Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0376358 (
prostate cancer
)
59,338
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We examined 11
prostate cancer
xenografts and 4 cell lines for chromosome 10 alterations. Conventional comparative genomic hybridization (CGH) and array-based CGH revealed a pattern of loss of distal 10p, gain of proximal 10p and 10q, and loss of distal 10q. In addition, array CGH identified 2 high-level amplifications in the cell line PC3, homozygous deletions of
PTEN
in PC3 and in the xenografts PCEW, PC133, and PC324, and small single- or double-copy deletions around
PTEN
in PCEW, PC82, PC324, PC346, and LNCaP. Allelotype analysis confirmed all 10p losses, 5 of 6 large 10q losses, the homozygous deletions, and the small regions of one copy loss. MXI1, DMBT1, and KLF6 were excluded as important tumor-suppressor genes. The sizes of homozygous deletions around
PTEN
ranged from 1.2 Mbp (PC133) to <30 kbp (
PTEN
exon 5 in PC295). The regions of small single- or double-copy loss around
PTEN
were all less than 4.5 Mbp. The loss of 1 or 2 copies of
PTEN
was always accompanied by loss of the distal flanking gene FLJ11218 and, in most cases, by loss of the proximal flanking genes MINPP1, PAPSS2, and FLJ14600. Furthermore, differential expression was detected for FLJ11218 and PAPSS2. Complete deletion or inactivating mutation of PAPSS2 was found in at least 3 samples. In addition to 4 homozygous deletions, 1 missense mutation was detected in FLJ11218. In conclusion, our data provide evidence that loss of a small region around
PTEN
is the major chromosome 10 alteration in
prostate cancer
xenografts and cell lines. In some of the samples,
PTEN
inactivation was accompanied by loss of 1 MINPP1 allele, loss of 1 copy, mutation, or low expression of PAPSS2, and most frequently by loss of 1 or 2 copies or low expression of FLJ11218.
...
PMID:Loss of a small region around the PTEN locus is a major chromosome 10 alteration in prostate cancer xenografts and cell lines. 1473 19
PTEN
is a tumor suppressor gene that is frequently mutated in human tumors. It functions primarily as a lipid phosphatase and plays a key role in the regulation of phosphatidylinositol-3'-kinase.
PTEN
appears to play a crucial role in modulating apoptosis by reducing the levels of PtdIns(3,4,5)P3, a phospholipid that activates AKT, a central regulator of apoptosis. To understand the role of
PTEN
in regulating cell proliferation and apoptosis, we stably overexpressed
PTEN
in PC3 cells, which are
prostate cancer
cells that lack
PTEN
. Overexpression of
PTEN
in two different clones inhibited cell proliferation and increased serum starvation-induced apoptosis, as compared to control cells. Interestingly,
PTEN
overexpression resulted in a 44-60% reduction in total insulin-like growth factor-I receptor (IGF-IR) protein levels and a 49-64% reduction in cell surface IGF-IR expression. [35S]methionine pulse experiments in PC3 cells overexpressing
PTEN
demonstrated that these cells synthesize significantly lower levels of the IGF-IR precursor, whereas
PTEN
overexpression had no effect on IGF-IR degradation. Taken together, our results show that
PTEN
can regulate cell proliferation and apoptosis through inhibition of IGF-IR synthesis. These results have important implications for understanding the roles of
PTEN
and the IGF-IR in
prostate cancer
cell tumorigenesis.
...
PMID:PTEN inhibits cell proliferation and induces apoptosis by downregulating cell surface IGF-IR expression in prostate cancer cells. 1473 13
PTEN
is a tumor suppressor gene mutated in various advanced human neoplasias, including glioblastomas and prostate, breast, endometrial, and kidney cancers. This tumor suppressor is a lipid phosphatase that negatively regulates cell survival and proliferation mediated by phosphatidylinositol 3-kinase/protein kinase B signaling. Using the Cre-loxP system, we selectively inactivated Pten in murine tissues in which the MMTV-LTR promoter is active, resulting in hyperproliferation and neoplastic changes in Pten-null skin and prostate. These phenotypes had early onset and were completely penetrant. Abnormalities in Pten mutant skin consisted of mild epidermal hyperplasia, whereas prostates from these mice exhibited high-grade prostatic intraepithelial neoplasia (HGPIN) that frequently progressed to focally invasive cancer. These data demonstrate that Pten is an important physiological regulator of growth in the skin and prostate. Further, the early onset of HGPIN in Pten mutant males is unique to this animal model and implicates
PTEN
mutations in the initiation of
prostate cancer
. Consistent with high
PTEN
mutation rates in human prostate tumors, these data indicate that
PTEN
is a critical tumor suppressor in this organ.
...
PMID:Early onset of neoplasia in the prostate and skin of mice with tissue-specific deletion of Pten. 1474 59
Bcl-2 is associated with resistance to radiotherapy in
prostate cancer
. It was recently demonstrated that transduction of LNCaP prostate cells with the
PTEN
gene resulted in Bcl-2 downregulation. We hypothesized that forced expression of
PTEN
in
prostate cancer
cells would sensitize cells to radiation, downregulate Bcl-2 expression, and potentiate the G2M block induced by radiation. Four cell lines - PC-3-Bcl-2 (Bcl-2 overexpression, deleted
PTEN
), PC-3-Neo (wild-type Bcl-2, deleted
PTEN
), LNCaP (Bcl-2 overexpression, deleted
PTEN
), and DU-145 (wild-type Bcl-2 and
PTEN
) - were transduced with a recombinant adenovirus-5 vector expressing the human wild-type
PTEN
cDNA under the control of a human cytomegalovirus promoter (Ad-MMAC). After correction for the effect of Ad-MMAC on plating efficiency, Ad-MMAC treatment reduced the surviving fractions after 2 Gy as follows: PC-3-Bcl-2, from 60.5 to 3.6%; PC-3-Neo, no reduction; LNCaP, from 29.6 to 16.3%; and DU-145, from 32.7 to 25.7%.
PTEN
expression was associated with the downregulation of Bcl-2 expression in PC-3-Bcl-2 and LNCaP cell lines. Ad-MMAC plus radiotherapy potentiated the G2M block seen with radiotherapy alone only in PC-3-Bcl-2 cells. These findings suggest that overexpression of Bcl-2 result in radioresistance and inability of radiation to cause its typical G2M cell-cycle arrest.
...
PMID:Adenoviral-mediated PTEN transgene expression sensitizes Bcl-2-expressing prostate cancer cells to radiation. 1476 30
Prostate cancer
is the most frequently diagnosed disease in American men today and the second leading cause of death among them. Transformation and progression towards malignancy in
prostate cancer
is dependant on the inability of the prostatic epithelial cells to undergo apoptosis rather than on the regulation of proliferation. Molecular targeting of inadequacies in this process of suppression of apoptosis could prove to be of great therapeutic importance for
prostate cancer
patients. Existence of tissue specific promoters to aid in the delivery of genes with therapeutic potential makes molecular therapy an attractive option. This review discusses salient features of molecules such as, Bcl-2, Bcl-(XL), NF-kappaB, Akt,
PTEN
and Par-4 that play a significant role in the regulation of
prostate cancer
and focuses on the prospects of effectively utilizing their potential for the therapy of hormone-sensitive and hormone-resistant
prostate cancer
.
...
PMID:Molecular therapy intervention prospects in prostate cancer. 1496 37
MDM2 is an oncoprotein that controls tumorigenesis through both p53-dependent and -independent mechanisms. Mdm2 mRNA level is transcriptionally regulated by p53 in response to stress such as DNA damage, and its protein level and subcellular localization are post-translationally modulated by the AKT serine/threonine kinase. Previous studies showed that
PTEN
, a dual specificity phosphatase that antagonizes phosphatidylinositol 3-kinase/AKT signaling, is capable of blocking MDM2 nuclear translocation and destabilizing the MDM2 protein. Results from our current study demonstrate an additional role for
PTEN
in regulating MDM2 functions;
PTEN
modulates Mdm2 transcription and isoform selection by negatively regulating its P1 promoter. In Pten-null cell lines and
prostate cancer
tissues, Mdm2 P1 promoter activity is up-regulated, resulting in increased L-Mdm2 expression and enhanced p90(MDM2) isoform production. Furthermore,
PTEN
controls Mdm2 P1 promoter activity through its lipid phosphatase activity, independent of p53. Thus, our results provide a novel mechanism for
PTEN
in controlling MDM2 oncoprotein functions.
...
PMID:PTEN regulates Mdm2 expression through the P1 promoter. 1509 May 41
The extreme variability of
prostate cancer
implies latent disease with missing clinical symptoms in some cases. Tumor suppressors
PTEN
(phosphatase and tensin homolog deleted on chromosome ten) and p27kip1 are frequently mutated in various human cancers.
PTEN
negatively influences cell growth and induces apoptosis, while p27kip1 binds to cyclin-E-Cdk2 and counteracts mitosis. This study investigated the expression of
PTEN
and p27kip1 in prostatectomies and needle biopsies in order to determine whether protein localization or expression levels are correlated with tumor grade and whether
PTEN
and p27kip1 expression in biopsies are valuable predictive tumor markers. Analysis of
PTEN
demonstrated that weak expression levels were significantly more prevalent in high-grade tumors. Analysis of p27kip1 revealed that high-grade tumors had a higher percentage of cytoplasmic localization of the protein than low-grade tumors, where nuclear localization was more frequent. Furthermore, this study indicated a positive association between
PTEN
and p27kip1 levels. An increase of high-grade tumors corresponded to a progressive loss of both tumor suppressors in needle biopsies and prostatectomies. p27kip1 and
PTEN
did not show a higher predictive accuracy of the tumor grade in the surgical specimen than the Gleason score. However, p27kip1 had the same predictive value as the Gleason score in needle biopsies.
...
PMID:Reduction of PTEN and p27kip1 expression correlates with tumor grade in prostate cancer. Analysis in radical prostatectomy specimens and needle biopsies. 1511 54
During the last ten years our knowledge of genetic alterations in
prostate cancer
has significantly increased. For example, several chromosomal loci possibly harboring predisposing or somatically mutated genes have been suggested. Still, we lack the comprehensive molecular model for the development and progression of
prostate cancer
. Only a few genes have been found to be aberrant in a significant proportion of
prostate cancer
. These include GSTP1,
PTEN
, TP53, and AR. Thus, they are natural targets for new treatment strategies.
...
PMID:Molecular mechanisms of prostate cancer. 1514 39
The tumor suppressor functions of
PTEN
and CDKN1B have been extensively characterized. Recent data from mouse models suggest that, for some organs, the combined action of both
PTEN
and CDKN1B has a stronger tumor suppressor function than each alone; for the prostate, heterozygous knockout of both genes leads to 100% penetrance for
prostate cancer
. To assess whether such an interaction contributes to an increased risk of
prostate cancer
in humans, we performed a series of epistatic
PTEN
and CDKN1B interaction analyses in a collection of 188 high-risk hereditary prostate cancer families. Two different analytical approaches were performed; a nonparametric linkage (NPL) regression analysis that simultaneously models allele sharing at these two regions in all families, and an ordered subset analysis (OSA) that assesses linkage evidence at a target region in a subset of families based on the magnitude of allele sharing at the reference region. The strongest evidence of interaction effect was observed at 10q23-24 and 12p11-13 from both the NPL regression analysis (P = 0.0002) in all families and the OSA analyses in subsets of families. A LOD-delta of 3.15 (P = 0.01) was observed at 10q23-24 among 54 families with the highest NPL scores at 12p11-13, and a LOD-delta of 2.63 (P = 0.02) was observed at 12p11-13 among 34 families with the highest NPL scores at 10q23-24. The evidence for the interaction was stronger when using additional fine-mapping markers in the
PTEN
(10q23) and CDKN1B (12p13) regions. Our data are consistent with epistatic interactions between the
PTEN
and CDKN1B genes affecting risk for
prostate cancer
and demonstrate the utility of modeling epistatic effects in linkage analysis to detect susceptibility genes of complex diseases.
...
PMID:Interaction effect of PTEN and CDKN1B chromosomal regions on prostate cancer linkage. 1518 41
Prostate cancer
is the most common non-cutaneous malignancy in American men and the second greatest cause of cancer-related death. Development of effective therapeutic modalities for the treatment of this cancer relies heavily on understanding the molecular alterations that result in the initiation and progression of the tumorigenic process. Increasing evidence indicates that impaired ability to undergo apoptosis plays an important role in the evolution from androgen-dependent to androgen-independent
prostate cancer
. In this review, we address recent progress toward the central objectives of understanding the molecular events that contribute to
prostate cancer
progression. We focus on some key regulatory molecules, including the pro-apoptotic regulators p53,
PTEN
, caspases and Par-4, and the anti-apoptotic molecules Bcl-2, NF-kappaB and Akt, to discuss their roles in
prostate cancer
progression and their therapeutic implications in human prostate carcinoma.
...
PMID:Apoptosis in prostate cancer: progressive and therapeutic implications (Review). 1520 13
<< Previous
1
2
3
4
5
6
7
8
9
10
Next >>
