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Query: UNIPROT:P43146 (
tumour suppressor
)
5,935
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Enteropathy-type T-cell lymphoma (ETL) and ulcerative jejunitis (UJ) are rare disorders often occurring in patients with coeliac disease. The genetic events associated with the accumulation of intraepithelial lymphocytes in coeliac disease and tumour development are largely unknown. Deletions at chromosome 9p21, which harbours the
tumour suppressor
genes p14/ARF, p15/INK4b, and p16/INK4a, and 17p13, where p53 is located, are associated with the development and progression of lymphomas. To examine whether deletions at 9p21 and 17p13 play a role in ETL, 22 cases of ETL and seven cases of UJ were screened for loss of heterozygosity (LOH) by tissue microdissection and polymerase chain reaction (PCR) analysis for microsatellite markers. Furthermore, p53 and
p16 protein
expression was examined by immunohistochemistry. In addition, polymerase chain reaction-single strand conformational polymorphism (PCR-SSCP) analysis for detection of mutations in exons 5-8 of the p53 gene was performed in five cases of ETL and three cases of UJ. LOH was found in at least one microsatellite marker at the 9p21 locus in 8 of 22 (36%) ETLs, but not in UJ. Five of nine (56%) tumours composed of large cells showed LOH at 9p21, as opposed to two of eight (25%) tumours with small- or medium-sized cell morphology. The region spanning the p14/p15/p16 gene locus was most frequently affected (five cases); LOH at these markers coincided with loss of
p16 protein
expression in all of these cases. p53 overexpression was demonstrated in all ETLs examined and in four of seven cases of UJ. However, no alterations of the p53 gene were detected by LOH or PCR-SSCP analysis. The results of this study show that LOH at chromosome 9p21 is frequent in ETL, especially in tumours with large cell morphology; this finding suggests that gene loss at this locus may play a role in the development of ETL.
...
PMID:Loss of heterozygosity at chromosome 9p21 is a frequent finding in enteropathy-type T-cell lymphoma. 1474 9
The p16INK4a gene, localized within chromosome 9p21, has been identified as a cyclin-dependent kinase inhibitor and may negatively regulate the cell cycle acting as a
tumour suppressor
. Genetic alterations involving the 9p21 region are common in human cancers. Our purpose was to investigate 9p21 LOH and expression of
p16 protein
and their possible prognostic value in laryngeal cancer. PCR-based techniques were used for investigating 9p21 LOH and immunohistochemical methods for
p16 protein
expression. 9p21 LOH was detected in 10/41 (24.4%) informative tumours and
p16 protein
in 11/41 (26.8%). By univariate analysis 9p21 LOH proved to be significantly related to overall survival whereas expression of
p16 protein
was related with quicker relapse. Analysis of 9p21 LOH enables the assessment of biology of laryngeal cancer and it is a prognostic factor of overall survival. A
p16 protein
has a prognostic value in assessment of disease free survival in those patients. Although clinical impact of gene and protein p16 in laryngeal cancer is still unclear.
...
PMID:[Expression of p16 gene and protein in the evaluation of dynamics of laryngeal cancer growth]. 1510 Dec 77
Deletions of the short arm of chromosome 9 have been observed in many tumours and cell lines. This chromosomal region is frequently targeted during malignant transformation because it contains at least two known
tumour suppressor
genes: p16(INK4) and p15(INK4B). p16(INK4A) acts as a negative cell cycle regulator by inhibiting G1 cyclin-dependent kinases that phosphorylate the retinoblastoma protein and therefore block the progression of the cell cycle from G1 to S phase. The role of p16(INK4A) in the development of synovial sarcoma has not been comprehensively investigated. Ten samples of synovial sarcomas were examined for allelic imbalance/loss of heterozygosity (AI/LOH) of the 9p region and
p16 protein
expression. DNA was isolated from microdissected sections of normal and tumour cells, amplified by polymerase chain reaction and analysed for AI/LOH by using six microsatellite markers that map to the 9p region. Immunohistochemistry for p16 expression was done. AI/LOH with at least one microsatellite marker on 9p21 was detected in six of ten samples. The most frequent allelic deletions were observed within the coding sequence of p16(INK4A). Loss of p16 immunoreactivity was detected in eight samples, six of which showed evidence of alterations at 9p21 region. These findings suggest a possible role of loss of p16(INK4A) in the development of synovial sarcoma.
...
PMID:Loss of p16INK4A expression is associated with allelic imbalance/loss of heterozygosity of chromosome 9p21 in microdissected synovial sarcomas. 1608 60
Deletions of the short arm of chromosome 9 have been reported in different types of malignancies. This chromosomal region contains a number of known
tumour suppressor
genes, including the p16INK4A (CDKN2A), p15INK4B and MTAP
tumour suppressor
genes located at 9p21. In this study twenty-two paraffin embedded invasive cutaneous SCC were examined for allelic imbalance/ loss of heterozygosity (AI/LOH) of the 9p region (in particular 9p21), and for
p16 protein
expression. DNA was isolated from microdissected sections of normal and tumour cells and analysed for AI/LOH by using six fluorescently labelled microsatellite markers that map to the 9p region.
P16 protein
expression was examined by immunohistochemistry. At each of the six microsatellite markers the majority of SCC analysed showed AI/LOH. Overall both AI/LOH within the CDKN2A locus and absence of
p16 protein
expression were frequent among the cutaneous SCC analysed, suggesting that p16 inactivation may play a role in cutaneous SCC development. The majority of the SCC analysed also had AI/LOH of the marker within the MTAP gene, and at markers flanking the CDKN2A gene; thus further investigation as to a possible role for these genes in the development of cutaneous SCC is warranted.
...
PMID:Analysis of p16 expression and allelic imbalance / loss of heterozygosity of 9p21 in cutaneous squamous cell carcinomas. 1805 79
Normal human thyroid follicular epithelial cells exhibit a very low proliferative rate which in vitro is dramatically increased by RAS oncogene activation, resulting in clones displaying a phenotype consistent with that of a ras-induced follicular adenoma in vivo. Eventual spontaneous cessation of growth of these clones is closely correlated with increasing expression of the
tumour suppressor
gene p16(INK4a), suggesting that p16 may limit clonal expansion in this tumour model. We therefore hypothesised that p16 expression would also increase in vivo in follicular adenomas, and further that escape from growth control in follicular cancers would be accompanied by loss of p16 expression. This was tested using tissue microarrays, representing multiple stages of thyroid tumourigenesis. Whereas the majority of normal thyroids showed no immunostaining,
p16 protein
was readily detectable in follicular adenomas. Unexpectedly, however, p16 expression was also observed in follicular and papillary carcinomas. Poorly differentiated (insular) carcinomas showed either very intense staining, or a complete loss of staining. We conclude that loss of p16 is not necessary for malignant transformation in thyroid follicular cells, but that it may form one of two or more events needed for progression to more aggressive forms of thyroid cancer.
...
PMID:An immunohistochemical study of p16(INK4a) expression in multistep thyroid tumourigenesis. 1704 39
The methylthioadenosine phosphorylase (MTAP) gene is a
tumour suppressor
gene, located on chromosome 9p21, 100 kb telomeric of the p15 and p16 genes, which are often deleted in tumor cells. The role of MTAP protein expression in the genesis of cutaneous squamous cell carcinoma (SCC) is currently not known. In a previous study we have shown the frequent occurrence of allelic imbalance/loss of heterozygosity (AI/LOH) in cutaneous SCCs using AI/LOH markers flanking the p15, p16, and MTAP genes and demonstrated reduction in p15 and
p16 protein
expression in comparison to normal human skin. The present study is a continuation to our previous studies, aimed at determining possible roles played by MTAP protein expression in the genesis of cutaneous SCC. The expression of MTAP protein was detected using immunohistochemical approach in 109 micro array cutaneous SCC and 20 normal human skin tissue samples. The expression of MTAP was not significantly different in the cutaneous SCC cases as compared with normal human skin. This may indicate that MTAP protein expression does not contribute to the genesis of cutaneous SCC.
...
PMID:Methylthioadenosine phosphorylase expression in cutaneous squamous cell carcinoma. 1871 77
The
p16
gene belongs to
INK4
family of genes and is made up of four members: p16
INK4A
, p15
INK4B
, p18
INK4C
and p19
INK4D
, all of which share biological properties, namely, inhibition of cell growth and tumour suppression. After
p53
,
p16
is the second most common
tumour suppressor
gene. It has been regarded as the familial melanoma gene. Immunohistochemistry for p16 has a well-defined role in distinct pathological scenarios. It is used to distinguish desmoplastic melanoma from reactive fibrous proliferation, with former showing strong nuclear positivity. In other types of melanoma,
p16 protein
expression is lost. Spitz nevi show retention of nuclear staining for p16. Benign mesothelial proliferations tend to retain nuclear p16 immunoreactivity, while malignant mesotheliomas lose expression. However,
p16
fluorescent in-situ hybridisation analysis is recommended in the workup of malignant mesothelioma. Another common application of p16 immunohistochemistry is as an indicator for human papillomavirus (HPV) infection and
p16 protein
is overexpressed in HPV-associated tumours. In this context, p16 immunopositivity should be strong, diffuse, nuclear or nuclear and cytoplasmic in location. Another use for p16 is demonstration of p16 immunopositivity in well-differentiated and dedifferentiated liposarcoma.
...
PMID:
p16
. 3007 91
The expression of p16/CDKN2A, the second most commonly inactivated
tumour suppressor
gene in cancer, is lost in the majority of chordomas. However, the mechanism(s) leading to its inactivation and contribution to disease progression have only been partially addressed using small patient cohorts. We studied 384 chordoma samples from 320 patients by immunohistochemistry and found that
p16 protein
was lost in 53% of chordomas and was heterogeneously expressed in these tumours. To determine if CDKN2A copy number loss could explain the absence of
p16 protein
expression we performed fluorescence in situ hybridisation (FISH) for CDKN2A on consecutive tissue sections. CDKN2A copy number status was altered in 168 of 274 (61%) of samples and copy number loss was the most frequent alteration acquired during clinical disease progression. CDKN2A homozygous deletion was always associated with
p16 protein
loss but only accounted for 33% of the p16-negative cases. The remaining immunonegative cases were associated with disomy (27%), monosomy (12%), heterozygous loss (20%) and copy number gain (7%) of CDKN2A, supporting the hypothesis that loss of protein expression might be achieved via epigenetic or post-transcriptional regulatory mechanisms. We identified that mRNA levels were comparable in tumours with and without
p16 protein
expression, but other events including DNA promoter hypermethylation, copy number neutral loss of heterozygosity and expression of candidate microRNAs previously implicated in the regulation of CDKN2A expression were not identified to explain the protein loss. The data argue that p16 loss in chordoma is commonly caused by a post-transcriptional regulatory mechanism that is yet to be defined.
...
PMID:Frequent alterations in p16/CDKN2A identified by immunohistochemistry and FISH in chordoma. 3191 7
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