Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0025202 (melanoma)
 69,561 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have described two human melanoma-associated antigens (HMAA), recognized by the murine monoclonal antibodies LS62 and LS109. LS62 recognizes the neuroglandular antigen (NGA), which is overexpressed in neoplastic melanocytes as well as in several tissues of neuroectodermal origin. These antibodies were used to screen six neuroblastoma cell lines and one neuroepithelioma cell line. A melanoma cell line, G361, known to express the two antigens, was used as the positive control. Variable expression of the two antigens was detected in neuroblastoma cells. The surface expression of NGA and of the LS109 antigen was modulated in parallel with the morphological differentiation induced by retinoic acid, 5-bromodeoxyuridine, or cyclic AMP analog/activators. The modulation of the expression of the two HMAA was detected in G361 melanoma cells and in one of the neuroblastoma cell lines, SK-N-SH. These results suggest altered expression of both antigens during melanoma and neuroblastoma cell differentiation in culture.
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PMID:Human melanoma-associated antigen expression on human neuroblastoma cells: effects of differentiation inducers. 184 43

The serum and cerebrospinal fluid of a patient (NB) with subacute cerebellar degeneration were found to contain a novel antineuronal autoantibody (anti-Nb). Using this antibody, we have identified and characterized antigens present in a subset of neurons in the CNS and in some neuroectodermal tumor lines. Anti-Nb antibody bound to antigens of Mr 150, 120, and 65 kDa in Western blots using extracts of human cerebellar Purkinje cells or human cerebral cortical neurons. Immunohistochemistry demonstrated relatively specific binding of anti-Nb IgG to Purkinje cells in sections of human cerebellum and to some neocortical neurons, especially those in layer VI. Because of the association of cerebellar degeneration with occult malignancies, we screened a number of tumor cell lines for immunoreactivity to anti-Nb antibody; only tumor lines of neuroectodermal origin (melanoma, small-cell lung cancer, and neuroblastoma) expressed the Nb antigen. Anti-Nb antibody thus identifies neuronal and tumor cell antigens that appear to be unique in size and distribution of expression.
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PMID:Antiserum from a patient with cerebellar degeneration identifies a novel protein in Purkinje cells, cortical neurons, and neuroectodermal tumors. 185 Dec 15

The purpose of this study was to identify human melanoma-associated Ag (MAA) that are immunogenic in patients, because these molecules may be useful immunogens to implement active specific immunotherapy. To this end, an expression cDNA library constructed from the human melanoma cell line A375 was screened with sera from patients with melanoma. A 1029-bp cDNA (designated D-1) was isolated. Its nucleotide sequence showed no significant homology with viral and mammalian sequences stored in GE-NETYX. cDNA D-1 hybridized to a 2.0-kb mRNA species from human melanoma, neuroblastoma, erythroleukemia, B lymphoid, and T lymphoid cell lines but not from a renal carcinoma cell line, PBL, and cultured skin fibroblasts. The D-1 clone produced a fusion protein that displayed a significantly higher reactivity with sera from patients with melanoma than from healthy controls. Furthermore, D-1 fusion protein induced in mice antibodies that immunoprecipitated a 50-kDa component from cultured human melanoma cells. The structural properties of D-1 MAA are different from those of previously described MAA. These results suggest that the approach we have applied may be useful to identify novel MAA expressed by melanoma cells. Furthermore, the immunogenicity of recombinant D-1 protein suggests that it may be a valuable immunogen to implement active specific immunotherapy in patients with melanoma, if additional experiments show that it has the appropriate tissue distribution.
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PMID:Cloning and in vitro expression of a melanoma-associated antigen immunogenic in patients with melanoma. 186 Oct 72

Melanoma and lung adenocarcinoma may be amenable for radiotherapy if it were possible to increase the presently used total dose. In order to investigate this, spheroids from two cell lines of human origin, one obtained from a BRO melanoma and one from an NCI-H125 lung adenocarcinoma were exposed to graded doses (3-9 Gy) of radiation with 18-MV photons. Radiation was applied either as a single dose or as split doses with an interval of 6 h to determine the extent of sublethal damage repair. Radiation response was quantified in terms of spheroid cure and specific growth delay. Both cells lines have previously been shown to be less sensitive than a neuroblastoma and a squamous cell carcinoma cell line grown as spheroids. Data obtained from the growth delay analysis were used to calculate the extent of split-dose recovery. Repaired dose for BRO spheroids did not increase after 7 Gy, whereas in NCI-H125, the repaired dose showed a steady increase. Recovery ratios did not differ between the two cell lines, but were lower than reported for normal tissues. Both cell lines revealed a low repair capacity was expressed by the beta-value of the linear-quadratic (LQ) equation. However, repair capacity for sublethal damage as expressed by the dose repaired and the beta-value of the LQ equation was not different from values reported earlier by us for neuroblastoma and squamous cell carcinoma when grown as spheroids. This indicates that the low radiosensitivity for the cell lines used in this study is determined by the alpha-value of the LQ equation. Our results support the clinical finding that the application of increased total radiation doses in the treatment of melanoma and lung adenocarcinoma may be feasible if radiation is applied in multiple small fractions to ensure normal tissue sparing.
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PMID:Sublethal damage repair in two radioresistant human tumor cell lines irradiated as multicellular spheroids. 187 10

We have used cDNA subtractive cloning to identify a group of human genes that are expressed in diverse differentiated derivatives of neural crest origin but not in neuroblastoma cell lines. One of these genes was identified as CD44, which encodes an integral membrane glycoprotein that serves as the principal receptor for hyaluronate and participates in specific cell-cell and cell-extracellular matrix interactions. The repression of CD44 expression in neuroblastoma cell lines might be relevant to their high metastatic potential. We have cloned full-length cDNAs corresponding to CD44 trancscripts and identified a novel splice variant of CD44 lacking 31 amino acids of the extracellular domain. As a first step toward analysis of CD44 downregulation in neuroblastoma cells, we have mapped the CD44 RNA initiation site and analyzed the structure of the upstream regulatory region. We constructed a series of plasmids containing different amounts of CD44 upstream regulatory region linked to the bacterial chloramphenicol acetyltransferase gene and then analyzed their ability to promote transcription in neuroblastoma and melanoma cells. We found that a DNA segment including about 150 bp of the CD44 upstream region and the 5' end of the gene itself was sufficient to induce substantial transcription of the chloramphenicol acetyltransferase gene in both neuroblastoma and melanoma cells. Several upstream cis-acting elements contribute to the downregulation of CD44 in neuroblastoma cells, the most prominent being a 120-bp DNA fragment located 450 bp upstream to the RNA initiation site. Our data suggest that multiple factors might be involved in downregulation of CD44 in neuroblastoma cells.
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PMID:Expression of CD44 is repressed in neuroblastoma cells. 192 57

We have previously reported the isolation of a 66 kDa melanoma-associated antigen, identified by autologous antibody, in serum and unfractionated spent tissue culture media by Western blot analysis. The antigen, detected by autologous serum S150, was found to be broadly represented on melanoma, glioma, renal cell carcinoma, neuroblastoma and head and neck carcinoma cell lines. S150 did not react with bladder or colon carcinoma, fetal fibroblasts, pooled platelets, lymphocytes and red blood cells, autologous cultured lymphocytes or fetal calf serum. To further characterize the antigen, spent tissue culture media, obtained from autologous melanoma cell line, Y-Mel 84:420, was separated by an isoelectric focusing column. Unabsorbed control serum S150 was noted to have a maximum titer of 1:2040 against autologous melanoma cells as measured by protein A hemadsorption. Following isoelectric focusing the greatest decrease in autologous antibody titer (30-fold) occurred with fractions having a pI between 2 and 3. Further resolution of the antigen was accomplished with high-pressure ion-exchange chromatography. One of these fractions showed a significantly higher concentration of antigen and was distinctly resolved from bulk serum albumin. Subsequent Western blot analysis, with autologous antibody, of the isolated antigen-containing fraction, confirmed the presence of a single 66 kDa band. Exposure of the antigen, purified by high-pressure ion-exchange chromatography, to neuraminidase ablated recognition by autologous antibody and suggests that sialic acid is present on the protein and may be part of the antigenic epitope. Binding of antigen, obtained following DEAE anion exchange chromatography, was noted to lectins derived from Triticum vulgaris, Dolichos biflorus and Lycopersicon esculentum. Preparative purification of the antigen was accomplished by anion exchange followed by lectin affinity chromatography with a Dolichos biflorus column. Antigen obtained following lectin affinity chromatography subjected to SDS-PAGE and silver stain revealed a single band at 66 kDa. We conclude that a melanoma-associated antigen detected by autologous antibody in spent tissue culture media is an unusually acidic glycoprotein (pI 2-3).
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PMID:Purification and partial characterization of a shed 66 kDa melanoma-associated antigen identified by autologous antibody. 193 77

A method for the purification of full-length nerve growth factor receptor (NGFRc) using membranes from three different cell lines was developed. We emphasized recovery of NGFRc that retained specific binding activity. Lipids were required to preserve binding activity during solubilization and throughout the purification procedure. Phosphatidylcholine was used for this purpose. Lectin affinity chromatography followed by high-resolution anion-exchange chromatography was used, and a 3000-fold increase in specific binding activity was obtained for NGFRc from human melanoma A875 membranes. Seven percent of the original binding activity was recovered as pure NGFRc. NGFRc binding activity eluted at 0.35 M NaCl in anion-exchange chromatography of solubilized A875, rat pheochromocytoma PC12, and human neuroblastoma MC-IXC membranes. Eight and three percent of the original binding activity were recovered as highly enriched NGFRc from membranes prepared from PC12 and MC-IXC cells, respectively. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of highly enriched, 125I-labeled NGFRc revealed several protein species. After chromatography, identification of proteins as NGFRc was verified both by immunoprecipitation using receptor-specific monoclonal antibodies and by covalent cross-linking to 125I-NGF using N-hydroxysuccinimidyl-4-azidobenzoate. Predominantly, NGFRc was recovered as a mixture of species of 80 and 160-180 kDa. Small amounts of larger species as well as smaller species were observed, consistent with minor amounts of receptor aggregation and proteolysis occurring during purification.
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PMID:Two-step purification of full-length nerve growth factor receptor and maintenance of receptor-specific binding activity. 196 21

In vitro culture of metastatic melanoma fragments with 150 units of recombinant interleukin 2 resulted in the successive expansion of CD4+ and then CD8+ tumor-infiltrating lymphocytes (TIL) throughout a 2-month period. TIL cultured for 43 days and consisting of 95% CD8+ and 10% CD4+ T lymphocytes were cloned by limiting dilution (LD). Thirteen CD8+ and thirty-one CD4+ clones were obtained, indicating that the frequency of clonogenic CD8+ proliferative T lymphocytes was much lower than that of their CD4+ homologues. When LD was performed in the presence of autologous melanoma cells the frequency of CD8+ clones was increased by factor 4. The DNA from TIL of day 43 bulk culture and of six CD8+ clones was hybridized with T cell receptor (TcR) beta and gamma probes. Identical configuration of the nonfunctional gamma and functional beta TcR genes was found in "bulk culture" and cloned TIL. The CD8+ clones therefore derived from a clonal population of CD8+ cells which had expanded in vitro before the LD. All the CD8+ clones tested were strongly cytotoxic for autologous melanoma cells but did not kill autologous fibroblasts or concanavalin A blasts, or any of the 10 allogeneic tumor targets tested, including 5 melanomas, 2 breast cell lines, 1 neuroblastoma, K-562 and the Epstein-Barr virus-transformed cell line used as a feeder. Furthermore, specific killing was inhibited by monoclonal antibodies against CD3, CD8, TcR alpha/beta and against class I major histocompatibility complex antigens indicating that these cytotoxic T lymphocyte clones recognized autologous tumor cells through the TcR, in an HLA class I-restricted manner. These data show that it is feasible to obtain tumor-specific cytotoxic T lymphocytes from melanoma TIL with a simple culture technique and that a single clone could be expanded to more than 10(10) cells which should allow testing of immunotherapeutic potential of these cells by adoptive transfer into melanoma patients.
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PMID:Selective expansion of a specific anti-tumor CD8+ cytotoxic T lymphocyte clone in the bulk culture of tumor-infiltrating lymphocytes from a melanoma patient: cytotoxic activity and T cell receptor gene rearrangements. 197 94

Targeting of radioactivity to tumors using antitumor antibodies is evolving from a laboratory curiosity toward a practical diagnostic and therapeutic technique that promises widespread benefits for many common human cancers. The development of the hybridoma technique by Kohler and Milstein for producing monoclonal antibodies is probably the single most important contribution to the development of this field. A large array of monoclonal antibodies against many human tumors have been created and labeled with a variety of radioisotopes; 110 clinical trials have been identified from the literature between the interval of 1978 to the present. These studies are beginning to form the basis for certain conclusions regarding likely benefits for certain combinations of antitumor antibodies and isotopes in specific instances of clinical management in patients with malignant neoplasms. For example, in melanoma, lymphoma, neuroblastoma, and colorectal malignancies, radiolabeled antibodies have demonstrated occult tumors, which could not be disclosed with conventional methodologies. Radioimmunotherapy of malignant lymphoma is achieving durable remissions in patients who have failed conventional forms of therapy. For the most part, these advances have been achieved through intelligent application of known principles of immunochemistry, imaging physics, and tumor immunology. Progress has been slow but steady. In a few instances, the term "magic bullet" is warranted in describing the targeting of a particular radiolabeled antibody to a human tumor. I-131, 3-F8, an IgG3 against the GD2 antigen of neuroblastoma, which was introduced by Cheung, and In-111 T-101, against the CD5 antigen of T-cells, which was developed by Royston, stand out because of the consistency and high concentration of radioactive targeting to human tumors in clinical trials. If certain technical innovations fulfill their initial promise, the future will be bright for radioimmunologic methods of diagnosis and therapy. Genetic engineering will permit the development of "humanized" antibodies with biologic properties that favor tumor localization. New chemical approaches will broaden the range of isotopes available as diagnostic and therapeutic radiolabels. Application of modern imaging methodologies, such as positron emission tomography (PET), will detect more lesions of smaller size and permit quantitative imaging for dosimetry considerations. Greater speed and ease of use of computerized work stations will lead to the broader application of fusion imaging in which radioantibody images will be viewed simultaneously with TCT or MRI for better anatomic correlation of abnormal sites of antigen-reactive tumor deposits.
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PMID:Radioimmunology. Imaging and therapy. 199 Dec 86

The positron-emitting glucose analogue 18F-2-fluoro-2-deoxy-d-glucose (FDG) was evaluated for its accretion into the following subcutaneous human tumor xenografts in nude mice: B-cell lymphoma (Namalwa or Raji), ovarian carcinoma (HTB77), colon cancer (SW948), choriocarcinoma (BEWO), bladder cancer (UM-UC-2), renal cell carcinoma (UM-RC-3), neuroblastoma (Mey), melanoma (HTB63), and small cell lung carcinoma (NCI69). Two hours postinjection, tumor uptakes ranged from 0.027 (colon cancer) to 0.125% kg injected dose/g (melanoma); and was greater than 0.085 in the Namalwa lymphomas and the renal cell carcinomas. Tumor-blood ratios of up to 23:1 were seen 2 hours postinjection (melanoma) with a mean tumor-blood ratio for all tumors of 12.3 +/- 1.8. Uptake in the other tumors was intermediate. When evaluated, tumor uptake was slightly greater at 1 than at 2 hours postinjection, although target-background ratios were generally higher at 2 hours postinjection. This compound, FDG, may have broad applicability as a tracer for positron-emission tomographic imaging of many human malignancies.
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PMID:18F-2-deoxy-2-fluoro-D-glucose uptake into human tumor xenografts. Feasibility studies for cancer imaging with positron-emission tomography. 200 43


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