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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The novel human pre-B cell line OZ was established from a patient with an aggressive form of non-Hodgkin's lymphoma. Karyotypic analysis of both the primary tumour and OZ cells revealed several marker chromosomes, including the t(14;18)(q32;q21) translocation, which involves the Bcl-2 gene, and alterations on chromosome 17p. Southern blot analysis found identical rearrangements in the 5' region of Bcl-2 gene in the primary tumour and OZ cells. Homozygous deletions of the
p15INK4B
and p16INK4A genes, however, were present only in OZ cells. Western blot analysis detected aberrant small molecular-weight
p53
proteins in both cell types. In addition, OZ cells no longer expressed the CD20 antigen. These findings suggest that Bcl-2 gene rearrangement and aberrant
p53
expression resulted in the original B-cell tumour. A subsequent transforming event involving the
p15INK4B
and p16INK4A genes may have generated more immature cells with a growth advantage during in vitro culture. The genetic alterations involving
p53
,
p15INK4B
, and p16INK4A may be implicated in the aggressive form of t(14;18)(q32;q21)-bearing tumours and their poor prognosis.
...
PMID:Establishment of a novel human B-cell line (OZ) with t(14;18)(q32;q21) and aberrant p53 expression was associated with the homozygous deletions of p15INK4B and p16INK4A genes. 960 Jan 10
Cyclin-dependent kinase (CDK) inhibitor genes have recently been proposed as new tumor suppressor genes. To define the possible participation of CDK inhibitor genes in lung carcinogenesis, we investigated the alterations of
p15INK4B
, p16INK4A, p21Waf1, and p27Kip1 genes in 34 human lung cancer cell lines using the polymerase chain reaction-single strand conformation polymorphism (PCR-SSCP), direct sequencing, and southern dot blot methods. Among the four CDK inhibitor genes, alterations of only the p16INK4A gene were found in 8 out of 34 (24%) cell lines, and all eight cell lines having a p16INK4A gene alteration had an alteration of either the K-ras of
p53
gene. Conversely, p16INK4A gene alterations were found in none of the 3 cell lines having Rb gene alterations and none of the 3 cell lines having amplification of the N-myc gene. Polymorphism was found in both p21Waf1 and p27Kip1 genes, but no association was found between the polymorphism and alterations of other genes. These results suggest that p16INK4A gene alterations may play a certain role for lung carcinogenesis in co-operation with either K-ras or
p53
gene alterations.
...
PMID:Coincidental alterations of p16INK4A/CDKN2 and other genes in human lung cancer cell lines. 967 67
The occurrence of acute transformation during the treatment of chronic myeloid leukemia (CML) is still a poorly understood mechanism. In this disease
p53
, p16INK4A,
p15INK4B
, p57KIP2 mutations and
p15INK4B
/p16INK4A homo/hemizygous deletions were analyzed in the initial diagnosis phase and during the treatment phase of twelve CML cases, in order to establish whether there was a consistent molecular genetic alteration in its progression. During the treatment period, four of twelve cases had blastic crisis. All the mutations observed in
p53
, p16INK4A and
p15INK4B
cumulated in three out of four CML cases who had blastic crises. In one case,
p53
codon 282 mutation (CGG-->TGG; arg-->trp) were observed in initial diagnosis. Seven months later, G-->C transition in the 3' side of p15 cDNA (778. nucleotide) was observed in the accelerated phase with the same
p53
codon 282 mutation. Thirteen months later, this patient died as a result of blastic crisis. The patient in blastic crises in the initial diagnosis phase had a mis-sense point mutation in p16 codon 69 (ACT-->AGT; thr-->ser) and a polymorphism in codon 68 (GCC-->GCG). Six months later, this patient also died. In one case,
p53
codon 237 mutation (ATG-->ATA; met-->ile) were observed in the initial diagnosis phase. Then months later, the patient died as a result of blastic crises. No
p15INK4B
/p16INK4A homo/hemizygous deletion and p57KIP2 gene mutation which was described in the same pathway were observed in CML progression. These results indicate that
p15INK4B
and p16INK4A gene alterations may have an affect on the progression of CML-like
p53
mutation. A correlation was found with the progression of CML and
p53
,
p15INK4B
and p16INK4A somatic mutations. Finding
p15INK4B
and p16INK4A gene alteration as well as
p53
mutations may be a prognostic marker in patients with CML.
...
PMID:P53, p15INK4B, p16INK4A and p57KIP2 mutations during the progression of chronic myeloid leukemia. 1006 44
Glomus tumors are significantly rare tumors of carotid body. The great majority of these tumors are benign in character. Here we present two brothers with hereditary glomus jugulare tumor who had consanguineous parents. Radiotherapy was applied approximately 8 and 10 years ago for treatment in both cases. Eight years later, one of these cases came to our notice due to relapse. The mutation pattern of
p53
, p57KIP2, p16INK4A and p15NK4B genes which have roles in the cell cycle, was analyzed in tumor samples obtained from the two affected cases in the initial phase and from one of these cases at relapse. The DNA sample obtained from the case in initial diagnosis phase revealed no
p53
, p57KIP2, p16INK4A or
p15INK4B
mutation. He is still in remission phase. Despite the lack of
p53
, p57KIP2, p16INK4A and
p15INK4B
mutation at initial diagnosis the tumor DNA of the other case in relapse revealed
p53
codon 243 (ATG-->ATC; met-->ile) and p16 codon 97 (GAC-->AAC; asp-->asn) missense point mutations. No loss of heterozygosity in
p53
and p16INK4A was observed by microsatellite analysis of tumoral tissues in these cases.
P53
and p16INK4A mutations observed in relapse phase were in conserved regions of both genes. No previous reports have been published with these mutations in glomus tumor during progression. The mutation observed in this case may due to radiotherapy. In spite of this possibility, the missense point mutations in conserved region of
p53
and p16INK4A genes may indicate the role of
p53
and p16INK4A in tumor progression of glomus tumors.
...
PMID:p53 and p16INK4A mutations during the progression of glomus tumor. 1007 77
Scrotal cancer is the first described occupational cancer. The frequency of occupation-related scrotal cancer is very rare because of better hygiene and protective clothing. Human papilloma viruses (oncogenic types 16 and 18) were reported as the causative agents in the pathogenesis of scrotal cancers. E5, E6, and E7 proteins, expressed by human papilloma virus type 16, affect the cell cycle at the G1 checkpoint.
TP53
, p16INK4A, and
p15INK4B
were reported as the transcription factors that regulate the cell cycle on the same pathway. Here, the mutation pattern of
TP53
, p16INK4A, and
p15INK4B
genes and the homo/hemizygous deletion patterns of p16INK4A/
p15INK4B
genes are presented in four scrotal carcinoma cases. The results were correlated with the findings of oncogenic human papilloma viruses (types 16 and 18) in this panel. In two of four case, human papilloma virus type 16 was observed. Homozygous deletion in p16INK4A/
p15INK4B
genes and a codon 259 missense point mutation (GAC-->TAC; Asp-->Tyr) in the
TP53
gene were observed in one human papilloma positive scrotal carcinoma case. The homozygous deletion in p16INK4A/
p15INK4B
genes was observed in another human papilloma positive scrotal carcinoma case. The cumulation of
TP53
mutations and p16INK4A/
p15INK4B
homozygous deletions in human papilloma virus type 16 positive scrotal carcinoma cases indicate that the alterations of
TP53
, p16INK4A, and
p15INK4B
genes have an important role in the progression of scrotal cancers, as well as other factors. The survival rate for the two human papilloma virus type 16 positive patients who had a
TP53
mutation or p16INK4A/
p15INK4B
homozygous deletion or both was lower than that for the human papilloma virus type 16 negative cases who had no
TP53
, p16INK4A, and
p15INK4B
mutation. The molecular alteration of
TP53
, p16INK4A, and
p15INK4B
genes may be useful as a prognostic marker in scrotal cancer.
...
PMID:Cumulation of TP53 mutations and p16INK4A/p15INK4B homozygous deletions in human papilloma virus type 16 positive scrotal cancer. 1008 41
When cells are exposed to ionizing radiation, they initiate a complex response that includes the arrest of cell cycle progression in G1 and G2, apoptosis and DNA repair. DNA is an important subcellular target of ionizing radiation, but oxydative damage to plasma membrane lipids initiates signal transduction pathways that activate apoptosis and that may play a role in cell cycle regulation. How is DNA damage converted into intracellular signals for cell cycle arrest? The ataxia telangectasia mutant (ATM) protein and/or the DNA-dependent protein kinase (DNA-PK), that are both activated by DNA damage, may initiate cell cycle arrest by activating the
p53 tumor suppressor protein
. The
p53 protein
acts as a transcription factor and regulates expression of several components implicated in pathways that regulate cell cycle progression. The best known, p21WAF1/CIP1 protein, is an inhibitor of cyclin-dependent kinases (CDK), a family of protein kinases known as key regulators of cell cycle progression. p21WAF1/CIP1 was shown to be able to inhibit several CDK, but is most effective toward G1/S cyclins. Other CDK inhibitors, p27KIP1 and
p15INK4b
are activated by irradiation and contribute to the G1 arrest. Moreover, radiation-induced G2 arrest was shown to require inhibitory phosphorylation of the kinase cdc2 via an ATM-dependent pathway. Mutations in cell cycle regulatory genes are common in human cancer and cell cycle regulatory deficiency can lead to increase resistance to ionizing radiation in cancer cells. The major function of
p53
-dependent G1 arrest may be elimination of cells containing DNA damage whereas G2 arrest following radiation has been shown to be important in protecting cells from death. Cell cycle checkpoints offer a new set of potential targets for chemotherapeutic compounds, especially the G2 checkpoint. Thus, abrogation of the G2 checkpoint with methylxanthines such as caffeine or protein kinase inhibitors such as staurosporine and UCN-01 (7-hydroxystaurosporine) was found to sensitize cells to ionizing radiation. These data did not lead to clinical applications, but confirm targeting of the G2 checkpoint may be an important strategy for cancer therapy.
...
PMID:[Cell cycle regulation after exposure to ionizing radiation]. 1034 40
Cytogenetic/molecular abnormalities significantly influence the prognosis of patients with acute leukemia. Recently, two genes, p16INK4a and
p15INK4b
, encoding two cyclin-dependent kinase inhibitor proteins of the INK4 family of Mr 15,000 and 16,000, respectively, have been localized to 9p21. Remarkably, the p16INK4a locus has been found to encode a second protein, p14ARF, known as p19ARF in mice, with a distinct reading frame. Like p16INK4a, p14ARF is involved in cell cycle regulation, blocking cells at the G1 restriction point through the activity of MDM-2 and
p53
. We studied bone marrow samples of 42 newly diagnosed and untreated patients with acute lymphoblastic leukemia for the incidence of deletions of p16INK4a/p14ARF and
p15INK4b
using Southern blot analysis and determined the clinical outcome with regard to complete remission (CR) duration, event-free survival, and overall survival. We found deletions of p16INK4a/p14ARF in 17 of 42 patients (40%), with homozygous deletions in 11 of 42 patients (26%) and hemizygous deletions in 6 of 42 patients (14%). The gene for
p15INK4b
was codeleted in most, but not all, cases and was never deleted without deletion of p16INK4a/ p14ARF. No correlation was observed between molecular studies and karyotype abnormalities as determined by conventional cytogenetics. Furthermore, no difference was found in the CR rate, CR duration, event-free survival, and overall survival in patients with homozygous gene deletions compared to patients with no deletions or loss of only one allele.
...
PMID:The prognostic significance of p16INK4a/p14ARF and p15INK4b deletions in adult acute lymphoblastic leukemia. 1043 92
The 9p21 gene cluster, harboring growth suppressive genes p14ARF,
p15INK4b
, and p16INK4a, is one of the major aberration hotspots in human cancers. It was shown that p14ARF and p16INK4a play active roles in the
p53
and Rb tumor suppressive pathways, respectively, and
p15INK4b
is a mediator of the extracellular growth inhibition signals. To elucidate specific targets and aberrations affecting this subchromosomal region, we constructed a detailed alteration map of the 9p21 gene cluster by analyzing homozygous deletion, hypermethylation, and mutation of the p14ARF,
p15INK4b
, and p16INK4a genes individually in 40 esophageal squamous cell carcinomas (ESCCs) and compared the genetic alterations with mRNA expression in 18 of these samples. We detected aberrant promoter methylation of the p16INK4a gene in 16 (40%), of p14ARF in 6 (15%), and of
p15INK4b
in 5 (12.5%) tumor samples. Most p16INK4a methylations were exclusive, whereas all but one of the p14ARF/
p15INK4b
methylations were accompanied by concomitant p16INK4a methylation. We detected homozygous deletion of p16INK4a in 7 (17.5%), of p14ARF-E1beta in 13 (33%), and of
p15INK4b
in 16 (40%) tumor samples. Most deletions occurred exclusively on the E1beta-
p15INK4b
loci. Two samples contained p14ARF deletion but with p16INK4a and
p15INK4b
intact. No mutation was detected in the p14ARF and p16INK4a genes. Comparative RT-PCR showed good concordance between suppressed mRNA expression and genetic alteration for
p15INK4b
and p16INK4a genes in the 18 frozen samples, whereas 5 of the 13 cases with suppressed p14ARF mRNA expression contained no detectable E1beta alteration but aberrations in the p16INK4a locus. Our results show that in human ESCCs, p14ARF is a primary target of homozygous deletion along with
p15INK4b
, whereas p16INK4a is the hotspot of hypermethylation of the 9p21 gene cluster. The frequent inactivation of the p14ARF and p16INK4a genes may be an important mechanism for the dysfunction of both the Rb and
p53
growth regulation pathways during ESCC development.
...
PMID:Mechanisms of inactivation of p14ARF, p15INK4b, and p16INK4a genes in human esophageal squamous cell carcinoma. 1053 33
Mutated ras genes are frequently found in human cancer. However, it has been shown that oncogenic ras inhibits growth of primary cells, through pathways involving
p53
and the cell cycle inhibitors p16INK4a and p19ARF. We have analysed the effect of the ectopic expression of the three mammalian ras genes on the proliferation of K562 leukemia cells, which are deficient for
p53
, p16INK4a,
p15INK4b
and p19ARF genes. We have found that high expression levels of both wild-type and oncogenic H-, K- and N-ras inhibit the clonogenic growth of K562 cells. Induction of H-rasV12 expression in K562 transfectants retards growth and this effect is accompanied with an increase of p21WAF1 mRNA and protein levels. Furthermore, p21WAF1 promoter is activated potently by oncogenic ras and less pronounced by wild-type ras. This induction is
p53
-independent since a p21WAF1 promoter devoid of the
p53
responsive elements is still activated by Ras. Finally, inhibition of p21WAF1 expression by an antisense construct partially overcomes the growth inhibitory action of oncogenic H-ras. Altogether, these results indicate that the antiproliferative effect of ras in myeloid leukemia cells is associated to the induction of p21WAF1 expression and suggest the existence of p19ARF and p16INK4a-independent pathways for ras-mediated growth inhibition.
...
PMID:H-, K- and N-Ras inhibit myeloid leukemia cell proliferation by a p21WAF1-dependent mechanism. 1069 96
To test the hypothesis that cell cycle regulatory gene abnormalities are determinants of clinical outcome in adult acute lymphoblastic leukemia (ALL), we screened lymphoblasts from patients on a Southwest Oncology Group protocol for abnormalities of the genes, retinoblastoma (Rb),
p53
,
p15(INK4B)
, and p16(INK4A). Aberrant expression occurred in 33 (85%) patients in the following frequencies: Rb, 51%; p16(INK4A), 41%;
p53
, 26%. Thirteen patients (33%) had abnormalities in 2 or more genes. Outcomes were compared in patients with 0 to 1 abnormality versus patients with multiple abnormalities. The 2 groups did not differ in a large number of clinical and laboratory characteristics. The CR rates for patients with 0 to 1 and multiple abnormalities were similar (69% and 54%, respectively). Patients with 0 to 1 abnormality had a median survival time of 25 months (n = 26; 95% CI, 13-46 months) versus 8 months (n = 13; 95% CI, 4-12 months) for those with multiple abnormalities (P <.01). Stem cells (CD34+lin-) were isolated from adult ALL bone marrows and tested for p16(INK4A) expression by immunocytochemistry. In 3 of 5 patients lymphoblasts and sorted stem cells lacked p16(INK4A) expression. In 2 other patients only 50% of sorted stem cells expressed p16(INK4A). By contrast, p16 expression was present in the CD34+ lin- compartment in 95% (median) of 9 patients whose lymphoblasts expressed p16(INK4A). Therefore, cell cycle regulatory gene abnormalities are frequently present in adult ALL lymphoblasts, and they may be important determinants of disease outcome. The presence of these abnormalities in the stem compartment suggests that they contribute to leukemogenesis. Eradication of the stem cell subset harboring these abnormalities may be important to achieve cure.
...
PMID:Cell cycle regulatory gene abnormalities are important determinants of leukemogenesis and disease biology in adult acute lymphoblastic leukemia. 1073 8
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