UMLS:C0023418 - FACTA Search

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A greater understanding of the underlying mechanisms of hematopoiesis and leukemogenesis in the clinical management of acute myeloid and lymphoblastic leukemia has led to an improvement in survival from what were invariably fatal diseases. Bone marrow transplantation is increasingly becoming an accepted form of therapy for acute myeloid leukemia and acute lymphoblastic leukemia in certain situations. This review seeks to address some of the recent advances and controversies including whether bone marrow transplantation is more efficacious than modern intensive chemotherapy, the role of autologous bone marrow transplantation and matched-unrelated donor transplants, the graft-versus-leukemia effect, and the role of purging in autologous bone marrow transplantation. Furthermore, advances in supportive therapy including the introduction of hematopoietic growth factors is critically evaluated. Finally, the appropriate timing and role of bone marrow transplantation is discussed in the context of previous ongoing and future clinical trials.
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PMID:Modern trends in bone marrow transplantation for acute myeloid and acute lymphoblastic leukemia. 159 Dec 99

In experimental models, leukemia was the first disease shown to have an association with the major histocompatibility complex (MHC) genes. In humans, several allelic human-leukocyte antigen (HLA) associations also have been recognized. In addition to allelic associations, atypical HLA segregation patterns have been observed in leukemic families. These include a higher frequency of HLA-identical unaffected siblings, increased HLA homozygosity and increased maternal HLA-DR identity. These observations suggest preferential transmission of disease-associated haplotypes and a male transmission bias in leukemic families. The lack of disease-specific segregation, however, supports the idea that the HLA system is not directly relevant in leukemogenesis. Therefore, the existence of another genetic region linked to the MHC, causing segregation distortion, and containing recessive leukemia susceptibility genes may be postulated. The mouse t-complex would fit this model. This gene complex has recessive (semi-) lethal genes, is transmitted preferentially through fathers, and both the mouse t-complex and its rat homolog, growth and reproduction complex grc, confer susceptibility to carcinogenesis. This model could also explain the increased spontaneous abortion rate in mothers of leukemic patients, epidemiologic associations of leukemia with oral clefts and neuroectodermal tumors, and the transmission of a radiation-induced leukemia risk through fathers. Such segregation distortion might be the reason behind the maintenance of a gene(s) with a lethal effect in the population.
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PMID:Major histocompatibility complex, t-complex, and leukemia. 161 Sep 74

We have used panels of somatic cell hybrids and fluorescent in situ hybridization to determine the chromosomal localization of the novel nontransmembrane tyrosine phosphatase PTPN6 (protein tyrosine phosphatase, nonreceptor type 6), which contains two SH2 domains. PTPN6 maps to 12p13, a region commonly involved in leukemia-associated chromosomal abnormalities. Since PTPN6 is expressed at high levels in hematopoietic cells of all lineages and its expression is induced early in hematopoietic differentiation, altered expression and/or structure of PTPN6 may play a role in leukemogenesis.
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PMID:Chromosomal localization of an SH2-containing tyrosine phosphatase (PTPN6). 163 16

We previously described a preleukemic state induced by Moloney murine leukemia virus (Mo-MuLV) characterized by hematopoietic hyperplasia in the spleen. Further experiments suggested that splenic hyperplasia results from inhibitory effects in the bone marrow, leading to compensatory extramedullary hematopoiesis. An enhancer variant of Mo-MuLV, Mo + PyF101 Mo-MuLV, fails to induce preleukemic hyperplasia and has greatly reduced leukemogenicity, indicating the importance of this state to efficient leukemogenesis. An alternative method for induction of preleukemic hyperplasia was sought. Treatment of mice with 89Sr causes specific ablation of bone marrow hematopoiesis and compensatory extramedullary hematopoiesis in spleen and nodes. NIH Swiss mice were inoculated neonatally with Mo + PyF101 Mo-MuLV and treated with 89Sr at 6 weeks of age. Approximately 85% developed lymphoid leukemia with a time course resembling that caused by wild-type Mo-MuLV. In contrast, very few animals treated with Mo + PyF101 Mo-MuLV or 89Sr alone developed disease. In approximately one-third of cases, the Mo + PyF101 Mo-MuLV proviruses were found at common sites for wild-type Mo-MuLV-induced tumors (c-myc, pvt-1, and pim-1), indicating that this virus is capable of performing insertional activation in T-lymphoid cells. These results support the proposal that splenic hyperplasia results from inhibitory effects in the bone marrow. They also indicate that Mo + PyF101 Mo-MuLV is blocked in early and not late events in leukemogenesis.
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PMID:Bone marrow depletion by 89Sr complements a preleukemic defect in a long terminal repeat variant of Moloney murine leukemia virus. 164 40

A non-leukemogenic version of the v-myb oncogene causes in vitro transformation of avian myeloblasts, which are dependent on chicken myelomonocytic growth factor (cMGF). We have shown that this version of v-myb, when combined with the erythroleukemia-inducing v-erbB oncogene, is capable of causing a mixed myeloid and erythroid leukemia. Myeloid leukemic cells transformed by this construct produce cMGF. To test whether autocrine growth stimulation via cMGF is the essential contribution of the tyrosine kinase oncogene v-erbB in avian myeloid leukemogenesis we constructed another retrovirus containing both the non-leukemogenic v-myb and the cMGF cDNA. This virus induced myeloid leukemia at high efficiency. In a third construct we combined v-myb with the human EGF-receptor gene. Myeloid cells transformed by this construct could be stimulated to grow by the addition of cMGF or EGF. Growth stimulation with EGF was blocked by a cMGF antiserum indicating that activation of a normal tyrosine kinase-type receptor induces cMGF expression but does not bypass the cMGF requirement. We conclude that cMGF plays a key role in the growth regulation of normal and transformed avian myeloid cells.
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PMID:Activation of cMGF expression is a critical step in avian myeloid leukemogenesis. 167 38

A locus in feline DNA, termed flvi-1, has been identified as harboring retroviral integrations commonly found in natural feline lymphomas induced by infection with feline leukemia virus (FeLV). Southern blot analysis of human and murine DNA using restriction fragments representing flvi-1 demonstrates its phylogenetic conservation among mammals, flvi-1 is localized to murine chromosome 2, proximal portion of band E, by in situ hybridization to metaphase chromosomes. This position is adjacent to that of another putative proto-oncogene, sfpi-1, although probes representing flvi-1 and sfpi-1 do not cross-hybridize. The repeated implication of flvi-1 in natural feline leukemogenesis, its evolutionary conservation and its chromosomal position support the hypothesis that flvi-1 may represent a previously unidentified protooncogene.
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PMID:Evolutionary conservation and chromosomal localization of flvi-1. 167 30

We recently showed that hemopoietic stem cells expressing the v-abl oncogene can cause leukemia when injected into lethally irradiated recipient mice. Progenitor cells expressing v-abl did not significantly contribute to disease development, and the leukemia was monoclonal in origin. By serially transplanting v-abl-transduced hemopoietic stem cells into normal, nonirradiated syngeneic recipients, we showed that multiple stem-cell clones do exist in some recipients. These cells fluctuated as normal stem cells do and could home to normal bone marrow. Based on the time course of disease, the recipients developed either an acute or a chronic phase of disorder. All recipients with the acute disease had stem-cell clones with random Abelson murine leukemia virus integration sites. All recipients with the chronic disorder had a specific Abelson murine leukemia virus integration site. We believe this abl-specific integration site, termed ASI, is important in abl-mediated stem-cell leukemogenesis.
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PMID:Chronic myeloproliferative disease induced by site-specific integration of Abelson murine leukemia virus-infected hemopoietic stem cells. 168 23

Southern blot analysis revealed no difference between the DNA from radiation-induced thymic lymphomas and DNA from normal NFS mice. The probes used in the Southern blot analyses used a murine leukemia virus (MuLV) env DNA probe (pXenv), which specifically hybridizes with xenotropic and recombinant viral env genes, and mouse mammary tumor virus (MMTV) DNA probes (MMTV gag-pol, MMTV env, and MMTV LTR). This suggests that radiation leukemogenesis was not associated with gross alteration of the organization of these retroviral genomes. In DNA from radiation-induced thymic lymphoma, there was no indication of gross rearrangement in the common integration site of MuLV, pim-1, or in the common integration sites of MMTV, int-1 and int-2. Dot blot analysis of RNA from radiation-induced thymic lymphomas and normal thymuses demonstrated that there was no substantial difference between them in the expression of retroviral sequences, pim-1, pvt-1, int-1, or int-2, although transcripts that could be hybridized to the retroviral sequences were slightly elevated in some radiation-induced thymic lymphomas. These results show that radiation leukemogenesis does not appear to involve the activation of endogenous type-C and type-B retroviruses.
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PMID:Lack of evidence for the involvement of type-C and type-B retroviruses in radiation leukemogenesis of NFS mice. 169 Apr 35

Our laboratory has focused on defining, localizing, and understanding the mode of action of genes involved in fractionated x-irradiation (FXI) leukemia in susceptible and restraint mouse strains. We have described the genetic and molecular evidence suggesting the existence of multiple independent loci involved in FXI-induced leukemogenesis. These studies indicated that one of these, Ril-1, a locus on the distal portion of chromosome 15, is the major locus influencing susceptibility to the disease. Our data unequivocally place Ril-1 in the gene complex Ly-6--Ril-1--Sis--H-30--Pol-5. Ril-1 appears to be closest to Ly-6 and Sis. We report that in FXI-induced leukemias there are hypomethylation changes in the Ly-6 region as compared to normal thymocytes. In contrast, Sis was found to be hypermethylated and not expressed. In addition, we have noted DNA rearrangements in the Ly-6--Pol-5 region in the majority of tumors examined using the Ly-6 and spleen focus-forming virus (SFFLV) molecular probes. Increased expression of Ly-6 and other surface markers encoded in this region has been noted in FXI-induced thymomas.
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PMID:Effects of fractionated x-irradiation on the Ly-6--Ril-1--Pol-5 region. 170 Jul 61

The Philadelphia (Ph) translocation is responsible for the generation of the chimeric BCR/ABL oncogene. The Ph chromosome constitutes the earliest detectable chromosome abnormality in chronic myelogenous leukemia and is also found in acute lymphoblastic leukemia. Mice transgenic for a P190 BCR/ABL-producing DNA construct develop lymphoblastic leukemia/lymphoma and provide an opportunity to study early stages of the disease as well as progression. In this study, we have karyotyped the bone marrow of 10 19-day-old BCR/ABL P190 transgenic mice from a line that reproducibly develops leukemia/lymphoma. Leukemic cells from 17 terminally ill transgenic founders and progeny were also karyotyped as well as bone marrow transplant recipients of leukemic donor marrow. Karyotypically visible aberrations were absent from the early stages of BCR/ABL P190-generated leukemia and normal metaphases could be found even in the terminal stages of the disease. A high frequency of aneuploidy was found in advanced leukemia, with a marked preference for the gain of mouse chromosomes 12, 14, or 17. These results point to a primary role for BCR/ABL in leukemogenesis and suggest a destabilizing effect of the BCR/ABL gene on the regulation of cell division.
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PMID:Clonal development and karyotype evolution during leukemogenesis of BCR/ABL transgenic mice. 173 87

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