Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023418 (leukemia)
 93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have investigated the involvement of tumor suppressor genes (p53 and RB1) and dominantly acting oncogenes (Ras family genes) in BCR/ABL positive and negative chronic myeloproliferative disorders (CMPD) at different stages of the disease, including 26 cases of BCR/ABL+ chronic myeloid leukemia (CML) blast crisis, 9 myelosclerosis with myeloid metaplasia, 4 polycythemia vera, 10 essential thrombocythemia, 1 juvenile CML, and 8 BCR/ABL- CML. The presence of mutations in p53 exons 5 through 9, as well as in RB1 exons 10-27 and in N-, K-, H-Ras exons 1 and 2 was tested by the PCR-Single Strand Conformation Polymorphism technique and by PCR-Direct Sequencing. In addition, Southern blot analysis was used to investigate the occurrence of gross rearrangements in the p53 gene as well as loss of heterozygosity at 17p13, the site of p53. Acute phase BCR/ABL-CMPD cases displayed a high frequency of p53 (2/7) and Ras (3/7) lesions, whereas BCR/ABL- CMPD in chronic phase displayed only germline p53 and Ras sequences. Conversely, p53 inactivation was restricted to only 1/26 cases of BCR/ABL+ CML blast crisis. No alterations in the RB1 gene were detected in any of the cases analyzed. These data indicate that p53 inactivation and/or Ras activation might play a role in acute transformation of BCR/ABL- CMPD and that the molecular mechanisms of tumor progression may be different in BCR/ABL+ versus BCR/ABL-CMPD.
Leukemia 1994 Apr
PMID:Molecular mechanisms of tumor progression in chronic myeloproliferative disorders. 815

The role of loss or inactivation of the retinoblastoma (Rb1) and p53 tumor suppressor genes in the pathogenesis of various human malignancies has been well established, yet little is known regarding plasma cell dyscrasias. In the present study, the loss of Rb1 protein expression, and the presence of Rb1 gene rearrangements as well as the presence of p53 somatic mutations (exons 5 through 9) were investigated in a panel of plasma cell dyscrasias, including 15 monoclonal gammopathies of undetermined significance (MGUS), 63 multiple myelomas (MM), and 18 plasma cell leukemias (PCL). In the same panel of cases, we established the frequency of ras oncogene mutations, the main genetic lesion associated with MM. We report that loss of Rb1 protein and p53 mutations are detectable in 34.7 and 9.8% of MM and PCL primary cases; no lesion was found in MGUS. In advanced stage MM, and PCL cases, Rb1 and p53 inactivation, as well as ras mutations were detected. Our findings show that Rb1 and p53 inactivation are associated with aggressive plasma cell dyscrasias, suggesting a role for these lesions in tumor progression rather than initiation.
Leukemia 1994 May
PMID:Inactivation of tumor suppressor genes, p53 and Rb1, in plasma cell dyscrasias. 818 33

Secondary chromosomal aberrations reported in the literature were surveyed in acute myeloid or lymphoblastic leukemia (AML or ALL) with one of the following primary abnormalities: in AML, t(1;3), t(1;22), der(1;7), inv(3), t(3;5) +4, del(5q), t(6;9), -7, t(7;11), del(7q), +8, t(8;16), t(8;21), +9, t(9;11), del(9q), t(9;22), +11, del(11q), t(11;19), del(12p), +13, t(15;17), inv(16), t(16;21), i(17)(q10), del(20q), -21, +21, +22, and -Y; in ALL, t(1;14), t(1;19), der(19)t(1;19), t(4;11), del(6q), t(8;14)(q24;q11), t(8;14)(q24;q32), t(8;22), del(9p), dic(9;12), i(9)(q10), t(9;22), t(10;14), t(11;14), t(11;19), del(12p), -20, +21, and del(22q). Out of 7111 acute leukemias with clonal karyotypic aberrations, 2414 AMLs and 1078 ALLs had one of the selected primary chromosome rearrangements, and 40 and 49% of these AMLs and ALLs, respectively, displayed additional abnormalities. The type and frequency of these secondary changes were ascertained and then correlated with both the primary abnormality and the morphology or immunophenotype of the acute leukemia. The distribution of the secondary changes was clearly nonrandom. The most frequent numerical changes were -Y, -X, -7, +8, and +22 in AML and +X, +6, -7, +8, and +21 in ALL. The most common structural aberrations were del(5q), del(7q), and del(9q) in AML and dup(1q), i(7q)(q10), and der(22)t(9;22) in ALL. Some secondary changes were common to both disease groups, e.g. -7, +8, and +21, but several anomalies were restricted to either AML, such as -X, -5, and del(9q), or ALL, e.g. +X, i(7)(q10), and i(9)(q10). The type and frequency of the secondary aberrations varied within the AMLs and ALLs, not only among the different primary abnormality subgroups but also among the AML morphologies and the immunophenotypic maturation degrees of the ALLs. In general, the type of primary abnormality, rather than the differentiation stage of the acute leukemia, appeared to be instrumental in determining the type of secondary changes accruing. This conclusion was based on the finding that several primary abnormalities characterizing acute leukemias of the same morphology or immunophenotype displayed different patterns of secondary anomalies. The nonrandom, and sometimes quite specific, patterns of secondary aberrations strongly indicate that they are responsible for important phenotypic features of the tumor cell population, presumably closely associated with tumor progression. The molecular pathogenetic consequences of the secondary anomalies are unknown, but since most secondary changes are monosomies, trisomies, deletions, or isochromosomes resulting in genomic imbalances, one may hypothesize that gene dosage alterations rather than specific gene rearrangements are essential for tumor evolution.(ABSTRACT TRUNCATED AT 400 WORDS)
Leukemia 1994 Jun
PMID:Secondary chromosomal abnormalities in acute leukemias. 820 90

Human T-cell leukemia virus type I (HTLV-I) is recognized as the etiologic agent of adult T-cell leukemia (ATL), a disease endemic in certain regions of southeastern Japan, Africa, and the Caribbean basin. Although HTLV-I can immortalize T lymphocytes in culture, factors leading to tumor progression after HTLV-I infection remain elusive. Previous attempts to propagate the ATL tumor cells in animals have been unsuccessful. Severe combined immunodeficient (SCID) mice have previously been used to support the survival of human lymphoid cell populations when inoculated with human peripheral blood lymphocytes (PBL). SCID mice were injected intraperitoneally with PBL from patients diagnosed with ATL, HTLV-I-associated myelopathy/tropical spastic paraparesis (HAM/TSP), or from asymptomatic HTLV-I-seropositive patients. Many of these mice become persistently infected with HTLV-I. Furthermore, after human reconstitution was established in these mice, HTLV-I-infected cells displayed a proliferative advantage over uninfected human cells. Lymphoblastic lymphomas of human origin developed in animals injected with PBL from two ATL patients. The tumor cells represented outgrowth of the original ATL leukemic clone in that they had monoclonal or oligoclonal integrations of the HTLV-I provirus identical to the leukemic clone and predominantly expressed the cell surface markers, CD4 and CD25. In contrast, cell lines derived by HTLV immortalization of T cells in vitro did not persist or form tumors when inoculated into SCID mice, indicating differences between in vitro immortalized cells and ATL leukemic cells. This system represents the first small animal model to study HTLV-I tumorigenesis in vivo.
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PMID:Establishment of human T-cell leukemia virus type I T-cell lymphomas in severe combined immunodeficient mice. 833 42

Of the several families of endogenous retrovirus-like elements present in the mouse genome, only mouse mammary tumor virus has been analyzed for its role in mammary carcinogenesis. Very little is known about the expression and activities of other retro-elements in normal and malignant mammary epithelium. We have begun investigating the possible involvement of the 3 retrotransposons, intracisternal A particles (IAPs), murine-leukemia-virus-related (MuLVr) elements, and VL30 sequences, in neoplastic progression of the mammary gland in BALB/c mice. The purpose of the present study was to determine which of these elements was active in primary mammary carcinomas induced by chemical, hormonal and viral agents. Each of these cancers had aberrant expression of at least one of the latter retrovirus-like components. IAP and/or MuLVr sequences were over-expressed 3 to 100-fold in most of the tumors as compared with normal mammary tissue, whereas VL30 expression was markedly decreased by 5- to 35-fold in almost all of the neoplasms. Our results thus demonstrate that substantial changes in the expression of one or more of these 3 families of endogenous retrotransposons are triggered during mouse mammary tumorigenesis, regardless of etiology. Direct involvement of IAPs and MuLVr elements in neoplastic progression by transposition and insertional mutagenesis in the genome of several hematopoietic cell types has already been demonstrated. Their elevated expression in many mammary carcinomas suggests that these retrotransposons may also be potential participants in some pathways of mouse mammary carcinogenesis.
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PMID:De-regulation of endogenous retrotransposons in mouse mammary carcinomas of diverse etiologies. 839 34

Expression of exogenous wild-type (wt) p53 in different leukemia cell lines can induce growth arrest, apoptotic cell death, or cell differentiation. The hematopoietic cell lines that have been used so far to study wt p53 functions have in common the characteristic of not expressing endogenous p53. However, the mechanisms involved in the transformation of these cells are different, and the cells are at different stages of tumor progression. It can be postulated that each type of neoplastic cell offers a particular environment in which p53 might generate different effects. To test this hypothesis, we introduced individual oncogenes into untransformed, interleukin-3 (IL-3)-dependent myeloid precursor 32D cells to have a single transforming agent at a time. The effects induced by wt p53 overexpression were subsequently evaluated in each oncogene-expressing 32D derivative. We found that in not fully transformed, v-ras-expressing 32D cells, as already shown for the parental 32D cells, overexpression of the wt p53 gene caused no phenotypic changes and no reduction of the proliferative rate as long as the cells were maintained in their normal culture conditions (presence of IL-3 and serum). An accelerated rate of apoptosis was observed after IL-3 withdrawal. In contrast, in transformed, IL-3-independent 32D cells, wt p53 overexpression induced different effects. The v-abl-transformed cells manifested a reduction in growth rate, while the v-src-transformed cells underwent monocytic differentiation. These results show that the phenotype effects of wt p53 action(s) can vary as a function of the cellular environment.
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PMID:Wild-type p53 induces diverse effects in 32D cells expressing different oncogenes. 855 75

There is increasing evidence supporting the hypothesis that telomere shortening both in vitro and in vivo, is the clock that counts cell divisions and determines the onset of cellular senescence. Cells that overcome the normal senescence mechanisms do so by stabilizing telomere length, probably due to the activity of telomerase, a ribonucleoprotein enzyme that synthesizes telomeric repeats. Most human primary tumors contain telomerase, while the cells of most normal tissues lack this activity. A hypothesis gaining prominence is that the activation of telomerase is necessary for the sustained growth of most solid tumors. Since normal hematopoietic stem cells and some of their progeny already express telomerase activity, it is important to consider whether or not telomere shortening and telomerase activity play any role in cancer progression in various forms of leukemia. This review includes a discussion of the utility of telomere length and/or telomerase activity measurements in the diagnosis and prognosis of leukemia as well as the potential value of antitelomerase therapy for the leukemias.
Leukemia 1996 Aug
PMID:Telomeres and telomerase in human leukemias. 870 28

The CD44 cell surface proteoglycan participates in a variety of functions including lymphohematopoiesis, lymphocyte homing and tumor metastasis. In addition to the standard form (CD44st), a large family of variant isoforms (CD44v) is generated by alternative splicing of a single gene. Certain CD44v (v5 and V6) are upregulated in the course of neoplastic progression and reflect the metastatic potential of tumor cells. CD44 v6 is expressed in high-grade non-Hodgkin's lymphoma cells and is released in the serum, thus providing a soluble marker that reflects tumor burden, disease progression and treatment response. Here we show that serum CD44st is elevated in approximately half of B-CLL patients. In contrast, CD44v5 and v6 are detected at normal levels in the large majority of the cases. CD44st serum levels correlate significantly with the number of circulating leukemic B cells and with the levels of another soluble B-CLL marker, beta2-microglobulin. Immunoprecipitation analyses of B-CLL sera allow detection of several high molecular weight bands and of a 78 kDa band that represents a soluble form of CD44st and is 4 kDa lower than a similar band (82 kDa) detected in B-CLL cell lysates. Elevated serum CD44st associates with a number of unfavorable prognostic factors such as high peripheral blood lymphocytosis, splenomegaly, advanced disease stage and therapy requirement. A follow-up study indicates that serum levels of CD44st are related to disease status, thus reinforcing our veiw that this molecule may represent a reliable tumor marker in B-CLL.
Leukemia 1997 Jan
PMID:Increased serum levels of soluble CD44 standard, but not of variant isoforms v5 and v6, in B cell chronic lymphocytic leukemia. 900 29

Acceleration of lymphomagenesis in oncogene-bearing transgenic mice by slow-transforming retroviruses has proven a valuable tool in identifying cooperating oncogenes. We have modified this protocol to search for genes that can collaborate effectively with the transgene in later stages of tumor development. Propagation of tumors induced by Moloney murine leukemia virus (M-MuLV) in E mu-Pim1 or H2-K-myc transgenic mice by transplantation to syngeneic hosts permitted proviral tagging of 'progression' genes. Molecular cloning of common proviral insertion sites that were detected preferentially in transplanted tumors led to the identification of a novel gene, designated Frat1. The initial selection for integrations near Frat1 occurs in primary tumor cells that have already acquired proviruses in other common insertion sites, yielding primary lymphomas that contain only a minor fraction of tumor cells with an activated Frat1 allele. Transplantation of such primary lymphomas allows for a further expansion of tumor cell clones carrying a proviral insertion near Frat1, resulting in detectable Frat1 rearrangements in 17% of the transplanted E mu-Pim1 tumors and 30% of the transplanted H2-K-myc tumors, respectively. We have cloned and sequenced both the mouse Frat1 gene and its human counterpart. The proteins encoded by Frat1 and FRAT1 are highly homologous and their functions are thus far unknown. Tumor cell lines with high expression of Myc and Pim1 acquired an additional selective advantage in vivo upon infection with a Frat1-IRES-lacZ retrovirus, thus underscoring the role of Frat1 in tumor progression, and the ability of Frat1 to collaborate with Pim1 and Myc in lymphomagenesis.
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PMID:Activation of a novel proto-oncogene, Frat1, contributes to progression of mouse T-cell lymphomas. 903 27

The malignant cells of acute promyelocytic leukemia (APL) contain a reciprocal chromosomal translocation that fuses the promyelocytic leukemia gene (PML) with the retinoic acid receptor alpha gene (RAR alpha). To test the hypothesis that the chimera PMLRAR alpha plays a role in leukemogenesis, we expressed a PMLRAR alpha cDNA in myeloid cells of transgenic mice. PMLRAR alpha transgenic mice exhibited impaired neutrophil maturation early in life, which progressed at a low frequency over the course of several months to overt APL. Both the preleukemic state and the leukemia could be transplanted to nontransgenic mice, and the transplanted preleukemia could progress to APL. The APL recapitulated features of the human disease, including a response to retinoic acid. Retinoic acid caused the leukemic cells to differentiate in vitro and in vivo, eliciting remissions of both the preleukemic state and APL in mice. Our results demonstrate that PMLRAR alpha impairs neutrophil differentiation and initiates the development of APL. The transgenic mice described here provide an apparently accurate model for human APL that includes clear evidence of tumor progression. The model should be useful for exploring the molecular pathogenesis of APL and the mechanisms of the therapeutic response to retinoic acid, as well as for preclinical studies of therapeutic regimens.
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PMID:A PMLRARalpha transgene initiates murine acute promyelocytic leukemia. 912 33


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