Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0027819 (neuroblastoma)
 27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A mouse monoclonal antibody, FKH1, was produced to detect cytoplasmic melanoma-associated antigen. FKH1 was raised using cultured human melanoma cell line KHm-6 as an immunogen. Reactivity of this antibody was assessed by immunohistochemical techniques against cell lines and normal and neoplastic tissues. Positive reactions were seen against 5 human melanoma cell lines. It stained cytoplasm of melanoma cells in a diffuse and granular pattern in indirect immunofluorescence. Immunoelectron microscopy showed diffuse distribution of immunoreactant in the cytoplasm of KHm-1 cells excluding melanosomes and other organelles. Reactivity against frozen and alcohol-fixed, paraffin-embedded melanocytic tumors was also tested with IIF or indirect or avidin biotinylated horseradish peroxidase complex immunoperoxidase techniques. All cases of frozen sections from benign and malignant melanocytic tumors showed positive staining with FKH1. In fixed tissues, however, reactivity was 11 of 14 (79%) in malignant melanoma and 28 of 42 (67%) in other melanocytic tumors. FKH1 did not react against normal melanocytes and nonmelanocytic tumors except APUDoma and 2 glioblastoma cell lines. It failed to stain the B-16 mouse melanoma cell line, neuroblastoma cell line, breast carcinoma cell line, and T-cell lymphoma cell line. Normal human peripheral nerves were nonreactive with FKH1. In immunoelectroblot study, FKH1 bound with proteins having molecular weight of 71,000 and 55,000 extracted from KHm-6 cells. It was suggested that FKH1 is a useful monoclonal antibody in diagnostic study of human malignant melanoma specimens.
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PMID:Mouse monoclonal antibody (FKH1) detecting human melanoma-associated antigens. 375 74

Ten different mouse cell lines were examined for Japanese encephalitis virus (JEV) infection in vitro and then tested for their ability to generate virus specific cytotoxic T lymphocytes (CTL). Among all cell lines examined, Neuro 2a (a neuroblastoma) was readily infected with JEV as examined by immunofluorescence and viral replication. Among other cells, P388D1, RAW 264.7 (Macrophage origin), Sp2/0 (B-cell Hybridoma), YAC-1 (T-cell lymphoma), and L929 (Fibroblast) were semipermissive to JEV infection. The cytopathic effects caused by progressive JEV infection varied from cell line to cell line. In the case of YAC-1 cells long-term viral antigen expression was observed without significant alterations in cell viability. Intermediate degrees of cytopathicity are seen in RAW 264.7 and L929 cells while infection of PS, Neuro 2a, P388D1 and Sp2/0 caused major viability losses. All infected cell lines were able to prime adult BALB/c (H-2d) mice for the generation of secondary JEV specific CTL. In contrast to YAC-1, the permissive neuroblastoma cell line Neuro 2a (H-2KkDd) was found to be least efficient in its ability to stimulate anti-viral CTL generation. Cold target competition studies demonstrated that both Neuro 2a and YAC-1 (H-2KkDd) cells expressed similar viral determinants that are recognised by CTL, suggesting that the reason for the lower ability of Neuro 2a to stimulate anti-viral CTL was not due to lack of viral CTL determinants. These findings demonstrate that a variety of mouse cell lines can be infected with Japanese encephalitis virus, and that these infected cells could be utilised to generate virus specific CTL in BALB/c mice.
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PMID:Japanese encephalitis virus infection of mouse cell lines: ability to prime mice for generation of virus specific cytotoxic T lymphocytes and differences in CTL recognisable viral determinants. 764 37

Since the introduction of the hybridoma technology by Kohler and Milstein (Nature 1975, 256, 495-497), tremendous effort has been put in the realisation of Ehrlich's concept of the magic bullet, which was proposed as early as the beginning of the century. The first clinical studies for radioimmunoscintigraphy (RIS) and radioimmunotherapy (RIT) with radiolabelled antibodies were undertaken in the early 1980s. Since then, RIS has been performed on thousands of patients with various types of malignancies, like colon carcinoma, lung carcinoma, breast carcinoma, neuroblastoma, T-cell lymphoma and ovarian carcinoma. In addition, a substantial number of therapy trials with radiolabelled antibodies have been performed. The developments for head and neck squamous cell carcinoma (HNSCC) have only recently been able to catch up with these events to some extent. One of the main reasons for this slow progress has been the lack of monoclonal antibodies (Mab) with specificity for HNSCC. Although there are as yet no real tumour specific antigens known for HNSCC, which also holds true for the majority of malignancies arising from other tissues, we now have the availability of a number of Mab with high specificity for HNSCC and with a very restricted reaction pattern with normal tissues. Labelled with 131I, these Mab have been shown to be highly capable to localise in HNSCC xenografts in nude mice. Based on these promising data, patient studies with one of these Mab, designated Mab E48, labelled with 99mTc, were started to evaluate the feasibility of RIS in patients with head and neck cancer.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The feasibility of radioimmunotherapy of head and neck cancer. 803 5

We have isolated and sequenced cDNAs encoding Ca2+/calmodulin-dependent protein kinase type Gr (CaM-K-Gr, also called CaM-K-IV) from human brain and thymus. The sequence of the protein coding region of the cDNA is identical in both brain and thymus, although Northern hybridization analysis shows variation of the mRNA transcripts in these tissues. The sequence predicts a protein of M(r) 51,897 that is 83.7% identical and shows 89.2% similarity with the rat homologue. The deduced human CaM-K-Gr is identical to the rat and mouse proteins in the portion of the enzyme involved in ATP binding, the catalytic domain and Ca2+/calmodulin-binding domain; however, the N terminus of the human kinase, which may comprise a second regulatory domain [McDonald et al., J. Biol. Chem. 268 (1993) 10054-10059], contains a 4-amino-acid (aa) insertion relative to the rodent enzymes. Additionally, the C-terminal association domain shows only 45.2 and 41.6% identity with the rat and mouse proteins, respectively, suggesting that this domain is not constrained by stringent structural and functional requirements. Based on the predicted aa sequence of the human kinase, we produced polyclonal antisera against a C-terminal peptide that recognizes two forms of CaM-K-Gr in human T-cell lymphoma and neuroblastoma cell lines. The human antiserum cross-reacts with the rat and mouse proteins and immunoprecipitates the active kinase.
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PMID:The cDNA sequence and characterization of the Ca2+/calmodulin-dependent protein kinase-Gr from human brain and thymus. 819 51

There is a large increase in lymphoid malignancy in A-T patients and a total absence of myeloid tumors. Penetrance of the tumor phenotype is about 10% to 15% by early adulthood. The increase in lymphoid malignancy includes both B- and T-cell tumors. However, young A-T patients do not show an increased susceptibility to cALL, and the UK data suggest that B-cell lymphoma occurs in older A-T children. T-cell tumors may occur at any age and may be T-ALL, T-cell lymphoma, or T-PLL; most strikingly, there may be a fourfold to fivefold increased frequency of T-cell tumors compared with that of B-cell tumors in these patients. If this is correct, it is possible that a significant proportion of all T-ALL/T-cell lymphoma in infants might be associated with undiagnosed A-T. The age range and sex predominance for T-ALL may be different for A-T and non-A-T patients and the age range for T-PLL may also be different in A-T and non-A-T patients. There is clearly some uncertainty concerning the ratio of T-cell to B-cell tumors in A-T, but this could be clarified by the publication of all tumors that occur in the disorder. In contrast, 8 of 9 tumors reported in NBS, which shows the same cellular features as A-T, were lymphomas and none was a leukemia. There are several indicators of genetic heterogeneity in A-T that suggest that not all patients are equally susceptible to all T-cell tumor types. Concordance for tumor type within individual families suggests that particular gene defects may be associated with particular tumor types. The logical extrapolation of this argument is that some patients may not have any increased risk for B-cell tumors at all or even to all T-cell types but only to a particular type of T-cell tumor. What is the cause of the increased predisposition to leukemia/lymphoma in A-T patients? There is no evidence that the immunodeficiency in A-T is related to this predisposition. One of the major findings in all A-T patients is the increase in V(D)J-mediated chromosome rearrangement observed in T lymphocytes. Particular chromosome translocations in T cells, involving a break in a TCR gene, are characteristically associated with either T-ALL or T-PLL in non-A-T patients. The majority of T-cell tumors in A-T are T-ALL and T-cell lymphoma, about which virtually nothing is known chromosomally, and the assumption is that the increased number of translocations leads to the increased level of these tumors. In older T patients, the expansion of specific translocation T-cell clones has been followed to the point to which they develop into T-PLL. All the evidence, therefore, suggests that the A-T mutation in the homozygous state allows a large increase in production of translocations formed at the time of V(D)J recombination, and this leads to the increased predisposition to leukemia. The general increased predisposition to T-cell tumors compared with B-cell tumors in A-T patients may be related to a preferential occurrence of translocations in T cells. Relatively little is known about translocations in circulating B lymphocytes in normal individuals, but A-T siblings have been shown to have clonal chromosome rearrangements of both B and T cells, simultaneously, although in these siblings the T-cell clones occupied all the T-cell compartment and the B-cell clones were small. An important inference from these facts is that the A-T defect preferentially affects immune system gene recombination in T cells rather than B cells. Recent evidence suggests that the V(D)J recombination machinery is not identical or is not regulated identically in T- and B-cell progenitors. This finding is consistent with the hypothesis that V(D)J rejoining in the majority, at least, of A-T patients may be preferentially deficient in T cells compared with B cells giving rise to the greatly increased number of translocations and T-cell tumors. Carbonari et al proposed that the recombination defect in A-T cells affected both Ig isotype switching and TCR rearrangeme
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PMID:Leukemia and lymphoma in ataxia telangiectasia. 855 63

As far as we know, this is the first report of a non-Hodgkin lymphoma developing after successful treatment of neuroblastoma. A boy was found to have a mediastinal T-cell lymphoma at the age of 5. He had been treated for a neuroblastoma of the left adrenal region 4 years before, when by intensive chemotherapy and radiation a complete remission of the primary tumor was achieved. The second malignancy has also been controlled without evidence of recurrence 1 year after termination of treatment. We conclude that treatment of a neuroblastoma by cytostatic drugs and radiation may lead to a non-Hodgkin lymphoma as a second malignancy.
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PMID:Non-Hodgkin lymphoma (NHL) as a second neoplasm occurring after neuroblastoma treatment. 937 84

The p53 gene is the most frequently mutated gene in human cancer. The identification of two homologues, p63 and p73, revealed that p53 is a member of a family of related transcription factors. Given that they share amino acid sequence identity reaching 63% in the DNA-binding domain, p53, p63 and p73 should have redundant functions in the regulation of gene expression. Indeed, p73 can activate p53-regulated genes and suppress growth or induce apoptosis. Moreover, p53 and p73 are both induced by DNA damage - albeit through distinct mechanisms. Other evidence, however, suggests that p63 and p73 are important for regulation of normal development. An extended C-terminal region, not found in p53, is alternatively spliced in p63 and p73. Within this C-terminal extension is a sterile &agr; motif (SAM) previously found in other proteins that regulate development. The p63-deficient mice showed developmental abnormalities. Interestingly, the human p63 gene is mutated in children who have the disease Ectrodactyly, Ectodermal dysplasia and facial Clefts (EEC) syndrome, and the disease phenotype is similar to the one of p63-deficient mice. The p63 and p73 genes are rarely mutated in human cancer, although p73 loss is observed in neuroblastoma and a subtype of T-cell lymphoma. p53, p63 and p73 appear to have overlapping and distinct functions: p53 regulates the stress response to suppress tumors; p63 is essential for ectoderm development; and p73 might regulate both the stress response and development. Because p53 and p73 are linked to different upstream pathways, this family of transcription factors might regulate a common set of genes in response to different extracellular signals and developmental cues.
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PMID:The p53/p63/p73 family of transcription factors: overlapping and distinct functions. 1076 97

CD56-positive nasal and nasal-type natural killer (NK)/T-cell lymphoma is now a well-defined disease entity. Rare cases of blastic NK-cell lymphoma positive for CD56 have been recently reported. However, CD56 expression is also identified in several types of non-hematopoietic small round cell tumors in which lymphoma is included as a differential consideration. Here, we present nine cases of CD56+ small round cell tumors of histological origin unrelated to nasal NK/T-cell lymphoma. Eight of the nine cases presented as solid tumors of the sinonasal region. Clinical, histological, ultrastructural, and immunohistochemical examination and gene analysis for T-cell receptor (TcR) and immunoglobulin heavy chain (IgH) genes and in situ hybridization (ISH) for Epstein-Barr virus (EBV) were performed. Two cases presented with features consistent with blastic NK-cell lymphoma or lymphoblastic lymphoma of NK-cell phenotype. These cases showed features of lymphoblastic lymphoma, phenotypes of sCD3-, cCD3+, CD45+, CD56+, TdT+, and human leukocyte antigen (HLA)-DR+, germline of IgH and TcR genes, and EBV negative reactivity. One case had myeloid/NK-precursor acute leukemia/lymphoma with a phenotype of CD13+, CD33+, CD34+, CD56+, and MPO-. Three cases were neurogenic, including one case of olfactory neuroblastoma and two of primitive neuroectodermal tumors (PNET). It was difficult to differentiate CD56+ PNET from blastic NK-cell lymphoma, especially when only paraffin-embedded sections were available. Myogenic markers, such as HHF35, alpha-sarcomeric actin, and desmin, were positive in three cases of rhabdomyosarcomas. Our findings suggest that as CD56 is used more routinely as a marker in immunohistochemical staining, the differential diagnosis of extranodal lymphohematological malignancies and small round cell tumors will become more complicated.
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PMID:Nasal CD56 positive small round cell tumors. Differential diagnosis of hematological, neurogenic, and myogenic neoplasms. 1131 24

We have used a continuous fluorescence monitoring method to assess cyclin D1 mRNA expression in a variety of hematological and non-hematological processes. We examined 14 cell lines, 11 reactive lymphoid tissues, and 57 primary hematopoietic neoplasms including mantle cell lymphoma (MCL) (n = 10), chronic lymphocytic leukemia/small lymphocytic lymphoma (CLL/SLL) (n = 11), acute lymphoblastic leukemia/lymphoma (n = 15), follicular lymphoma (n = 6), peripheral T-cell lymphoma (PTCL) (n = 3), anaplastic large cell lymphoma (n = 3), hairy cell leukemia (n = 3), Burkitt lymphoma (n = 1), Burkitt-like lymphoma (n = 4), and plasmacytoma (n = 1) for the expression of cyclin D1 mRNA using fluorescently labeled sequence-specific hybridization probes. Fluorescence (F) was plotted against cycle (C) number over 45 cycles. The log-linear portion of the F versus C graph identified a fractional cycle number for threshold fluorescence. A beta-globin mRNA transcript with equivalent amplification efficiency to that of cyclin D1 was used for assessment of RNA integrity and normalization. In general, the MCLs demonstrated substantially higher levels of cyclin D1 mRNA than the other lymphoproliferative processes. Moderately high levels of cyclin D1 mRNA were detected in one PTCL. On average, the CLL/SLL cases showed cyclin D1 mRNA levels two to three orders of magnitude lower than observed in the MCLs. Cell lines derived from non-hematopoietic neoplasms such as fibrosarcoma, small cell carcinoma, and neuroblastoma showed comparable or higher levels of cyclin D1 mRNA than the MCLs. Our results indicate that quantitative real-time reverse transcription (RT) polymerase chain reaction is a simple, rapid, and accurate technique for assessing cyclin D1 expression, and while it is not specific, it can reliably be used in the distinction of MCL from CLL/SLL.
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PMID:Fluorescence PCR quantification of cyclin D1 expression. 1198 99

Sinonasal tract neoplasms composed of light microscopically seemingly "undifferentiated" small round cells often generate considerable diagnostic difficulty. Although the careful review of H&E-stained sections remains of critical and central importance in this evaluation, the recent improvements in the immunohistochemical diagnostic armamentarium and molecular diagnostic techniques applicable to paraffin-embedded tissue samples may add diagnostically valuable information. Accordingly, this review will discuss the differential diagnosis of undifferentiated small blue cell tumors of the sinonasal tract based on the light microscopic and clinical features and, as needed, the results of these ancillary studies. Tumors discussed include olfactory neuroblastoma, sinonasal undifferentiated carcinoma, small cell undifferentiated (neuroendocrine) carcinoma, undifferentiated (lymphoepithelioma-like) carcinoma, malignant melanoma, pituitary adenoma, Ewing sarcoma/peripheral neuroectodermal tumor, rhabdomyosarcoma, mesenchymal chondrosarcoma, small cell osteosarcoma, synovial sarcoma, extranodal natural killer/T-cell lymphoma, nasal type, and extramedullary plasmacytoma.
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PMID:"Undifferentiated" small round cell tumors of the sinonasal tract: differential diagnosis update. 1646 21


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