric marker (D10S541) and was found to be altered in breast cancers, prostate cancers, and glioblastomas. We examined 22 invasive breast cancers for loss of heterozygosity in the 10q23 region and found loss in 41% (9/22). There were two distinct regions of loss, including one near the D10S541 marker, with an approximately equal frequency of deletion in each. The observed pattern of deletion is consistent with the presence of a tumor suppressor gene between D10S215 and D10S541. Most of the poorly differentiated carcinomas in the case collection showed loss of heterozygosity in the region near D10S215, suggesting that this loss correlates with a poor prognosis.
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PMID:Sporadic breast cancers exhibit loss of heterozygosity on chromosome segment 10q23 close to the Cowden disease locus. 949 29

The PTEN/MMAC1 gene at 10q23.3, which has dual specific phosphatase activity, is a novel tumor suppressor gene candidate. Various kinds of tumors have mutations in this gene, including glioblastoma, endometrial carcinoma and prostate cancer. We examined 29 cases of primary non-Hodgkin's lymphoma (NHL) for mutations in the PTEN/MMAC1 gene. One case of diffuse large B cell lymphoma had an 11 bp deletion, but the remaining 28 cases showed no mutations in the genome. Two of these 28 cases showed missense mutations in the PTEN/MMAC1 transcripts, but no alterations in the genomic DNA. These mRNA missense variants are similar to PTEN/MMAC1 transcript aberrations which have been reported in patients with breast cancer. These findings suggest that alterations in the PTEN/MMAC1 gene play a role in the pathogenesis of NHL.
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PMID:Mutational analysis of the PTEN/MMAC1 gene in non-Hodgkin's lymphoma. 969 84

PTEN is one of the most commonly mutated tumor suppressor genes in human cancer. PTEN mutations have been implicated in the development of a variety of human neoplasia, including high-grade glioblastoma, prostate, breast, endometrial, and thyroid carcinoma. Germ-line mutations of PTEN cause Cowden's syndrome (CS), a multiple hamartoma condition resulting in increased susceptibility for the development of cancer. When more than 6 months old, pten+/- mice develop a range of tumors, partially resembling the spectrum of neoplasia observed in CS patients. One-half (32 of 65) of pten+/- females developed breast tumors, whereas all (65 of 65) of the females had endometrial hyperplasia, and there was a high incidence (14 of 65) of endometrial cancer. Hamartoamous tumors of the gastrointestinal tract, as well as prostate and adrenal neoplasia, were also frequently observed. Significantly, the spectrum of neoplasia observed in pten+/- mice partially overlaps with the types of tumors frequently detected in CS patients. The majority of tumors in pten+/- mice exhibit loss of heterozygosity at the pten locus, which indicates the importance for loss of PTEN function in tumor formation. Consistent with the role of PTEN in negative regulation of PKB/Akt phosphorylation and activity, pten loss of heterozygosity is accompanied by hyperphosphorylation of PKB/Akt in tumors. Taken together, our results establish pten+/- mice as an excellent animal model system for the investigation of PTEN-related hamartoma syndromes, as well as the role of PTEN in breast and endometrial carcinogenesis.
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PMID:High incidence of breast and endometrial neoplasia resembling human Cowden syndrome in pten+/- mice. 1091 75

Somatic inactivation of PTEN occurs in different human tumors including glioblastoma, endometrial carcinoma and prostate carcinoma. Germline mutations in PTEN result in a range of phenotypic abnormalities that occur with variable penetrance, including neurological features such as macrocephaly, seizures, ataxia and Lhermitte-Duclos disease (also described as dysplastic gangliocytoma of the cerebellum). Homozygous deletion of Pten causes embryonic lethality in mice. To investigate function in the brain, we used Cre-loxP technology to selectively inactivate Pten in specific mouse neuronal populations. Loss of Pten resulted in progressive macrocephaly and seizures. Neurons lacking Pten expressed high levels of phosphorylated Akt and showed a progressive increase in soma size without evidence of abnormal proliferation. Cerebellar abnormalities closely resembled the histopathology of human Lhermitte-Duclos disease. These results indicate that Pten regulates neuronal size in vivo in a cell-autonomous manner and provide new insights into the etiology of Lhermitte-Duclos disease.
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PMID:Pten regulates neuronal soma size: a mouse model of Lhermitte-Duclos disease. 1172 27

Cowden disease is an autosomal dominant inherited cancer syndrome characterized by the occurrence of multiple hamartomas, tumors or hyperplastic lesions that may develop in any organ. The disease is related to germline mutation of the PTEN gene, a recently cloned tumor suppressor gene involved in the pathogenesis of sporadic glioblastoma and endometrial carcinoma. It has been shown that the PTEN gene product was a phosphatase able for dephosphorylating a lipid substrate: the phosphatidylinositol (3,4,5)-triphosphate (PIP3). So PTEN appears to negatively control the PI3K-AKT signaling pathway implicated in regulation of cell growth and survival.
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PMID:[Cowden disease and the PTEN gene: a successfully clinical and biological combined approach]. 1179 8

Germline mutations in the tumor-suppressor gene PTEN (MMAC1, TEP1) are found in Cowden syndrome, which predisposes to hamartomas, breast cancer, trichilemmomas, and thyroid tumors of follicular epithelium. PTEN has also been found to be somatically deleted, mutated, and/or silenced in various sporadically occurring cancers such as glioblastoma, breast cancer, kidney cancer, malignant melanoma, and endometrial cancer. Loss or reduction of PTEN protein expression as well as inappropriate subcellular compartmentalization is seen in non-medullary thyroid cancers. However, although allelic loss of the PTEN locus in 10q23.3 is frequently seen, this is not coupled with mutations in the PTEN gene. To approach further the frequency and mechanism behind PTEN silencing, we screened a panel of 87 sporadic thyroid tumors for PTEN mRNA expression, including 14 anaplastic carcinomas, 37 follicular carcinomas, 21 atypical adenomas, and 15 ordinary adenomas. Complete loss of PTEN mRNA expression was evident in six of the tumors, including four anaplastic carcinomas, one widely invasive carcinoma, and one ordinary adenoma. The transcriptional silencing of PTEN was significantly associated with the anaplastic subtype, suggesting that PTEN is involved in the carcinogenesis of highly malignant or late-stage thyroid cancers, whereas this particular mechanism appears to be of minor importance in differentiated follicular thyroid tumors. No association was observed between the expression, loss of heterozygosity, and mutation status in the 33 cases in which these parameters were compared. This indicates that PTEN silencing is a result of a wide variety of epigenetic and/or structural silencing mechanisms rather than a consequence of structural biallelic inactivation of the classical type. Furthermore, the high rate of alterations in the 10q23 region might indicate the presence of an as-yet unknown tumor-suppressor gene with an important role in the development of thyroid tumors.
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PMID:Silencing of the PTEN tumor-suppressor gene in anaplastic thyroid cancer. 1220 92

The PTEN tumor suppressor gene encodes a phosphatidylinositol 3'-phosphatase that is inactivated in a high percentage of human tumors, particularly glioblastoma, melanoma, and prostate and endometrial carcinoma. Previous studies showed that PTEN is a seryl phosphoprotein and a substrate of protein kinase CK2 (CK2). However, the sites in PTEN that are phosphorylated in vivo have not been identified directly, nor has the effect of phosphorylation on PTEN catalytic activity been reported. We used mass spectrometric methods to identify Ser(370) and Ser(385) as in vivo phosphorylation sites of PTEN. These sites also are phosphorylated by CK2 in vitro, and phosphorylation inhibits PTEN activity towards its substrate, PIP3. We also identify a novel in vivo phosphorylation site, Thr(366). Following transient over-expression, a fraction of CK2 and PTEN co-immunoprecipitate. Moreover, pharmacological inhibition of CK2 activity leads to decreased Akt activation in PTEN+/+ but not PTEN-/- fibroblasts. Our results contrast with previous assignments of PTEN phosphorylation sites based solely on mutagenesis approaches, suggest that CK2 is a physiologically relevant PTEN kinase, and raise the possibility that CK2-mediated inhibition of PTEN plays a role in oncogenesis.
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PMID:Direct identification of PTEN phosphorylation sites. 1229 95

The PTEN tumor suppressor is a central negative regulator of the PI3K/AKT signaling cascade that influences multiple cellular functions including cell growth, survival, proliferation and migration in a context-dependent manner. Dysregulation of this signaling pathway contributes to many cancers in man. PTEN is the most commonly altered component of the PI3K pathway in human malignancies. Mutations occur in both heritable and sporadic settings, with high frequency in sporadic glioblastoma, prostate and endometrial cancer. Data from human tumors and animal models support the concept that the effects of PTEN inactivation are tissue-specific. Elucidation of the mechanisms regulating activation of unique downstream effectors that mediate distinct outcomes of PTEN loss will augment our understanding of tumorigenesis and ultimately lead to novel therapeutic options.
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PMID:PTEN function in normal and neoplastic growth. 1641 71

Mutations in the MMAC/PTEN (phosphatase and tensin homologue deleted on chromosome 10) gene are documented in cancers of the breast, prostate, ovary, colon, melanoma, glioblastoma, lymphoma and endometrium. In the present work MMAC/PTEN gene expression in women with endometrial adenocarcinoma (n=70) in RNA samples obtained from cancer tissue were investigated. Control DNA was obtained from 68 normal endometrial tissue. The MMAC/PTEN expression was determined by RT-PCR analysis. The expression of MMAC/PTEN gene in endometrial adenocarcinoma cases was significantly reduced compared to the expression in the normal samples (P < 0.05). Furthermore the significant difference (P < 0.05) was observed between the expression of MMAC/PTEN in stage III versus lower stages of endometrial cancer. The results support the hypothesis that the MMAC/PTEN gene expression may be associated with the incidence of endometrial cancer.
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PMID:MMAC/PTEN gene expression in endometrial cancer: RT-PCR studies. 1721 40

Activation of mammalian target of rapamycin (mTOR) signaling occurs in a wide variety of human tumors and can lead to increased susceptibility to mTOR inhibitors. Temsirolimus, a novel analog of rapamycin, has shown promising preclinical and early clinical anti-tumor activity in various solid and hematologic tumor types, either alone or in combination with chemotherapy or other targeted agents. Randomized phase III trials have already demonstrated significant clinical benefits of treatment with single-agent temsirolimus in advanced renal cell carcinoma and relapsed and/or refractory mantle cell lymphoma. Other malignancies studied in the phase I and II trial settings include glioblastoma, breast cancer, endometrial cancer, non-Hodgkin lymphomas, and multiple myeloma. This article reviews a comprehensive collection of the clinical trial results reported to date for temsirolimus in various solid and hematologic malignancies, as well as current strategies being tested in ongoing trials. The findings with temsirolimus in multiple tumors provide a valuable framework for future development of temsirolimus and other mTOR inhibitors.
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PMID:Evaluating temsirolimus activity in multiple tumors: a review of clinical trials. 1996

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