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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The signal transduction pathway regulated by the retinoblastoma tumor suppressor protein, pRB, is abrogated in the majority of human cancers. Using a series of cell lines derived from oral squamous cell carcinomas (SCCs) that were not subjected to radiation or chemotherapy treatment, we detected specific hyperactivity of cyclin dependent kinase (cdk) 6 but not cdk4. Subcellular localization studies showed a predominant nuclear localization of cdk6, demonstrating that this kinase was biologically active. The molecular basis for this aberration are mutations in the
MTS1
locus of chromosome 9p21. This locus encodes two partially overlapping genes, the cdk inhibitor p16(ink4a), and p14(ARF), an inhibitor of mdm2-mediated degradation of
p53
. Our analysis demonstrates that the mutations of the
MTS1
locus in oral SCC specifically target expression of the p16(ink4a) gene but less frequently affect p14(ARF). These results suggest that hyperactivity of cdk6 represents a distinct mechanism for pRB inactivation in oral SCC.
...
PMID:Aberrations in the MTS1 tumor suppressor locus in oral squamous cell carcinoma lines preferentially affect the INK4A gene and result in increased cdk6 activity. 1185 66
Malignant blue nevus is a rare melanocytic tumor that is described by some authors as a variant of malignant melanoma, whereas others regard it as a distinct entity. To our knowledge no molecular studies of this tumor have been performed, although the molecular pathogenesis of conventional melanomas has been extensively described. We present a case of malignant blue nevus that developed in a 15-cm congenital blue nevus on the back of a 41-year-old man. Subsequent regional lymph node and lung metastases developed within 1 and 29 months, respectively. We performed a molecular analysis for loss of heterozygosity on microdissected samples from the spectrum of benign to malignant blue nevus, using a panel of eight genes (
MTS1
, MXI1, CMM1,
p53
, NF1, L-myc hOGG1, and MCC), many of which are commonly associated with conventional melanomas. No loss of heterozygosity was detected, despite informativeness in seven genes. We suggest that malignant blue nevus may represent a distinct entity with a different molecular pathway to tumorigenesis than that of conventional melanomas.
...
PMID:Malignant blue nevus: a case report and molecular analysis. 1254 95
Neoplastic progression is an evolutionary process characterized by genomic instability and waves of clonal expansions carrying genetic and epigenetic lesions to fixation (100% of the cell population). However, an evolutionarily neutral lesion may also reach fixation if it spreads as a hitchhiker on a selective sweep. We sought to distinguish advantageous lesions from hitchhikers in the premalignant condition Barrett's esophagus. Patients (211) had biopsies taken at 2-cm intervals in their Barrett's segments. Purified epithelial cells were assayed for loss of heterozygosity and microsatellite shifts on chromosomes 9 and 17, sequence mutations in CDKN2A/
MTS1
/INK4a (p16) and
TP53
(
p53
), and methylation of the p16 promoter. We measured the expanse of a lesion in a Barrett's segment as the proportion of proliferating cells that carried a lesion in that locus. We then selected the lesion having expanses >90% in the greatest number of patients as our first putative advantageous lesion. We filtered out hitchhikers by removing all expanses of other lesions that did not occur independent of the advantageous lesion. The entire process was repeated on the remaining expanses to identify additional advantageous lesions. p16 loss of heterozygosity, promoter methylation, and sequence mutations have strong, independent, advantageous effects on Barrett's cells early in progression. Second lesions in p16 and
p53
are associated with later selective sweeps. Virtually all of the other lesion expansions, including microsatellite shifts, could be explained as hitchhikers on p16 lesion clonal expansions. These techniques can be applied to any neoplasm.
...
PMID:Selectively advantageous mutations and hitchhikers in neoplasms: p16 lesions are selected in Barrett's esophagus. 1515 93
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