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Query: UNIPROT:Q86TM3 (
cage
)
29,987
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Cancer predisposition in some families is known to be the result of germ-line mutations. The most noteworthy hereditary gynecologic cancer syndromes include hereditary breast-ovarian cancer (HBOC) syndrome, wherein BRCA1 and BRCA2 germ-line mutations have been identified, and hereditary nonpolyposis colorectal cancer (HNPCC) of the Lynch syndrome II variant, wherein hMSH2,
hMLH1
, hPMS2, hMSH3, and hMSH6 germ-line mutations have been identified. DNA testing for specific
cancer-associated
germ-line mutations is now available for HBOC and HNPCC syndrome family members who are in the direct line of inheritance. Genetic counseling is mandatory prior to DNA testing and at the time of disclosure of findings. A patient found to be negative for the family's particular
cancer-associated
germ-line mutation can revert to general population screening recommendations. When a deleterious mutation is identified, the physician is able to predict a patient's lifetime susceptibility to breast and ovarian carcinomas in the HBOC syndrome or the cancers which characterize the Lynch syndrome II variant of HNPCC, particularly carcinomas of the colon, endometrium, and ovary. Management strategies can be offered which are designed to take advantage of the natural history of that distinct hereditary cancer syndrome. We discuss the unfolding developments concerning familial and heritable susceptibilities, molecular genetics, and possible carcinogenic co-factors of the three most common gynecologic cancers: carcinomas of the uterine cervix, endometrium, and ovary. We offer rationales for management based on current epidemiologic and clinical data and emerging technologies.
...
PMID:Hereditary Factors in Gynecologic Cancer. 1038 22
Aberrant promoter hypermethylation of tumor-associated genes leading to their inactivation is a common event in many cancer types. Using a sensitive restriction-multiplex PCR method, we studied the promoter hypermethylation profile of the p16, p15,
hMLH1
, MGMT and E-cad genes in oral squamous cell carcinoma (OSCC) of Indians. We analyzed a total of 51 samples for the p15 tumor-suppressor gene and 99 samples for each of the remaining genes. Our studies indicate an incidence of promoter hypermethylation of 23% each for p16 and p15, 8% for
hMLH1
, 41% for MGMT and 35% for E-cad. We observed aberrant hypermethylation of the promoter region of at least 1 of these genes in 74.5% of cases (n = 51) for which all the 5 genes were studied. Abnormal methylation was detected in tumors irrespective of stage and location in the oral cavity, whereas no abnormal methylation was detectable in normal oral squamous tissues obtained from 25 OSCC patients. Detection of aberrant hypermethylation patterns of
cancer-associated
genes listed above is therefore suitable for diagnosis of OSCC in individuals at high risk for this disease.
...
PMID:Promoter hypermethylation profile of tumor-associated genes p16, p15, hMLH1, MGMT and E-cadherin in oral squamous cell carcinoma. 1267 28
The extent of unilateral chromosomal losses and the presence of microsatellite instability (MSI) have been classified into high-risk (high- and baseline-level loss) and low-risk (low-level loss and MSI) stem-line genotypes in gastric carcinomas. A unilateral genome-dosage reduction might stimulate compensation mechanism, which maintains the genomic dosage via CpG hypomethylation. A total of 120 tumor sites from 40 gastric carcinomas were examined by chromosomal loss analysis using 40 microsatellite markers on 8 chromosomes and methylation analysis in the 13 CpG (island/non-island) regions near the 10 genes using the bisulfite-modified DNAs. The high-level-loss tumor (four or more losses) showed a tendency toward unmethylation in the Maspin,
CAGE
, MAGE-A2 and RABGEF1 genes, and the other microsatellite-genotype (three or fewer losses and MSI) toward methylation in the p16,
hMLH1
, RASSF1A, and Cyclin D2 genes (p<0.05). The non-island CpGs of the p16 and
hMLH1
genes were hypomethylated in the high-level-loss and hypermethylated in the non-high-level-loss sites (p<0.05). Consequently, hypomethylation changes were related to a high-level loss, whereas the hypermethylation changes were accompanied by a baseline-level loss, a low-level loss, or a MSI. This indicates that hypomethylation compensates the chromosomal losses in the process of tumor progression.
...
PMID:Relationship between the extent of chromosomal losses and the pattern of CpG methylation in gastric carcinomas. 1622 53
The frequency of colorectal cancer (CRC) among the Alaska Native people is the highest of any ethnic group in the United States. In this study, CRC from 329 Alaska Native people (165 Eskimo, 111 Indians, and 53 Aleut) were evaluated for evidence of defective DNA mismatch repair (MMR) by testing tumors for altered protein expression (
hMLH1
, hMSH2, and hMSH6) and for the presence of microsatellite instability. Of the 329 samples tested, 46 (14%) showed both microsatellite instability and altered protein expression; 42 (91%) with a loss of
hMLH1
, 3 (7%) hMSH2, and 1 (2%)
hMLH1
/hMSH6. Tumors with loss of
hMLH1
were further evaluated for
hMLH1
promoter hypermethylation and for the presence of the BRAF-V600E mutation. Among cases tested, all 19 (100%) tumors among the Eskimo patients showed
hMLH1
promoter hypermethylation, whereas this was the case for only 3 of the 7 (42%) tumors among the Aleut (P=0.002) and 5 of the 10 (50%) tumors from the Indians (P=0.002). The majority of hypermethylated cases (23 of 27) tested positive for the V600E alteration. Of the nine tumors from the Aleut and Indian patients that did not exhibit
hMLH1
hypermethylation, eight tested negative for V600E. Overall, the frequency of defective MMR among the three groups was not statistically different (P=0.75). However, the data suggest that the pathogenesis of CRC may differ between the three groups. The CRC with defective MMR among the Eskimo sample fit the typical profile for
hMLH1
-related
cancer associated
with sporadic CRC, whereas the pattern in the Aleut and Indian suggests the possibility that germ line
hMLH1
mutations may be present.
...
PMID:Frequency of defective DNA mismatch repair in colorectal cancer among the Alaska Native people. 1800 22
Hereditary nonpolyposis colorectal cancer is caused by germline mutations in DNA mismatch repair genes. The majority of cases are associated with mutations in hMSH2 or
hMLH1
; however, about 12% of cases are associated with alterations in hMSH6. The hMSH6 protein forms a heterodimer with hMSH2 that is capable of recognizing a DNA mismatch. The heterodimer then utilizes its adenosine nucleotide processing ability in an, as of yet, unclear mechanism to facilitate communication between the mismatch and a distant strand discrimination site. The majority of reported mutations in hMSH6 are deletions or truncations that entirely eliminate the function of the protein; however, nearly a third of the reported variations are missense mutations whose functional significance is unclear. We analyzed seven
cancer-associated
single amino acid alterations in hMSH6 distributed throughout the functional domains of the protein to determine their effect on the biochemical activity of the hMSH2-hMSH6 heterodimer. Five alterations affect mismatch-stimulated ATP hydrolysis activity providing functional evidence that missense variants of hMSH6 can disrupt mismatch repair function and may contribute to disease. Of the five mutants that affect mismatch-stimulated ATP hydrolysis, only two (R976H and H1248D) affect mismatch recognition. Thus, three of the mutants (G566R, V878A, and D803G) appear to uncouple the mismatch binding and ATP hydrolysis activities of the heterodimer. We also demonstrate that these three mutations alter ATP-dependent conformation changes of hMSH2-hMSH6, suggesting that
cancer-associated
mutations in hMSH6 can disrupt the intramolecular signaling that coordinates mismatch binding with adenosine nucleotide processing.
...
PMID:Hereditary cancer-associated missense mutations in hMSH6 uncouple ATP hydrolysis from DNA mismatch binding. 1879 Jul 34
Lynch Syndrome/HNPCC is a syndrome of cancer predisposition linked to inherited mutations of genes participating in post-replicative DNA mismatch repair (MMR). The spectrum of
cancer associated
with Lynch Syndrome includes tumours of the colorectum, endometrium, ovary, upper gastrointestinal tract and the urothelium although other cancers are rarely described. We describe a family of Lynch Syndrome with an
hMLH1
mutation, that harbours an unusual tumour spectrum and its diagnostic and management challenges.
...
PMID:Unusual presentation of Lynch Syndrome. 1949 51
To investigate the contributions of histone H3 lysine 9 acetylation and DNA methylation to p16,
hMLH1
and MGMT silencing in ovarian cancer cells, we treated three ovarian cancer cell lines with Trichostatin A (TSA) and 5-aza-2'-deoxycytidine and examined the status of mRNA expression, DNA methylation and histone H3 lysine 9 acetylation at the promoter of p16,
hMLH1
and MGMT. The results showed that the hypermethylated silenced tumor-related genes in the ovarian cancer cells were characterized by hypoacetylated histone H3 lysine 9. Treatment with TSA resulted in the increase of histone H3 lysine 9 acetylation at the hypermethylated promoter, but with little effects on gene expression. TSA did not contribute to DNA demethylation. 5-aza-2'-deoxycytidine treatment caused DNA demethylation, increased histone H3 lysine 9 acetylation at the hypermethylated promoter and resulted in reactivation of p16,
hMLH1
and MGMT. Combined treatments synergistically increased histone H3 lysine 9 acetylation accompanied by the re-expression of the hypermethylated genes. To conclude, in ovarian cancer cells, DNA methylation and histone deacetylation act synergistically for the silencing of
cancer-associated
genes. DNA demethylation is superior to histone acetylation for reactivating
cancer-associated
genes.
...
PMID:DNA demethylation is superior to histone acetylation for reactivating cancer-associated genes in ovarian cancer cells. 2185 Mar 74
