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Gene/Protein
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Target Concepts:
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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Four human chronic myeloid leukemia (CML) cell lines, BV173, K562,
KCL
-22, and KYO-1, were studied for inactivation of human tumor suppressor gene
p53
. Southern blotting showed allele deletion in
KCL
-22 and cytogenetic studies showed a chromosome 17 deletion in KYO-1 but no gross structural abnormalities in the other two lines. Northern blotting showed increased amounts of normal size
p53 mRNA
in BV-173 and KYO-1, trace amounts in
KCL
-22, and none in K562. Direct sequencing of
p53
cDNA revealed a missense point mutation in KYO-1 and a single base pair deletion consistent with a coding frame shift in
KCL
-22. Both abnormalities in these myeloid cell lines were located in the highly conserved region of
p53
. Studies with two monoclonal antibodies showed that the three cell lines with
p53 mRNA
had readily detectable
p53
proteins. In KYO-1 and BV173 cells the
p53 protein
was located mainly in the nuclei but
KCL
-22 cells had weak staining in the cytoplasm. Our data support the assumption that inactivation of
p53 tumor suppressor
function in myeloid blast transformation of CML may result from point mutations or deletions that produce mutant proteins.
...
PMID:p53 in chronic myeloid leukemia cell lines. 164 Jul 38
Despite tremendous effort and progress in the diagnostics of pancreatic cancer with respect to imaging techniques and molecular genetics, only very few patients can be cured by surgery leading to a 5-year survival rate of only 3%. Especially the lack of chemotherapeutical options in this entity requires a better understanding of the molecular mechanisms leading to pancreatic carcinoma growth and progression in order to develop novel treatment regimens. To identify signaling pathways that are critical for this tumor entity, we compared six well-established pancreatic cancer cell lines (Capan-1, Capan-2, HUP-T3, HUP-T4,
KCL
-MOH, PaTu-8903) with colon cancer cell lines and tumor cell lines of non-epithelial origin by expression profiling. For this purpose we employed Human Genome Focus Arrays representing about 8500 well annotated human genes. We identified 353 genes with significantly high expression in the group of pancreatic carcinomas. Based on Gene Ontology annotations these genes are especially involved in Rho protein signal transduction, proteasome activator activity, cell motility, apoptotic program, and cell-cell adhesion processes indicating these pathways to be interesting candidates for the design of targeted therapies. Most pancreatic carcinomas are characterized by mutations in the
TP53
and the KRAS genes and the absence of microsatellite instability, which could also be confirmed for our panel of pancreatic carcinoma cell lines. Looking for individual differences within this group that may be responsible for more or less aggressive behavior, we identified genomic amplifications at the 8q22.1 and the 8q24.22 loci to be associated with enhanced gene transcription. Because we have previously shown that gains of genomic material from the long arm of chromosome 8 have an adverse effect on the outcome of pancreatic carcinoma patients, we conclude that functional analysis of amplified genes at 8q22 and/or 8q24 may lead to an improved understanding of pancreatic carcinoma progression.
...
PMID:Expression analysis of pancreatic cancer cell lines reveals association of enhanced gene transcription and genomic amplifications at the 8q22.1 and 8q24.22 loci. 1720 80
