Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0007097 (carcinoma)
152,788 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human papillomavirus (HPV) type 6 and type 16 DNA sequence variants were found by partially sequencing the L1 and E7 open reading frames, using templates generated with the polymerase chain reaction. Identical variants were found in patients from widely separated locations, such as the United States, the Philippines, and India. The same sequence variants of HPV 16 were found in women with invasive cervical carcinoma and in women with no evidence of disease. Variation in the predicted amino acid sequences of the HPV 16 L1 and E7 proteins was found. A single nucleotide change at position 6433 was found in about 50% of the HPV 16 DNAs, resulting in a change in predicted amino acid sequence from threonine to alanine at the equivalent position in the L1 protein. Predicted amino acid changes were found in the HPV 16 E7 proteins at amino acid positions 28, 29, and 47. Variation at these positions could affect known properties of the E7 protein, including binding to the retinoblastoma protein.
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PMID:Nucleotide and amino acid sequence variation in the L1 and E7 open reading frames of human papillomavirus type 6 and type 16. 165 85

The putative tyrosine kinase receptor encoded by the oncogene c-met is activated (tyrosine-phosphorylated in vivo) in the human gastric carcinoma cell line GTL-16. The corresponding gene is amplified and over-expressed. In this study we show that c-met is part of an amplification unit measuring more than 3000 kb. The multiple copies of the amplicon are located on a novel chromosome different from chromosome 7. We have previously shown that the c-met protein present in GTL-16 cells is indistinguishable from that found in other cells. Kinase activation could be due to over-expression of the normal c-met protein or to the presence of activating mutation(s). To verify the primary structure of the c-met protein in GTL-16 cells we sequenced a series of overlapping cDNAs obtained from GTL-16 cell RNA by reverse transcription and polymerase chain reaction. Two differences were found in the c-met coding region with respect to the published human c-met cDNA: (1) the lack of 54 nucleotides corresponding to a stretch of 18 amino acids located in the extracellular domain of the receptor, and (2) the substitution of the codon specifying alanine 1209 (located in the tyrosine kinase domain) with one coding for glycine. However, we also obtained cDNAs identical to that just described from a number of control cell lines. These results suggest: (1) that the present c-met cDNA presumably reflects the sequence of the most abundant transcript in several cell types, and (2) that over-expression of the normal c-met protein, alone or in combination with an autocrine loop, is most probably responsible for the activation of the c-met kinase in GTL-16 cells.
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PMID:c-met is amplified but not mutated in a cell line with an activated met tyrosine kinase. 167 65

The protein core of high mol. wt polymorphic epithelial mucin (PEM--approximately 400 kDa glycoprotein) which is associated with breast carcinomas, consists of a repeating 20 amino acid peptide motif [Gendler et al. (1988) J. biol. Chem. 263, 12,820-12,823]. Monoclonal antibodies C595 (anti-urinary mucin) and NCRC-11 (anti-breast carcinoma cells), and other antibodies against human milk fat globule membranes, were found to recognize determinants present within this 20 amino acid peptide. A model of the peptide was developed based on hydropathicity and structure prediction calculations and these indicated that the repeated structure is dominated by a hydrophilic domain of seven amino acids, extending into two flanking beta turns. NMR analysis of the 20 amino acid peptide was undertaken to probe the secondary structure. Epitope mapping experiments involving solid phase synthesis of overlapping heptapeptides in the repeat unit identified the minimum structures for antibody binding as Arg-Pro-Ala-Pro and Arg-Pro-Ala for the C595 and NCRC-11 antibodies, respectively. These determinants were found within the predicted hydrophilic turn region domain of the peptide. The epitopes for six other PEM-reactive monoclonal antibodies were also determined to reside within the predicted hydrophilic turn domain. This evidence is in accord with the disposition of this region of the PEM peptide core being at the exterior of the glycoprotein where it would be accessible to antibody recognition and binding events.
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PMID:Immunological and structural features of the protein core of human polymorphic epithelial mucin. 169 59

The entire amino acid sequence of the unique region of the EBNA 1 protein was synthesized as a set of 41 20-residue peptides with an overlap of 10 amino acids. The peptides were tested in the enzyme-linked immunosorbent assay for reactivity with immunoglobulin A (IgA) and IgG in sera from 50 patients with nasopharyngeal carcinoma (NPC) as compared with 36 serum samples from healthy Epstein-Barr virus (EBV)-seropositive donors and 5 serum samples from EBV-negative donors. The most immunoreactive peptide for both IgA and IgG binding was localized to the glycine-alanine repeat domain of the antigen. In the unique regions, 16 immunoreactive peptides were found. Of these, four were reactive with IgG but not IgA and three peptides were reactive with IgA but not IgG in NPC sera. In addition, several IgA and IgG epitopes on the carboxy-terminal region were specifically reactive with NPC sera, but unreactive with sera from healthy EBV-positive donors. The results suggest that EBV serology specific for individual epitopes may provide additional useful information not available by conventional serology with whole antigens or the EBNA complex.
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PMID:Epstein-Barr virus nuclear antigen 1 linear epitopes that are reactive with immunoglobulin A (IgA) or IgG in sera from nasopharyngeal carcinoma patients or from healthy donors. 171 23

Melphalan, a nitrogen mustard derivative of the neutral amino acid L-phenylalanine, was transported across the rat blood-brain barrier by the large (L-system) neutral amino acid transporter in tumor-bearing brain, but no evidence for blood-brain barrier transport by the alanine-serine-cysteine system carrier was obtained in the present study. The ability of melphalan to inhibit phenylalanine uptake was compared in rats implanted with two experimental CNS tumors: the C-6 glioma (a model of primary brain tumors) and Walker carcinoma (a model of metastatic brain tumors). The melphalan concentration which caused 50% inhibition of blood-brain barrier (BBB) phenylalanine uptake (Ki) was 0.49 +/- 0.18 mM in the Walker tumor, compared with 0.46 +/- 0.19 mM in the contralateral control brain. In the ipsilateral hemisphere (Ki = 0.59 +/- 0.25 mM) and contralateral hemisphere (Ki = 0.45 +/- 0.19 mM), drug entry was also via the neutral amino acid transporter. In C-6 gliomas (Ki = 0.77 +/- 0.20 mM) and contralateral control brain (Ki = 0.84 +/- 0.29 mM), melphalan also inhibited BBB phenylalanine transport. A major finding was that, at melphalan concentrations greater than 1.0 mM, BBB permeability of radiolabeled indium (chelated to EDTA) increased in proportion to melphalan concentration. In the contralateral hemisphere of rats implanted with C-6 gliomas, brain extractions of indium-EDTA measured 3 to 4% in the absence of drug, 5 to 6% at 2.5 mM melphalan, and 9 to 10% at 5 mM melphalan. A similar phenomenon was observed in the nontumoral brain regions of rats implanted with Walker carcinoma cells. In normal (nonimplanted) rats, melphalan's inhibition (Ki = 0.29 mM) of phenylalanine and tryptophan (Ki = 0.20 mM) uptake was confirmed, and brain extraction of sucrose (a nonspecific marker which does not penetrate the intact BBB) was observed to increase in proportion to melphalan concentration. We conclude that melphalan not only enters the brain via the neutral amino acid transporter, but at higher concentrations (greater than 1 mM) may open the blood-brain barrier in a nonspecific manner.
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PMID:Melphalan penetration of the blood-brain barrier via the neutral amino acid transporter in tumor-bearing brain. 172 74

The metabolic fate of 2'-deoxy-5-[18F]fluorouridine ([18F]FdUrd), a useful positron emission tomography (PET) tracer of nucleic acid metabolism in tumors, was investigated in mice and humans. A rapid increase in labeled catabolites was found in mouse and human plasma. In mouse FM3A mammary carcinoma, the corresponding catabolites were also detected in addition to metabolites which were activated by the nucleic acid metabolism. From a biodistribution study of beta-[3H]alanine, alpha-[18F]fluoro-beta-alanine, a major catabolite, was assumed to be taken up twice as much by tumor than by the brain. Nucleic acid metabolism in brain tumors by [18F]FdUrd-PET may be assessed using normal brain regions as a reference.
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PMID:Metabolic fates of 2'-deoxy-5-[18F]fluorouridine in tumor-bearing mice and human plasma. 183 61

Factor VII is a multidomain, vitamin K-dependent plasma glycoprotein that participates in the extrinsic pathway of blood coagulation. Earlier studies demonstrated a novel disaccharide (Xyl-Glc) or trisaccharide (Xyl2-Glc) O-glycosidically linked to serine 52 in human plasma factor VII (Nishimura, H., Kawabata, S., Kisiel, W., Hase, S., Ikenaka, T., Shimonishi, Y., and Iwanaga, S. (1989) J. Biol. Chem. 264, 20320-20325). In the present study, human plasma and recombinant factor VII were isolated and subjected to enzymatic fragmentation. Peptides comprising residues 48-62 of the first epidermal growth factor-like domain of each factor VII preparation were isolated for comparative analysis. Using a combined strategy of amino acid sequencing, carbohydrate and amino acid composition analysis, and mass spectrometry, three different glycan structures consisting of either glucose, glucose-xylose, or glucose-(xylose)2 were detected O-glycosidically linked to serine 52 in plasma and recombinant factor VII. Approximately equal amounts of the three glycan structures were observed in plasma factor VII, whereas in recombinant factor VII the glucose and the glucose-(xylose)2 structures predominated. In addition to the O-linked glycan structures observed at serine 52, a single fucose was found to be covalently linked at serine 60 in both human plasma and recombinant factor VII. Carbohydrate and mass spectrometry analyses indicated that the fucosylation of serine 60 was virtually quantitative. Metabolic labeling studies using [14C]fucose confirmed the presence of O-linked fucose at serine 60. In order to assess whether the carbohydrate moiety at serine 52 contributes to the biological activity of factor VII, we have constructed a site-specific mutant of recombinant factor VII in which serine 52 has been replaced with an alanine residue. Mutant factor VIIa exhibited approximately 60% of the coagulant activity of wild-type factor VIIa in a clotting assay. The amidolytic activity of mutant factor VIIa was indistinguishable from that observed for recombinant wild-type factor VIIa. In addition, the ability of mutant factor VIIa in complex with either purified relipidated tissue factor apoprotein or tissue factor on the surface of a human bladder carcinoma cell line (J82) to activate either factor X or factor IX was virtually identical to that observed for wild-type factor VIIa. These results indicate that the carbohydrate moiety O-glycosidically linked to serine 52 does not appear to be involved either in the interaction of factor VIIa with tissue factor, or the expression of its proteolytic activity toward factor X or factor IX following complex formation with tissue factor.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Human plasma and recombinant factor VII. Characterization of O-glycosylations at serine residues 52 and 60 and effects of site-directed mutagenesis of serine 52 to alanine. 190 59

Previous studies demonstrated proteolytic activation of human blood coagulation factor VII by an unidentified protease following complex formation with tissue factor expressed on the surface of a human bladder carcinoma cell line (J82). In the present study, an active-site mutant human factor VII cDNA (Ser344----Ala) has been constructed, subcloned, and expressed in baby hamster kidney cells. Mutant factor VII was purified to homogeneity in a single step from serum-free culture supernatants by immunoaffinity column chromatography. Mutant factor VII was fully carboxylated, possessed no apparent clotting activity, and was indistinguishable from plasma factor VII by SDS-PAGE. Cell binding studies indicated that mutant factor VII bound to J82 tissue factor with essentially the same affinity as plasma factor VII and was cleaved by factor Xa at the same rate as plasma factor VII. In contrast to radiolabeled single-chain plasma factor VII that was progressively converted to two-chain factor VIIa on J82 monolayers, mutant factor VII was not cleaved following complex formation with J82 tissue factor. Incubation of radiolabeled mutant factor VII with J82 cells in the presence of recombinant factor VIIa resulted in the time-dependent and tissue factor dependent conversion of single-chain mutant factor VII to two-chain mutant factor VIIa. Plasma levels of antithrombin III had no discernible effect on the factor VIIa catalyzed activation of factor VII on J82 cell-surface tissue factor but completely blocked this reaction catalyzed by factor Xa. These results are consistent with an autocatalytic mechanism of factor VII activation following complex formation with cell-surface tissue factor, which may play an important role in the initiation of extrinsic coagulation in normal hemostasis.
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PMID:Initiation of the extrinsic pathway of blood coagulation: evidence for the tissue factor dependent autoactivation of human coagulation factor VII. 193 2

The human androgen receptor is a member of the superfamily of steroid hormone receptors. Proper functioning of this protein is a prerequisite for normal male sexual differentiation and development. The cloning of the human androgen receptor cDNA and the elucidation of the genomic organization of the corresponding gene has enabled us to study androgen receptors in subjects with the clinical manifestation of androgen insensitivity and in a human prostate carcinoma cell line (LNCaP). Using PCR amplification, subcloning and sequencing of exons 2-8, we identified a G----T mutation in the androgen receptor gene of a subject with the complete form of androgen insensitivity, which inactivates the splice donor site at the exon 4/intron 4 boundary. This mutation causes the activation of a cryptic splice donor site in exon 4, which results in the deletion of 41 amino acids from the steroid binding domain. In two other independently arising cases we identified two different nucleotide alterations in codon 686 (GAC; aspartic acid) located in exon 4. One mutation (G----C) results in an aspartic acid----histidine substitution (with negligible androgen binding), whereas the other mutation (G----A) leads to an aspartic acid----asparagine substitution (normal androgen binding, but a rapidly dissociating androgen receptor complex). Sequence analysis of the androgen receptor in human LNCaP-cells (lymph node carcinoma of the prostate) revealed a point mutation (A----G) in codon 868 in exon 8 resulting in the substitution of threonine by alanine. This mutation is the cause of the altered steroid binding specificity of the LNCaP-cell androgen receptor. The functional consequences of the observed mutations with respect to protein expression, specific ligand binding and transcriptional activation, were established after transient expression of the mutant receptors in COS and HeLa cells. These findings illustrate that functional errors in the human androgen receptor have an enormous impact on phenotype and fertility.
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PMID:Androgen receptor abnormalities. 195 38

The human TP53 gene is a possible tumor suppressor since TP53 gene mutations are observed in greater than 70% of sporadic colorectal carcinoma DNAs. In genomic DNAs from seven colon cancer cell samples, a 405 base pair DNA fragment containing exon 5, intron 5, and exon 6 of the TP53 gene was amplified by polymerase chain reaction and analyzed for mutations. One sample [human colon cancer (HCC) 278] was found to have a TP53 mutation altering the amino acid glutamine 167 in exon 5. A deletion of 2 bases changed glutamine 167 (CAG) to alanine (GCA) and the resulting frame-shift produced an in-frame stop codon at amino acid 179. While the normal TP53 gene gives rise to a 53 kD protein, the estimated size of this mutant TP53 protein if expressed would be approximately 20 kD.
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PMID:Mutation in the TP53 gene in colorectal carcinoma detected by polymerase chain reaction. 195 96


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