Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027651 (tumor)
 685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Despite the abundance of reports describing adult cases of t(8;21) acute myelocytic leukemia (AML), childhood cases have received little attention. We retrospectively investigated 14 childhood cases of t(8;21) AML, and compared their clinical characteristics with those of adult cases, focusing on the risk factors for poor prognosis. Seventy-one percent of the patients had fever. Their mean leukocyte count was 12,700/microliter, and they showed decreased NAP activity. The cell surface showed positivity for CD13, 33, 19, 34, and HLA-DR. The complete remission rate was 100%, and relapse was observed in three of the patients. Bone marrow eosinophilia was present in a smaller proportion of the childhood cases than in the adult cases. Although an increased leukocyte count, tumor formation, and other risk factors have been reported in adults, there was no correlation between these factors and prognosis in our childhood cases. As children who showed AML relapse had TdT-positive blasts, detectable blast TdT activity may be a risk factor for relapse in childhood cases of t(8;21) AML. However, to confirm this, a study with a larger subject base should be conducted.
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PMID:[Childhood t(8;21) acute myelocytic leukemia: a comparison of clinical features and risk factors with adult cases]. 1123 36

At the ISAC 2000 Congress, the Clinical Cytometry Society organized a meeting of international experts to reach consensus on the minimum number of antibodies required for a full evaluation of hematologic and lymphoid neoplasias. A questionnaire was distributed prior to the meeting to numerous experts from US and European institutions and 13 responses were received. At the meeting, 25 individuals, including most of those who returned responses, participated in the discussions and voted on the issues presented. In chronic lymphoproliferative disorders (CLD), 9 antibodies (anti-CD5, CD19, kappa, lambda, CD3, CD20, CD23, CD10, and CD45) were deemed essential for initial evaluation by 75% of the participants. There was near unanimity that additional markers (selected from CD22, FMC7, CD11c, CD103, CD38, CD25, CD79b and heavy chains for B-cell disorders, and CD4, CD7, CD8, CD2, CD56, CD16, TCRa/b, and TCRg/d for T-cell disorders) would be needed to fully characterize CLD, although not every marker would be useful in all cases. Tissue lymphomas were believed to be similar to CLD, needing a minimum of 12--16 markers. However, for some cases, CD30, bcl-2, TdT, CD71, CD1a, and CD34 were cited as useful by the participants. Markers mentioned for plasma cell disorders included kappa, lambda, CD38, CD45, CD56, CD19, CD20, CD138, and heavy chains. Of 17 voting participants, 16 agreed that between 5 to 8 markers would be essential reagents for plasma cell disorders. For acute leukemia (AL), 10 markers (CD10, CD19, CD13, CD33, CD34, CD45, CD7, CD14, CD3, and HLADR) were considered essential by 75% of participants for initial characterization of the leukemia lineage. Most (>75%) agreed that at least one more B (CD20, CD22, CD79a, IgM), T (CD1a, CD2, CD4, CD5, CD8), myeloid (CD11b, CD15, CD64, CD117, myeloperoxidase), erythroid (CD36, CD71, glycophorin A), and megakaryocytic (CD41, CD61) reagents should be included in the essential panel. However, there was no agreement as to which was optimal. Thus, approximately 13--15 of those reagents would be considered essential in all cases of AL, whereas others (CD16, CD56, CDw65, TdT, and cytoplasmic CD3) were mentioned as useful in some cases. Almost all voting participants believed that the appropriate number of markers for complete characterization of AL would average 20--24. The majority of the responders (11 of 13) indicated that fewer reagents could be used in monitoring or staging patients with previously characterized disease, but not all ventured a specific number of reagents. From the above results, we conclude that the phenotypic analysis of hematologic and lymphoid neoplasia requires a rather extensive panel of reagents. Supplementary reagents might even be necessary if they prove to become relevant for diagnostic purposes. Reducing the number of antibodies could significantly compromise the diagnostic accuracy, appropriate monitoring, or therapy of these disorders.
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PMID:Optimal number of reagents required to evaluate hematolymphoid neoplasias: results of an international consensus meeting. 1124 3

Automatic search for cytokeratin/mucin-1 double immunofluorescence was performed to detect and characterize circulating epithelial tumor cells in patients with advanced breast cancer. The peripheral blood samples in 8 of 19 patients (42.1%) presented with cytokeratin-positive and epithelial-type mucin-positive (CK(+)/MUC1(+)) tumor cells. Detailed microscopic analysis, however, suggested that the majority of the double immunopositive cells was apoptotic according to an "inclusion type" cytokeratin staining pattern and nuclear condensation. Furthermore, apoptosis-related DNA strand breaks could be demonstrated by applying the TdT-uridine nick end labeling assay in these cells. In 3 of 8 positive samples all of the CK(+)/MUC1(+) cells displayed apoptotic features. We conclude that apoptotic cells significantly contribute to the circulating tumor cell fraction in breast cancer patients. As the predictive value of such cells for the outcome of the disease is unclear, they should be considered separately when analyzing tumor cell dissemination.
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PMID:Circulating breast cancer cells are frequently apoptotic. 1143 48

We encountered a child with an intraosseous small round cell tumor that was negative for LCA, CD20 (L26), and CD3 and positive for vimentin, CD99 (MIC-2), and periodic acid-Schiff. The tumor exhibited rosette-like formations. This case was initially interpreted as Ewing's sarcoma (ES); however, additional studies revealed positivity for CD79a, CD43, and TdT expression, and an immunoglobulin heavy chain gene rearrangement (IgH-R) by polymerase chain reaction (PCR) established this to be a precursor B-lymphoblastic lymphoma. Because the differential diagnosis of ES and lymphoblastic lymphoma can be difficult and the differential diagnostic value of leukocyte antigens and immunoglobulin heavy chain gene rearrangement studies have not been fully evaluated, we conducted a more extensive investigation on 33 (21 soft tissue and 12 intraosseous) ES cases. Cases were retrieved from the files of the Department of Pathology at Georgetown University and from the Soft Tissue Registry of the Armed Forces Institute of Pathology. The cases were studied by light microscopy, immunohistochemistry, and PCR for IgH-R and T cell receptor gamma chain gene rearrangement (Tgamma-R). There were 17 females and 16 males; the mean age was 29.3 years. Locations included the extremities (n = 17) and trunk (n = 16). All cases fit the ES spectrum by light microscopy and immunohistochemistry, as previously determined, and were negative for lymphoid markers (LCA, CD3, CD20, CD43, CD79a, and TdT), CD10 and CD34. CD99 was positive in 31/33 and bcl-2 was weakly positive in 13/33 cases. All 21 cases studied for gene rearrangements by PCR were negative for IgH-R and Tgamma-R. Distinction of intraosseous lymphoblastic lymphoma from ES may be difficult because lymphomas may occasionally exhibit unexpected morphologic and immunophenotypic properties including LCA, CD3 and CD20 negativity and cytokeratin positivity. Additional analysis using CD79a, CD43, TdT, and PCR should be performed to avoid misdiagnosis. True ES is negative for lymphoid markers including CD79a, CD43, and TdT, as well as for IgH-R and Tgamma-R.
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PMID:Differentiating lymphoblastic lymphoma and Ewing's sarcoma: lymphocyte markers and gene rearrangement. 1170 81

A retrospective study was performed to characterize malignant lymphomas of 16 Simian immunodeficiency virus (SIV)-infected rhesus monkeys (Macaca mulatta), 2-9 years of age, on the basis of clinical data, histologic and immunophenotypic results, and cell death indices compiled with the TdT-mediated X-duTP nick end labeling method. We particularly focused on providing immunohistochemical evidence of expression products of EBNA2, Bc12, c-Myc, P21, P53, and Bc16. Results were compared with data from the literature on human HIV-associated lymphomas. According to the updated Kiel classification, the lymphomas were classified as 11 centroblastic lymphomas, three immunoblastic lymphomas, one Burkitt-like lymphoma, and one immunocytoma. Using antibodies to CD20, the B-cell origin of tumor cells was demonstrated. SIV antigen was not demonstrated in the tumor cells. Infection with rhesus lymphocryptovirus was present in 94% of the monkeys. Lymphomas revealed expression of Bc12 in 15/16 (94%), c-Myc in 14/16 (88%), P21 in 10/ 16 (63%), P53 in 12/16 (75%), and Bc16 in 1/16 (6%) monkeys. This study provided evidence that the expression of these gene products, which are thought to play an important role in cell proliferation and apoptosis in HIV- and non-HIV-associated lymphomas, are also involved in the pathogenesis of lymphomas in SIV-infected rhesus monkeys. A tentative relationship between the described gene products and the cell death indices was established for the expression of Bc12. The present primate model represents a suitable animal model for studying the pathogenesis of AIDS-associated lymphomas.
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PMID:SIV-associated lymphomas in rhesus monkeys (Macaca mulatta) in comparison with HIV-associated lymphomas. 1210 18

Cloned T9-C2 glioma cells transfected with membrane macrophage colony-stimulating factor (mM-CSF) never formed subcutaneous tumors when implanted into Fischer rats, whereas control T9 cells did. The T9-C2 cells were completely killed within 1 day through a mechanism that resembled paraptosis. Vacuolization of the T9-C2 cell's mitochondria and endoplasmic reticulum started within 4 hours after implantation. By 24 hours, the dead tumor cells were swollen and terminal deoxynucleotide transferase-mediated dUTP nick-end labeling (TUNEL)-positive. Bcl2-transduced T9-C2 cells failed to form tumors in rats. Both T9 and T9-C2 cells produced cytokine-induced neutrophil chemoattractant that recruited the granulocytes into the tumor injection sites, where they interacted with the tumor cells. Freshly isolated macrophages killed the T9-C2 cells in vitro by a mechanism independent of phagocytosis. Nude athymic rats treated with antiasialo GM1 antibody formed T9-C2 tumors, whereas rats treated with a natural killer cell (NK)-specific antibody failed to form tumors. When treated with antipolymorphonuclear leukocyte (anti-PMN) and antimacrophage antibodies, 80% of nude rats formed tumors, whereas only 40% of the rats developed a tumor when a single antibody was used. This suggests that both PMNs and macrophages are involved in the killing of T9-C2 tumor cells. Immunocompetent rats that rejected the living T9-C2 cells were immune to the intracranial rechallenge with T9 cells. No vaccinating effect occurred if the T9-C2 cells were freeze-thawed, x-irradiated, or treated with mitomycin-C prior to injection. Optimal tumor immunization using mM-CSF-transduced T9 cells requires viable tumor cells. In this study optimal tumor immunization occurred when a strong inflammatory response at the injection of the tumor cells was induced.
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PMID:Living T9 glioma cells expressing membrane macrophage colony-stimulating factor produce immediate tumor destruction by polymorphonuclear leukocytes and macrophages via a "paraptosis"-induced pathway that promotes systemic immunity against intracranial T9 gliomas. 1214 20

Apoptosis of ameloblasts were examined by the TdT-mediated dUTP-biotin nick end-labelling method and electron microscopy 8 h after injection of colchicine. The results showed that extensive apoptosis occurred in ameloblasts of secretion to maturation zones. To determine the possible involvement of stimulators in ameloblast apoptosis, Fas, Fas ligand, tumor-necrosis-factor alpha, and tumor-necrosis-factor receptor 1 were examined utilizing immunohistochemistry and Western blotting analysis. Only Fas was consistently detected in the secretion, transition and maturation ameloblasts and overlying enamel organ epithelia. These results suggest that ameloblasts could undergo apoptosis by colchicine and that one of the ameloblast apoptosis mediators would be the Fas receptor.
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PMID:Colchicine-induced apoptosis and anti-Fas localization in rat-incisor ameloblasts. 1242 10

In our study we described the immunophenotypic characteristics of an ectopic thymus found in an eight month old male baby. Comparing with the results of normal thymic cells we did not found any difference or abnormalities in the phenotype. A brief discussion of theories of histogenesis and possible differential diagnosis of ectopic thymus is included. The most common immune pattern of both, ectopic and normal thymuses, was expression of TdT,CD7,cCD3,CD1 and dual CD4/CD8. Early results of immunological examination confirmed by histopathology stated the diagnosis of ectopic thymus and excluded other causes (infection, trauma, neoplasm and congenital abnormalities). The study of both, ectopic and normal thymic tissue provides a perfect model for comparative analysis of some T-acute lymphoblastic leukemia (T-ALL). Both, thymocytes and some cases of our T-ALL (20 of 48 examined T-ALL) had a specific late cortical T-cell phenotype. We observed new qualities of both, thymic cells and T-ALL cells of a late cortical phenotype that resulted in cell populations localized in the so-called "empty spaces", in fluorescence histograms, that might be discriminated from internal T-cell populations with normal antigen expression. An important sign of T-ALL in common is to display aberrant marker combinations and the tendency to drop specific normal T-cell antigens. Aberrant markers were present in our study in a phenotypic group of a late cortical T-ALL in 11 cases (55.0%) of the 20 studied. As aberrant markers we observed mostly CD10, CD34, HLA-DR and CD13. Furthermore, the tendency to drop specific normal T-cell markers could be recognized in one case of a late cortical T-ALL in the form of TCRab and TCRgd absence. DNA analysis did not reveal any changes in proliferation index either in thymocytes (normal or ectopic), or in T-ALL of a late cortical T-cell phenotype. Based on our findings the clinical utility of comparing the results obtained from the immunophenotypic characterization of healthy hematopoietic and leukemia cells can be concluded. An exact and early diagnosis of hematopoietic disorders (ectopic thymus, T-ALL and T-NHL) and identification of identical phenotypic patterns at different times (for more exact minimal residual disease detection during and after therapy) could be obtained.
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PMID:The analogy in cell immunophenotype and parameters of cell cycle of ectopic thymus, normal thymus, and some acute lymphoblastic leukemia of T-phenotype. 1245 29

Hematopoietic neoplasm coexpressing CD4 and CD56 includes a subset of acute myeloid leukemia with myelomonocytic differentiation, plasmacytoid monocyte tumor, and other immature hematopoietic neoplasms of undefined origin. Herein, we report a CD4+CD56+CD68+ hematopoietic tumor that was thought to be a tumor of plasmacytoid monocytes. This case is unique in the absence of accompanying myelomonocytic leukemia and the faint expression of cCD3 on the tumor cells. The patient was a 22-yr old man presented with multiple lymphadenopathy and an involvement of the bone marrow. Tumor cells were large and monomorphic with an angulated eosinophilic cytoplasm of moderate amount. Nuclei of most tumor cells were eccentric and round with one or two prominent nucleoli. Rough endoplasmic reticulum was prominent in electron microscopic examination. Tumor cells expressed CD4, CD7, CD10, CD45RB, CD56, CD68, and HLA-DR and were negative for CD1a, CD2, sCD3, CD5, CD13, CD14, CD20, CD33, CD34, CD43, CD45RA, TIA-1, S-100, and TdT. cCD3 was not detected in the immunostaining using paraffin tissue, but was faintly expressed in flow cytometry and immunostaining using a touch imprint slide. T-cell receptor gene rearrangement analysis and EBV in situ hybridization showed negative results. Cytochemically, myeloperoxidase, Sudan black B, and alpha naphthyl butyrate esterase were all negative.
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PMID:CD4+CD56+CD68+hematopoietic tumor of probable plasmacytoid monocyte derivation with weak expression of cytoplasmic CD3. 1248 12

We report the case of a 42-year-old male patient who was diagnosed with a large tumor of the right thoracic aperture 30 months after unrelated hematopoietic stem cell transplantation (HSCT) for accelerated phase of Philadelphia chromosome (Ph)-positive chronic myeloid leukemia (CML). Biopsy revealed an immature lymphoid neoplasia with blastic tumor cell morphology and immunoreactivity for CD34, CD79a, CD43, and CD30 as well as slight positivity for TdT and CD20. Bcr-Abl rearrangement was found in interphase tumor cell nuclei by fluorescence in situ hybridization (FISH). Furthermore, a translocation t(14;18)(q32;q21) was amplified by polymerase chain reaction (PCR). Bone marrow (BM) examination showed regular hematopoiesis including a negative FISH analysis for Bcr-Abl and complete donor chimerism. Nested PCR from peripheral blood (PB), but not conventional PCR, was positive for the b3a2 Bcr-Abl transcript. Neither radiation nor intensive chemotherapy was capable of achieving a tumor remission, and the patient died from progressive disease 6 months later. Postmortem examinations showed a shift of immunophenotype with appearance of myeloperoxidase-positive tumor cells and loss of lymphoid antigens. In addition, there were characteristic cytogenetic findings of multiple Ph chromosomes and a clonal loss of P53 tumor suppressor gene. The latter was already deleted before HSCT. We conclude that lymphoid neoplasia occurring in our patient should be interpreted as an extramedullary, very immature blast crisis of CML expressing lymphoid differentiation markers rather than a true de novo NHL.
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PMID:Extramedullary blast crisis of chronic myeloid leukemia after allogeneic hematopoietic stem cell transplantation mimicking aggressive, translocation t(14;18)-positive B-cell lymphoma. 1257 66


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