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)

To clarify gene alterations in functional human adrenal tumors, we performed molecular analysis for p53 abnormalities in 23 cases with adrenal neoplasms. The immunohistochemical study with anti-p53 monoclonal antibody pAb1801 demonstrated that 10 of 23 (43.5%) cases overexpressed p53 protein in the tumor cells. Using a polymerase chain reaction-single strand conformation polymorphism study, 5 of 6 (83.3%) pheochromocytoma tissues (1 malignant and 5 benign) and 11 of 15 (73.3%) adrenocortical adenomas (2 with Cushing's syndrome and 13 with primary aldosteronism, all benign) showed an apparent electrophoretic mobility shift between the tumor and its paired adjacent normal adrenal tissue. Such differences were detected in exon 4 (12 cases), exon 5 (2 cases), and exon 7 (3 cases). The types of these mutations in exon 4 were a substitution from threonine (ACC) to isoleucine (ATC) at codon 102 in 5 cases, from glutamine (CAG) to histidine (CAC) at codon 104 in 1 case, from glycine (GGG) to alanine (CGG) at codon 117 in 1 case, from glutamate (GAG) to glutamine (CAG) at codon 68 in 1 case, and single base changes resulting in a premature stop codon at codon 100 in 2 cases. A 2-basepair deletion at codon 175 in exon 5 resulting in a frame shift was identified in 1 case. A single point mutation was identified, resulting in the substitution of glutamine (CAG) for arginine (CGG) at codon 248 of exon 7 in 1 case. A single basepair deletion at codon 249 resulted in a frame shift in 2 cases. There was 1 case with malignant pheochromocytoma that combined a single point mutation in exon 4 and a single base deletion in exon 7. Only 2 of 23 cases showed a loss of a normal allele encoding in the p53 gene. Northern blot analysis with 1.8-kilobase p53 cDNA revealed that p53 mRNA was overexpressed in 6 cases. Our results indicate that high frequencies of p53 gene mutation, especially in exon 4, exist in functional adrenal tumors. As p53 protein is a regulator of guanine nucleotide synthesis, the loss of normal inhibitory regulation by the p53 mutation would serve to increase the availability of GTP for the transduction of signals essential for increased cell growth and hormone expression in the adrenal tumors. These findings suggest that the p53 gene mutation may play a role in the tumorigenesis of benign and functional human adrenal tumors.
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PMID:Mutations of the p53 gene in human functional adrenal neoplasms. 810 38

We report a 64-year-old Japanese man with chronic myelogenous leukemia (CML) who expired with myelomonocytic crisis. Cytogenetic analyses of chronic phase (CP) and accelerated phase (AP) cells revealed a Philadelphia chromosome and an isochromosome for the long arm of chromosome 17, i(17q). This karyotype was replaced by another karyotype in blast crisis (BC), resulting in near triploidy with t(5;17) (p15;p11) and loss of chromosome 17 pter-->p11. Interphase fluorescent in situ hybridization studies with a chromosome 17 specific alpha satellite DNA probe confirmed the presence of a clonal change in BC. In addition, single-strand conformation polymorphism analysis and PCR-direct sequencing of BC cells revealed a point mutation at codon 203 of the p53 gene, GTG to GAG (Val to Glu), and loss of the normal allele. In contrast, no alterations of the p53 gene were found in CP and AP cells. Therefore, progression of CML in this patient appeared to be related to loss of 17p, as well as a mutation in the p53 gene.
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PMID:Myelomonocytic crisis with t(5;17) and a p53 mutation in a patient with chronic myelogenous leukemia. 817 5

The GTPases comprise a superfamily of GTP-binding proteins with intrinsic GTPase activity. Some members of this family representing either heterotrimeric or small G-proteins are involved in the transmission of mitogenic signals. Mutations that lead to constitutively activated G-proteins have been shown to contribute to malignant transformation. These genes represent, therefore, putative oncogenes. Examples are the gsp and gip2 oncogenes, encoding GTPase deficient alpha-subnits of Gs or Gi-2 proteins. Representatives from the family of small G-proteins are the products of the Harvey-, Kirsten- or N-ras oncogenes. These oncogenes, which are frequently expressed in human malignancies, code for proteins (p21ras) that are locked in the activated GTP-bound state because their GTPase is refractory to the ras-specific GTPase activating protein (GAP). In other cases p21ras-GTP levels have been found to be elevated as a result of an increase in GDP/GTP exchange rate. In neurofibromatosis v. Recklinghausen, a mutated gene (NF1) is detectable. The protein encoded by NF1 contains a GAP homology region, binds p21ras-GTP, and stimulates the hydrolysis of p21ras-bound GTP. Both ras-GAP (p120 GAP) and NF1-GAP are inhibited by acidic lipids. Elevated levels of these lipids may exert growth-stimulatory or perhaps tumor-promoting activity by increasing p21ras GTP. The function of transforming p21ras is under control of tumor suppressor genes. Putative suppressor genes isolated from revertants from ras-transformed cells include rsp-1 and the ras recision gene (rrg). Experimentally, an overexpression of Rap 1A/Krev-1 is able to antagonize transformation by p21ras. This mechanism also may be relevant under normal conditions. p53 also is capable of inhibiting transforming p21ras. It is postulated that p105-RB exerts a similar anti-ras effect. The mechanism by which retinoic acid suppresses transformation by ras is discussed. Current strategies for a pharmacological interference of p21ras function are described.
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PMID:Role of GTPases and GTPase regulatory proteins in oncogenesis. 835 39

Using immunocytochemical and Western blotting techniques we have demonstrated the presence of abnormally high levels of p53 protein in 8/24 (33%) of human squamous cell carcinomas (SCC) and 9/18 (50%) of SCC cell lines. There was a correlation between the immunocytochemical results obtained with eight SCC samples and their corresponding cell lines. Direct sequencing of PCR-amplified, reverse transcribed, p53 mRNA confirmed the expression of point mutations in six of the positive cell lines and detected in-frame deletions in two others. We also detected two stop mutations and three out-of-frame deletions in five lines which did not express elevated levels of p53 protein. Several of the mutations found in SCC of the tongue (3/7) were in a region (codons 144-166) previously identified as being a p53 mutational hot spot in non-small cell lung tumours (Mitsudomi et al., 1992). In 11/13 cases only the mutant alleles were expressed suggesting loss or reduced expression of the wild type alleles in these cases. Six of the mutations were also detected in the SCCs from which the lines were derived, strongly suggesting that the mutations occurred, and were selected, in vivo. The 12th mutation GTG-->GGG (valine-->glycine) at codon 216 was expressed in line SCC-12 clone B along with an apparently normal p53 allele and is to our knowledge a novel mutation. Line BICR-19 also expressed a normal p53 allele in addition to one where exon 10 was deleted. Additionally 15 of the SCC lines (including all of those which did not show elevated p53 protein levels) were screened for the presence of human papillomavirus types 16 and 18 and were found to be negative. These results are discussed in relation to the pathogenesis of SCC and the immortalisation of human keratinocytes in vitro.
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PMID:Gene mutations and increased levels of p53 protein in human squamous cell carcinomas and their cell lines. 839 Feb 83

Cells with a functional p53 pathway undergo a G0/G1 arrest or apoptosis when treated with gamma radiation or many chemotherapeutic drugs. It has been proposed that DNA damage is the exclusive signal that triggers the arrest response. However, we found that certain ribonucleotide biosynthesis inhibitors caused a p53-dependent G0 or early G1 arrest in the absence of replicative DNA synthesis or detectable DNA damage in normal human fibroblasts. CTP, GTP, or UTP depletion alone was sufficient to induce arrest. In contrast to the p53-dependent response to DNA damage, characterized by long-term arrest and irregular cellular morphologies, the antimetabolite-induced arrest was highly reversible and cellular morphologies remained relatively normal. Both arrest responses correlated with prolonged induction of p53 and the Cdk inhibitor P21(WAF1/CIP1/SDI1) and with dephosphorylation of pRb. Thus, we propose that p53 can serve as a metabolite sensor activated by depletion of ribonucleotides or products or processes dependent on ribonucleotides. Accordingly, p53 may play a role in inducing a quiescence-like arrest state in response to nutrient challenge and a senescence-like arrest state in response to DNA damage. These results have important implications for the mechanisms by which p53 prevents the emergence of genetic variants and for developing more effective approaches to chemotherapy based on genotype.
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PMID:A reversible, p53-dependent G0/G1 cell cycle arrest induced by ribonucleotide depletion in the absence of detectable DNA damage. 860 41

The pattern of p53 protein expression was examined in 92 cases of thyroid carcinoma. When the cases were divided into two groups with regard to their cytoplasmic staining only or nucleus staining only, the frequency of the nucleus staining group was significantly higher in the poorly differentiated carcinoma (PDC) and undifferentiated carcinoma (UDC) groups (10.5% and 25%) compared with the other groups of histologic subtype (0%). The results suggest positivity in nucleus staining for p53 may be a marker for the biologically worse carcinomas, PDC and UDC, however, tumors showing only cytoplasmic staining of p53 favor a fair prognosis. In this paper, we also elucidate the spectrum of genotypic aberrations of p53 in each histological subtype. Of 92 thyroid tumor samples analyzed, the overall frequency of p53 mutation was 8.5%. The mutations occurred in 4.35% (2/46) ot WDC, 17.2% (5/29) of PDC, and 16.7% (1/6) of oncocytic carcinoma. Two of five PDC cases and one papillary carcinoma revealed point mutations in exon 8 as follows; GTG (val) to CTG (leu) at codon 272 in case 23T, CGA (arg) to CCA (pro) at codon 306 in case of 30T, and CGG (arg) to AGG (arg) at codon 282 in case 28T. All of the p53 mutations detected were represented by single nucleotide changes including two missense and one silent mutation. In contrast to the missense mutations found in PDC, it is interesting to note that the silent mutation was checked in 28T of well differentiated papillary carcinoma. These results represents molecular evidence that p53 gene aberration associated with overexpression of the mutant form of p53 protein plays a crucial role in the biologically aggressive subtypes of thyroid carcinoma, and point mutation only was not sufficient to be a prognostic marker for the biologically aggressive malignancy of thyroid tumors. There was no p53 gene aberration found in four cases of undifferentiated carcinoma (UDC) studied. The results suggest that other unknown factors should be responsible for the aggressiveness in some UDC of thyroid carcinoma except overexpression of p53.
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PMID:p53 gene mutation in thyroid carcinoma. 861 9

Degenerate PCR was employed to identify novel tyrosine kinase genes from an enriched population of human umbilical cord blood hematopoietic stem/progenitor cells. One novel tyrosine kinase gene, designated Tnk1, was cloned. The sequence of the complete Tnk1 coding region predicts a 72 kD protein. Comparison of Tnk1 to available sequences in protein databases reveals that it is most homologous to Ack, an intracellular tyrosine kinase which associates with the GTP-bound form of p21cdc42Hs. Like Ack, Tnk1 consists of an N-terminal kinase domain, a putative SH3 domain immediately C-terminal to the kinase domain, and a proline-rich C-terminal region. Analysis of Tnk1 mRNA expression demonstrates that Tnk1 is expressed in all cord blood, bone marrow and adult blood sub-populations, as well as in most of the leukemia cell lines examined (16 of 20). Hybridization to fetal multi-tissue Northern blots detected several different Tnk1 transcripts in all fetal tissues examined. In contrast, a single Tnk1 transcript was detected in only five of 16 adult tissues examined (prostate, testis, ovary, small intestine and colon). Fluorescence in situ hybridization (FISH) analysis of metaphase chromosomes localized the Tnk1 gene to the short arm of chromosome 17 (17p13.1), near the p53 locus. Thus, Tnk1 is a novel tyrosine kinase that may be involved in signalling pathways utilized broadly during fetal development, more selectively in adult tissues and in cell of the lymphohematopoietic system.
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PMID:Tnk1: a novel intracellular tyrosine kinase gene isolated from human umbilical cord blood CD34+/Lin-/CD38- stem/progenitor cells. 863 13

We report that gram-negative bacterial lipopolysaccharide (LPS) binds to CD14 on lipid-enriched, low-density domains of the human monocyte-macrophage (THP-1 cell) plasma membrane. After brief incubation with [3H]LPS under conditions that prevent its internalization, THP-1 cells were disrupted using a detergent-free method and plasma membrane fragments were separated on density gradients. The [3H]LPS-binding fragments had low bouyant densities and were enriched, when compared to high-density membrane fragments, in CD14 (a receptor for LPS and other microbial molecules), p53/56lyn, GTP-binding proteins, ouabain-inhibitable Na+/K+ ATPase, sphingomyelin, and GM1 ganglioside. Monoclonal anti-CD14 antibody 60bca blocked [3H]LPS binding to these membrane fragments. Immunoelectron microscopic analysis identified clusters of CD14 on both large (200-1,000 nm) and small (< or = 200 nm) low-density membrane fragments. GM1 and CD14 were usually found on the same fragments, yet their distributions on those fragments infrequently overlapped. These cells seem to lack arrays of caveolae, the ordered membrane structures that harbor glycosylphosphatidyl-anchored proteins and GM1 in many other cell types. Finding that LPS binds to CD14 predominantly in low-density plasma membrane domains suggests, however, that discrete regions of the monocyte-macrophage plasma membrane may be organized to facilitate rapid responses to, and internalization of, molecules that bind CD14.
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PMID:Bacterial lipopolysaccharide binds to CD14 in low-density domains of the monocyte-macrophage plasma membrane. 911 40

We have screened the p53 status of 156 human cell lines, including 142 tumor cell lines from 27 different tumor types and 14 cell lines from normal tissues by using functional analysis of separated alleles in yeast. This assay enables us to score wild-type p53 expression on the basis of the ability of expressed p53 to transactivate the reporter gene HIS3 via the p53-responsive GAL1 promotor in Saccharomyces cerevisiae. Of 142 tumor cell lines, at least 104 lines (73.2%) were found to express the mutated p53 gene: 94 lines (66.2%) were mutated in both alleles, three lines (2.1%) were heterozygous, and no p53 cDNA was amplified from seven lines (4.9%). Of the 14 cell lines originating from normal tissues, all the transformed or immortalized cell lines expressed mutant p53 only. Yeast cells expressing mutant p53 derived from 94 cell lines were analyzed for temperature-sensitive growth. p53 cDNA from eight cell lines showed p53-dependent temperature-sensitive growth, growing at 30 degrees C but not at 37 degrees C. Four temperature-sensitive p53 mutations were isolated: CAT-->CGT at codon 214 (H214R), TAC-->TGC at codon 234 (Y234C), GTG-->ATG at codon 272 (V272M), and GAG-->AAG (E285K). Functionally wild-type p53 was detected in 38 tumor cell lines (26.8%) and all of the diploid fibroblasts at early and late population doubling levels. These results strongly support the previous findings that p53 inactivation is one of the most frequent genetic events that occurs during carcinogenesis and immortalization.
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PMID:Screening the p53 status of human cell lines using a yeast functional assay. 929 Jul 1

We have proposed that reduced activity of inosine-5'-monophosphate dehydrogenase (IMPD; IMP:NAD oxidoreductase, EC 1.2.1.14), the rate-limiting enzyme for guanine nucleotide biosynthesis, in response to wild-type p53 expression, is essential for p53-dependent growth suppression. A gene transfer strategy was used to demonstrate that under physiological conditions constitutive IMPD expression prevents p53-dependent growth suppression. In these studies, expression of bax and waf1, genes implicated in p53-dependent growth suppression in response to DNA damage, remains elevated in response to p53. These findings indicate that under physiological conditions IMPD is a rate-determining factor for p53-dependent growth regulation. In addition, they suggest that the impd gene may be epistatic to bax and waf1 in growth suppression. Because of the role of IMPD in the production and balance of GTP and ATP, essential nucleotides for signal transduction, these results suggest that p53 controls cell division signals by regulating purine ribonucleotide metabolism.
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PMID:Inosine-5'-monophosphate dehydrogenase is a rate-determining factor for p53-dependent growth regulation. 943 88


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