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)

The bcl-2 gene is a unique proto-oncogene that blocks apoptosis; its product is localized on the inner mitochondrial membrane. In non neoplastic human lymphoid tissues, bcl-2 protein is strongly expressed in the small recirculating lymphocytes of the follicular mantle zone; it is expressed less intensely in T-cell areas, and is almost absent from germinal center cells. Bcl-2 mRNA, in contrast to bcl-2 protein, is strongly expressed on most of the latter cells, a similar phenomenon also being observed in peripheral blood lymphocytes (PBL). Resting PBL express both bcl-2 mRNA and protein, while most lymphoblasts in mitogen-stimulated PBL cultures lose bcl-2 protein and become apoptotic, despite expressing higher levels of mRNA. Posttranscriptional regulation of the bcl-2 gene may cause this paradoxical down-regulation of bcl-2 protein and may play an important role in the clonal selection of lymphocytes. Bcl-2 protein is frequently expressed in follicular lymphomas bearing the t(14;18) chromosomal translocation, but it is also widely expressed in many other B- and T-cell lymphomas without bcl-2 rearrangement, showing that mechanisms other than t(14;18) translocation may deregulate bcl-2 expression. Many lymphoid and myeloid cell lines also express bcl-2 protein with no correlation being shown with differentiation stage. Thus, it is conceivable that bcl-2 protein may play a role in the oncogenesis of many hematolymphoid malignancies by interfering with programmed cell death, in concert with other oncogenes or tumor suppressor genes.
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PMID:Expression of Bcl-2 protein and Bcl-2 mRNA in normal and neoplastic lymphoid tissues. 802 26

Bcl-2 expression and its prognostic value were evaluated using the APAAP technique in 40 ALL patients. Because of a possible synergy between c-myc and bcl-2 proteins in cell lines, we compared 40 ALL of either T or B lineage with seven Burkitt's ALL or sporadic Burkitt's lymphomas (BL). We found the same high expression of bcl-2 in adult (Ad) and childhood (Ch) malignancies examined at presentation, regardless of the T or B phenotype. No bcl-2 expression was detectable in BL cases, except for two investigated at relapse. Bcl-2 staining intensity was also not related to the stage of blast differentiation, except in Ad T-ALL, or to the relapse rate. Ki-67, a marker of proliferation, was used to investigate the possible correlation between bcl-2 expression and the proliferative activity. An inverse correlation was found only in BL at presentation. We confirm that bcl-2 expression is the rule in ALL, regardless of the immunophenotypic characteristics at presentation, and that high expression is not correlated with a bad prognosis. Sporadic BL may represent a particular type of tumor, with bcl-2 expression in relapse, but not at presentation.
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PMID:High expression of bcl-2 is the rule in acute lymphoblastic leukemia, except in Burkitt subtype at presentation, and is not correlated with the prognosis. 806 Nov 3

The chicken bursa provides a revealing experimental model system which has helped unravel some of the mysteries surrounding induction of neoplasia by retroviruses lacking dominant viral oncogenes. Analysis of this system continues to provide opportunities for further insight into mechanisms underlying some of the essential characteristics of neoplastic change including maturation arrest, prolonged cell survival, and genetic instability. The deregulation of c-myc expression induced by nearby proviral integration appears to initiate preneoplastic change in a specific window of development, i.e., the bursal stem cell. The generation of large numbers of these preneoplastic stem cells, and the ability for further amplification by transplantation technology, may provide an opportunity to address questions such as how and why myc oncogenes produce preneoplastic maturation arrest or why stem cells are selective targets for these effects. Among the unexplained consequences of this preneoplastic state appears to be genetic instability which leads, inevitably, to formation of invasive bursal neoplasms. It is at least conceivable that the observed myc-induced enhancement of the remarkable capacity for apoptotic cell death present in bursal cells plays a role in this instability. DNA strand breakage is a very early feature of bursal cell apoptosis. If such breakage could occur in sublethal form it might provide a mechanism for increased frequency of genetic change (deletions, rearrangement, and recombination). Among the changes that seem required for successful tumor cell growth outside of follicles is the suppression of cell death induced by loss of cell-cell contact which is characteristic of normal and preneoplastic bursal cells. Several genes in the bcl-2 family are potentially important in the modulation of cell death events central to the evolution of these neoplasms. Their role, if any, remains to be established.
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PMID:Retrovirus-induced B cell neoplasia in the bursa of Fabricius. 807 51

The establishment of a cell culture system for the clonal development of hemopoietic cells made it possible to discover the proteins that regulate cell viability, growth and differentiation of different hemopoietic cell lineages and the molecular basis of normal and abnormal development in blood-forming tissues. These regulators include cytokines now called colony stimulating factors (CSFs) and interleukins (ILs). Different cytokines can induce cell viability, multiplication and differentiation, and hemopoiesis is controlled by a network of cytokine interactions. This multigene network includes positive regulators such as CSFs and ILs and negative regulators such as transforming growth factor beta and tumor necrosis factor. The cytokine network which has arisen during evolution allows considerable flexibility depending on which part of the network is activated and the ready amplification of response to a particular stimulus. The CSFs and ILs induce cell viability by inhibiting programmed cell death (apoptosis). Programmed cell death is also regulated by the genes wild-type and mutant p53, c-myc and bcl-2, and suppression or induction of this program can result in tumor promotion or tumor suppression. Cytokines that regulate normal hemopoiesis can control the abnormal growth of certain types of leukemic cells and suppress malignancy by inducing differentiation. Genetic abnormalities that give rise to malignancy in these leukemic cells can be by-passed and their effects nullified by inducing differentiation and programmed cell death. The hemopoietic cytokines discovered in culture are active in vivo and are being used clinically to correct defects in hemopoiesis.
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PMID:The molecular control of hemopoiesis and leukemia. 807 16

Paired samples of chronic lymphocytic leukemia (CLL) or small lymphocytic lymphoma (SLL) and the subsequent diffuse large cell lymphoma (DLL) of six cases of Richter's syndrome were investigated to establish the clonal relationship between the CLL/SLL and the DLL components and to define the oncogene and/or tumor-suppressor gene alterations involved in the morphologic transformation of CLL/SLL. Southern blot hybridization analysis showed identical clonal immunoglobulin (Ig) gene-rearrangement patterns in the CLL/SLL and DLL components in four cases and different Ig gene-rearrangement patterns in two cases. Polymerase chain reaction (PCR) amplification, cloning, and DNA sequencing of complementary determinant region 3 (CDR3) of the Ig-heavy chain gene of one of the two cases in which the Ig gene-rearrangement patterns were different showed nonidentical sequences in the CLL/SLL and DLL components. In the other case, monomorphic Epstein-Barr virus (EBV) genome integration was detected in the DLL but not in the CLL, suggesting that the CLL and DLL components in this case of Richter's syndrome also represent unrelated clones. Single-strand conformation polymorphism (SSCP) analysis and sequencing of exons 5 through 9 of the p53 tumor-suppressor gene showed a mutation in codon 176 of the DLL but not in the CLL/SLL component in one case where the CLL/SLL and DLL represented different clones. The p53 mutation probably played a role in the development of the lymphoma rather than morphologic transformation of the CLL/SLL in this case. SSCP analysis and sequencing also showed identical mutations in codon 282 in both the CLL/SLL and DLL components in a case where the CLL and DLL represented identical clones. Thus, this p53 gene mutation was present both before and after morphologic transformation, and therefore, probably did not play a primary role in this process. Southern blot hybridization analysis failed to show evidence of bcl-1, bcl-2, c-myc proto-oncogene or retinoblastoma (Rb) tumor-suppressor gene rearrangements in these six cases of Richter's syndrome. In conclusion, the original CLL/SLL and the subsequent DLL in Richter's syndrome may or may not be derived from identical clones, and the well-known proto-oncogenes and tumor-suppressor genes do not appear to play an obvious and consistent role in the morphologic transformation of CLL/SLL to DLL.
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PMID:Molecular genetic demonstration of the diverse evolution of Richter's syndrome (chronic lymphocytic leukemia and subsequent large cell lymphoma). 811 38

The maintenance of homeostasis in normal tissues reflects a balance between cell proliferation and cell death. The importance of both positive and negative regulators of cell growth has been well documented in neoplasia. Bcl-2 argues for the existence of a new category of oncogenes, regulators of cell death. The bcl-2 gene was identified at the chromosomal breakpoint of t(14; 18) bearing B cell lymphomas. Bcl-2 has proved to be unique among protooncogenes in blocking programmed cell death rather than promoting proliferation. In adults, bcl-2 is topographically restricted to progenitor cells and longlived cells but is much more widespread in the developing embryo. Transgenic mice that overexpress bcl-2 in the B cell lineage demonstrate extended cell survival, and progress to high grade lymphomas. Bcl-2 has been localized to mitochondria, endoplasmic reticulum and nuclear membranes, also the sites of reactive oxygen species generation. Bcl-2 does not appear to influence the generation of oxygen free radicals but does prevent oxidative damage to cellular constituents including lipid membranes. Bcl-2 deficient mice complete embryonic development and display relatively normal haematopoietic differentiation but undergo fulminant lymphoid apoptosis of thymus and spleen. Moreover, they demonstrate two potentially oxidation related pathologies: polycystic kidney disease and hair hypopigmentation. A family of bcl-2 related genes is emerging that includes Bax, a conserved homolog that heterodimerizes in vivo with bcl-2. A pre-set ratio of Bcl-2/Bax appears to determine the survival or death of cells following an apoptotic stimulus.
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PMID:Bcl-2/Bax: a rheostat that regulates an anti-oxidant pathway and cell death. 814 17

Apoptotic cell death is physiological. Malignant cells often escape programmed cell death. Many genes that promote (p53) or antagonize (bcl-2, fes) apoptosis have been recognized. Apoptosis promoter genes can be activated by growth factor or hormone withdrawal in growth factor- or hormone-dependent tumor cells. Malignant cells acquiring apoptosis-resistance, still can be killed by cytotoxic lymphocytes releasing lymphotoxins. This phenomenon gives further support to the therapeutic use of activated and expanded lymphocyte populations and/or apoptosis-inducing cytokines. Chemotherapeutic agents (esp. topoisomerase inhibitors) frequently kill tumor cells by activating programmed cell death (PCD). Biologicals and chemotherapeutics may synergize in evoking apoptosis. We propose the cloning of apoptotic genes and their transfer by transfection in vivo into tumor cells. While transfection of genes into tumor cells in vitro is widely practiced, the lack of proper technology for transfection in vivo and the unknown aspects of apoptotic cell death are recognized.
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PMID:Apoptosis by genetic engineering. 815 15

Apoptosis is a kind of programmed cell death, that is, intrinsically programmed "cell suicide process". Mammalian thymic lymphocytes, thymocytes, show a typical apoptosis immediately after a low dose irradiation. Apoptosis appears also during radiotherapy of tumor, especially of thymoma. Tumor suppressor gene such as p53 and oncogene such as bcl-2 are found to be closely related to apoptotic processes in a cell. Possible mechanisms underlying interrelationship between expression of these genes, apoptosis and carcinogenesis were discussed.
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PMID:[Radiation and apoptosis]. 815 85

Apoptosis is a distinct mode of cell death that is responsible for deletion of cells in normal tissues; it also occurs in specific pathologic contexts. Morphologically, it involves rapid condensation and budding of the cell, with the formation of membrane-enclosed apoptotic bodies containing well-preserved organelles, which are phagocytosed and digested by nearby resident cells. There is no associated inflammation. A characteristic biochemical feature of the process is double-strand cleavage of nuclear DNA at the linker regions between nucleosomes leading to the production of oligonucleosomal fragments. In many, although not all of the circumstances in which apoptosis occurs, it is suppressed by inhibitors of messenger RNA and protein synthesis. Apoptosis occurs spontaneously in malignant tumors, often markedly retarding their growth, and it is increased in tumors responding to irradiation, cytotoxic chemotherapy, heating and hormone ablation. However, much of the current interest in the process stems from the discovery that it can be regulated by certain proto-oncogenes and the p53 tumor suppressor gene. Thus, c-myc expression has been shown to be involved in the initiation of apoptosis in some situations, and bcl-2 has emerged as a new type of proto-oncogene that inhibits apoptosis, rather than stimulating mitosis. In p53-negative tumor-derived cell lines transfected with wild-type p53, induction of the gene has, in rare cases, been found to cause extensive apoptosis, instead of growth arrest. Finally, the demonstration that antibodies against a cell-surface protein designated APO-1 or Fas can enhance apoptosis in some human lymphoid cell lines may have therapeutic implications.
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PMID:Apoptosis. Its significance in cancer and cancer therapy. 815 6

bcl-2 is the first member of a new class of protooncogenes the products of which inhibit programmed cell death (PCD) or apoptosis. We have previously determined that Bcl-2 is expressed in a significant percentage of untreated primary neuroblastoma (NBL) tumors. In these specimens Bcl-2 expression correlated with other markers of poor prognosis suggesting a role for Bcl-2 in the malignant behavior of NBL tumor cells. To investigate this possibility, a Bcl-2-negative human NBL cell line (Shep-1) was transfected with a bcl-2 expression vector (pSFFVneo-bcl-2). Multiple unique clones were isolated which showed variable levels of Bcl-2 protein by quantitative immunoprecipitation. Vector-transfected controls were generated simultaneously. Clones expressing high levels of Bcl-2 were resistant to cisplatin- and etoposide-induced cytotoxicity in a dose-dependent manner. Analysis of propidium iodide-stained nuclei by flow cytometry after cisplatin or etoposide treatment revealed marked DNA degradation in vector-transfected controls whereas bcl-2 transfectants showed a dose-dependent inhibition of DNA degradation. Analysis by pulsed-field gel electrophoresis revealed relatively large fragment DNA degradation (approximately 50 kilobases) in the absence of internucleosomal degradation in vector-transfected control cells treated with either cisplatin or etoposide. In contrast, Bcl-2-expressing cells showed significantly less DNA degradation at all time points. These single gene transfection experiments have revealed that expression of Bcl-2 renders specific NBL cells resistant to chemotherapy-induced PCD and support the hypothesis that Bcl-2 enhances the malignant phenotype of NBL by promoting tumor resistance to chemotherapy agents.
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PMID:Bcl-2 inhibits chemotherapy-induced apoptosis in neuroblastoma. 820 48


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