Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04637 (p53)
 77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Previously, we reported that lovastatin, a potent inhibitor of the enzyme HMG CoA reductase also acts as an antimitogenic agent by arresting cells in the G1 phase of the cell cycle resulting in cell cycle-independent alteration of cyclin dependent kinase inhibitors (CKIs). In the present study we have investigated the nature of the CKIs (p21 and p27) alterations resulting in G1 arrest in both normal and tumor breast cell lines by lovastatin. We show that even though lovastatin treatment causes G1 arrest in a wide variety of normal and tumor breast cells irrespective of their p53 or pRb status, the p21 and p27 protein levels are not increased in all cell lines treated suggesting that the increase in p21 and p27 protein expression per se is not necessary for lovastatin mediated G1 arrest. However, the binding of p21 and p27 to CDK2 increases significantly following treatment of cells with lovastatin leading to inhibition of CDK2 activity and a subsequent arrest of cells in G1. The increased CKI binding to CDK2 is achieved by the redistribution of both p21 and p27 from CDK4 to CDK2 complexes subsequent to decreases in CDK4 and cyclin D3 expression following lovastatin treatment. Lastly, we show that lovastatin treatment of 76N-E6 breast cell line with an altered p53 pathway also results in G1 arrest and similar redistribution of CKIs from CDK4 to CDK2 as observed in other breast cell lines examined. These observations suggest that lovastatin induced G1 arrest of breast cell lines is through a p53 independent pathway and is mediated by decreased CDK2 activity through redistribution of CKIs from CDK4 to CDK2.
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PMID:Lovastatin mediated G1 arrest in normal and tumor breast cells is through inhibition of CDK2 activity and redistribution of p21 and p27, independent of p53. 981 71

Pancreatic adenocarcinoma is a major cause of cancer death in the United States. Most cases are sporadic and are discovered at late stage when they are not curable by surgery. Information about the molecular biology of pancreatic adenocarcinoma has increased significantly in the last five years with the identification of alterations in the K-ras proto-oncogene and the p16INK4a, p53, FHIT, and DPC4 tumor suppressor genes in a high percentage of tumors. Pancreatic adenocarcinoma is not homogeneous genetically, however, and other genes are clearly involved in some sporadic and heritable tumors. This review summarizes recent data relating to the molecular biology of pancreatic adenocarcinoma with emphasis on features which may be of clinical significance for diagnosis and/or therapy. Molecular genetic alterations that disturb cell cycle regulation in tumor cells can affect their response to chemotherapeutic agents and radiation and many of these genes are targeted in pancreatic adenocarcinoma. Knowledge of these genetic alterations in individual tumors may allow selection of optimal therapeutic strategies for individual patients. Furthermore, molecular detection of oncogene and tumor suppressor gene mutations may find application as screening tests for pancreatic adenocarcinoma at least in high risk populations. Biological therapy aimed at specific oncogenes and tumor suppressor gene replacement therapy protocols for pancreatic adenocarcinoma are beginning and may offer promise in the future.
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PMID:Molecular pathobiology of pancreatic adenocarcinoma. 982 Jul 39

The CDKN2 locus expresses two different mRNA transcripts, designated alpha and beta. The protein product of the alpha transcript is the cell cycle inhibitor and tumour suppressor p16INK4a. The beta transcript is translated in an alternate reading frame (ARF) and in humans encodes a 15 kDa protein (p19ARF). Immunohistochemical and Western analysis of p16INK4a has shown that the protein is downregulated in a significant number of tumours, but less is known on the expression of the p19ARF. We have examined the expression of p16INK4a and p19ARF in resectable non-small cell lung cancer (NSCLC) by immunostaining (n=49) and multiplex RT-PCR (n=28). In order to investigate the mechanism responsible for p16INK4a downregulation, exon 1alpha methylation was analysed in a PCR-based assay. Of 49 tumours examined by immunostaining, 24 and 20 tumours expressed p16INK4a and p19ARF at nil to low levels, respectively. p19ARF was localized primarily to the nuclei of tumour cells, but was also seen to varying degrees in nuclei of lymphocytes, chondrocytes, fibroblasts, and epithelial cells. No tumour with normal p16INK4a had decreased p19ARF expression. Among 16 tumours with nil to low p16INK4a expression, 11 tumours exhibited full methylation of at least one site within exon 1alpha and these tumours showed normal p19ARF expression. In contrast, no methylation of exon 1alpha was observed in five tumours which also lacked p19ARF. In normal lung, p16INK4a and p19ARF were not expressed at detectable levels, the multiplex RT-PCR results were balanced, and sites within exon 1alpha were strongly methylated. In tumours, imbalanced multiplex RT-PCR data (p16INK4a<p19ARF) predicted methylation of exon 1alpha (P=0.0006) as well as downregulation of p16INK4a. p19ARF downregulation was inversely correlated with p53 overexpression (P=0.025), whilst negative immunostaining for p16INK4a was inversely correlated with pRb down-regulation (P=0.003) and directly correlated with p53 overexpression as assessed by immunostaining (P=0.015). Our results show that: (1) p16INK4a and p19ARF expression are altered in almost half of resectable NSCLC; (2) methylation within exon 1alpha is a frequent, but not the only mechanism of p16INK4a downregulation; and that (3) the inverse association of p19ARF and p53 alteration is consistent with a linked pathway.
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PMID:Expression of p16INK4a/p16alpha and p19ARF/p16beta is frequently altered in non-small cell lung cancer and correlates with p53 overexpression. 984 Sep 42

The p21 gene encodes a cyclin dependent kinase inhibitor protein (p21) which has a tumor suppressive activity in a variety of tumor cell lines. Since, the p21 gene is up-regulated by the p53 tumor suppressor gene, which is frequently mutated in gliomas, acting therefore in the same control pathway, it constitutes a good candidate gene to be also inactivated in these tumors. To test this hypothesis, DNAs from 81 gliomas (48 glioblastomas, 11 anaplastic astrocytomas, 10 low-grade astrocytomas, 12 oligodendrogliomas and mixed gliomas), were investigated for mutations in the p21 coding sequence by denaturant gradient gel electrophoresis followed by sequencing. All these tumors have been previously screened for p53 mutations. Three different DNA variants were identified on codon 31 (17 cases), 27 (1 case) and 117 (1 case) and shown to be also present in matching constitutional DNA, suggesting they were polymorphisms. None of the tumors demonstrated a somatic mutation. No significant correlation between the presence of a p21 variant and the p53 mutation tumor status was observed. In conclusion, mutation in the p21 gene unlikely contributes to the development of gliomas.
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PMID:Analysis of the p21 gene in gliomas. 989 92

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.
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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.
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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.
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PMID:Cumulation of TP53 mutations and p16INK4A/p15INK4B homozygous deletions in human papilloma virus type 16 positive scrotal cancer. 1008 41

Molecular genetic alterations that disturb cell cycle regulation in tumor cells can affect their response to chemotherapeutic agents and radiation. Many genes that regulate the critical cell cycle checkpoint at G1S are altered in human tumors. These genetic changes can result in uncontrolled cellular proliferation, genetic instability, and altered response to radiation and chemotherapy. The p53 tumor suppressor gene serves a critical role at the G1S transition, where it can either block entry into S phase or activate programmed cell death (apoptosis) in response to DNA damage. p53 Gene mutations are common in human tumors and interfere with the activation of apoptosis in response to most chemotherapeutic agents. Paclitaxel is a potent chemotherapeutic agent that interferes with mitotic spindle function to block cells at G2M, the most radiosensitive phase of the cell cycle. Utilization of paclitaxel as a radiation sensitizer in vivo to treat aggressive, locally advanced neoplasms has resulted in high response rates and acceptable toxicity in protocols for non-small cell lung carcinoma, upper gastrointestinal tract carcinoma, and other malignancies. Recent evidence suggests that paclitaxel is unique in its ability to activate apoptosis in tumor cells with p53 mutations in vitro and in vivo. The p16(INK4a) (MTS-1, CDKN2) gene product acts in the same pathway as p53 to inhibit cell cycle progression at G1/S. p16(INK4a) is deleted and/or mutated in a significant fraction of human tumors, including pancreatic carcinoma. The effects of p16(INK4a) alterations in response to paclitaxel/radiation and the risk of systemic relapse are currently being evaluated. Information about molecular genetic alterations in individual tumors ultimately may be a critical factor in choosing between therapeutic options.
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PMID:Role of p53 and p16 gene alterations in determining response to concurrent paclitaxel and radiation in solid tumor. 1021 May 35

Mantle-cell lymphoma (MCL) is a lymphoproliferative disorder derived from a subset of naive pregerminal center cells characterized by a nodular or diffuse proliferation of atypical lymphoid cells with a monoclonal B-cell phenotype and coexpression of CD5. Two cytologic variants have been identified, typical and blastic. Typical cases show a proliferation of small to intermediately sized lymphoid cells with irregular nuclei and scarce cytoplasm. Blastic variants include a spectrum of intermediate to large cells with round or irregular nuclei and finely dispersed chromatin. These cases have a higher proliferative activity and a more aggressive clinical evolution. MCL is genetically characterized by 11q13 translocations and bcl-1 rearrangement. This alteration leads to a constant overexpression of cyclin D1, which plays an important pathogenetic role, probably deregulating cell-cycle control by overcoming the suppressor effect of retinoblastoma protein (Rb) and p27Kip1. Detection of cyclin D1 may be used as a highly specific marker of MCL because it is expressed in virtually all of these tumors, but in only a few reported cases of aggressive variants of chronic lymphocytic leukemia/small lymphocytic lymphoma (CLL/SLL) and a small percentage of cases of multiple myeloma. Aggressive variants have additional genetic alterations, including inactivation of p53 and p16INK4a tumor-suppressor genes. Clinically, MCL presents in elderly males with advanced disease and frequent extranodal involvement, particularly with involvement of bone marrow, gastrointestinal tract, and spleen. The clinical evolution is relatively aggressive, with poor response to conventional therapeutic regimens and a median survival duration of 3 to 4 years. Further studies are needed to define better new therapeutic strategies for the management of these patients.
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PMID:Mantle-cell lymphoma. 1031 80

The INK4a gene, one of the most frequently disrupted loci in human cancer, encodes two unrelated proteins, p16INK4a and p19ARF, that both block cell proliferation. p16INK4a is a component of the Rb regulatory pathway, while p19ARF has been functionally related to p53. Moreover, p16INK4a is inactivated in many human tumors, while it has been very recently reported that p19ARF null mice develop tumors early in life. We show here that p19ARF is able to inhibit the formation of G418-resistant colonies when transfected into human and mouse cell lines expressing wild-type p53, regardless of p16 status. Moreover its amino terminal domain encoded by exon 1beta is still sufficient to obtain the same effect. We have analysed the ability of p19ARF to interfere with Ras-mediated cellular transformation in the NIH3T3 cell line. Cotransfection of p19ARF together with activated ras potently inhibited the formation of transformed foci in a dose-dependent manner. We have also isolated stable NIH3T3 transfectants expressing p19ARF and we have measured their growth properties as well as their efficiency of transformation by activated ras. Our results suggest that p19ARF can interfere with oncogene-mediated transformation, without significantly affecting NIH3T3 cell growth, at least at the levels of expression achieved in these experiments.
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PMID:Suppression of Ras-mediated NIH3T3 transformation by p19ARF does not involve alterations of cell growth properties. 1032 41


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