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Query: UMLS:C0598766 (leukemogenesis)
 4,065 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This is a short overview concerning possible relationships between immunodeficiency and cancerogenesis/leukemogenesis. Following introductory remarks on concomitant and sinecomitant antitumor immunity, various factors/mechanisms that could influence tumor-host-interactions are discussed, in particular properties of neoplastic cell lines, the microenvironment, cellular components of nonspecific resistance, and specific, i.e. antigen-directed, cell-mediated and humoral immune responses against cancer cells. The increased incidence of malignant neoplastic processes in patients with inherited or acquired immunodeficiency raises the question if a lack of antitumoral defense or ineffective antiviral immunity is more important. Available data indicate that once a cancer has reached a certain size, the chances for the host to reject it solely with the help of its immune apparatus are minimal. The possibility remains that immune reactions may be more efficacious against small numbers of immunogenic tumor cells, i.e. in the very earliest phase of a neoplastic process and when the cancer begins to metastasize.
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PMID:Immunodeficiency and cancer: mechanisms involved. 353 11

Asparagine-linked oligosaccharides were isolated from normal and chronic leukemic leukocytes (normal neutrophils, normal lymphocytes, chronic myeloid, chronic lymphoid and hairy cell leukemic leukocytes) and analyzed by sequential lectin affinity column chromatography. The neutral and sialylated glycopeptides ranged in size from 1,800 to 4,000 da. on gel filtration. Sequential lectin affinity analysis was then used to fractionate the Asn-oligosaccharides into major structural classes of high mannose, hybrid, and bi-, tri- and tetraantennary complex structures. Using lectins of well defined specificity, the sequential chromatography provided a satisfactory means of assessing the overall glycopeptide profiles of the different leukocyte types. Results from 10 patient samples show that alterations in leukocyte Asn-oligosaccharides occur during leukemogenesis. Most notable was an average twofold increase in the relative amount of high mannose glycopeptides compared to complex glycopeptides for the leukemic cells. High mannose glycopeptides comprised 8.6 percent of the total lectin-adherent glycopeptides from leukemics, and 4.2 percent in the normals. In addition, carbohydrate analysis has revealed that the total amount of neutral hexose was markedly decreased in all leukemic samples. Leukemics ranged from 10.5 to 18.8, while normals ranged from 24.2 to 49.2 nanomole of hexose per 100 micrograms protein. The sialic acid content of the leukemic glycopeptides was relatively unchanged from that of normals, resulting in an apparent increase in the sialic acid: hexose ratio for all leukemic glycopeptides. The results suggest that in the leukemic cells, high mannose structures constitute a larger proportion of the total Asn-linked oligosaccharides, while the overall level of protein glycosylation is decreased. Complex multiantennary glycopeptides, when synthesized, tended to be more fully sialylated than their normal counterparts.
Cancer Biochem Biophys 1987 May
PMID:Lectin affinity fractionation of asparagine-linked oligosaccharides from normal human and chronic leukemic leukocytes. 362 Nov 40

The karyotype of B-cell leukemias of AKR origin was studied by G-banding. In contrast to previous observations indicating trisomy of chromosome 15 in spontaneous and chemically-induced B-cell leukemias, 11 out of 15 tumors analyzed had normal diploid karyotypes. Four tumors with the modal number 39-41 had different chromosome markers specific for each tumor. The possible correlation between non-random chromosomal changes and the target cell involved in the initial transformation in AKR leukemogenesis is discussed.
Int J Cancer 1987 Mar 15
PMID:Cytogenetic studies on B-cell leukemias of AKR origin. 381 27

The effect of thiabendazole (TBZ) and dinitrofluorobenzene (DNFB) on radiation-induced leukemogenesis was investigated in the C57BL/6 mouse model. Administration of TBZ-DNFB during, post, or during and post irradiation successfully blocked leukemogenesis, as indicated by the absence of leukemia blast cells in thymus and peripheral blood, as well as prevented thymic lymphoma. TBZ-DNFB treatment prevented the development of leukemia when studies were terminated both after 7 months of last irradiation (disease fully developed) and after 5 months of last irradiation (disease in the process of development). This TBZ-DNFB treatment also resulted in a significant increase in survival.
J Natl Cancer Inst 1985 Apr
PMID:Reversal of gamma-radiation-induced leukemogenesis in mice by immunomodulation with thiabendazole and dinitrofluorobenzene. 387 57

In these studies the extent of the requirement for 5-methyltetrahydrofolate by L1210 cells for growth and leukemogenesis in vivo was addressed from the aspect of its cellular membrane transport. Growth characteristics and leukemogenesis in vivo were determined for parental and methotrexate-resistant L1210 cell variants with reduced capacity for folate coenzyme transport inward. These variants exhibited 6-, 16-, and 100-fold reductions compared to parental cells in influx Vmax for the high-affinity system transporting 5-substituted reduced folates and methotrexate. They also exhibited reduced saturability for methotrexate influx (3-fold higher Km), but not for influx of 5-formyltetrahydrofolate or 5-methyltetrahydrofolate. The reduced influx capacity in these variants correlated with their increased requirement for reduced folates during growth in vitro and with the ability of the variants to proliferate and develop leukemia in vivo. Lack of growth potential in vivo for one variant appears to reflect the inability for net intracellular accumulation of reduced folate per se, since growth of this variant could be restored by treatment of mice with folic acid, but not with 5-methyltetrahydrofolate or 5-formyltetrahydrofolate, and following reversion to a more transport-proficient phenotype.
Cancer Res 1985 Oct
PMID:Extent of the requirement for folate transport by L1210 cells for growth and leukemogenesis in vivo. 387 99

Continuous protracted gamma irradiation (17.5 rad/22 h day for 28 days) resulted in significant life-shortening in RF/J mice due to lymphohematopoietic malignancies. The latency period of these neoplasms was decreased in irradiated RF/J versus unirradiated RF/J mice. No effect on leukemia incidence was observed in either irradiated or unirradiated CAF1 mice that served as control animals representing a strain with normal baseline lymphohematopoiesis. Lymphohematopoietic progenitor cell populations (CFU-GM and CFU-BL) were quantitated in unirradiated and chronically irradiated mice of both strains. The most remarkable differences in these parameters were seen with respect to CFU-BL. Unirradiated and irradiated RF/J mice produced over three times as many CFU-BL as CAF1 mice. Tremendously expanded lymphoid progenitor cell compartments in the RF/J mice may reflect the presence of numerically increased sensitive targets subject to radiation-induced damage and transformation. During a 12-week recovery period, CFU-BL and CFU-GM in the RF/J mice exhibited enhanced regenerative capabilities and overcompensatory responses that surpassed homeostatic baseline levels. Despite strain and strain X dose differences in CFU-BL and CFU-GM, no significant strain X dose relationships were seen in circulating leukocyte counts. This heightened proliferative activity and temporary overstimulation of radiation-damaged lymphohematopoietic tissues may allow sufficient promotional effect for leukemogenesis.
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PMID:Kinetics of lymphohematopoietic progenitor cell populations in chronically irradiated RF/J mice. 390 25

We investigated the possible role of protein kinase C (PKC) in the progression of Moloney murine leukemia virus (Mo-MuLV)-induced lymphoma in BALB/c mice. Mice injected with Mo-MuLV on the first day after birth developed lymphoma within 1 1/2-3 months. The development of lymphoma was characterized by a gradual increase in the number of spleen cells. However, no analogous changes could be detected in the thymuses of these mice, although cells of both organs were found to be virus producers as early as 3-4 weeks after inoculation. PKC activity, which was assayed in extracts of spleen and thymus cells, declined gradually during the development of lymphoma. Concomitantly with this decline, a progressive appearance of Ca2+/lipid-independent protein kinase activity was observed. TPA treatment of intact cells from normal mice reduced the level of soluble PKC activity, while inducing Ca2+/lipid-independent phosphorylation. By contrast, TPA had no effect on these enzymatic activities in cells derived from leukemic mice. Spleen enlargement caused by injection of a non-leukemogenic inflammatory agent such as mineral oil was ineffective in this respect, suggesting that the PKC-Ca2+/lipid-independent protein kinase modulation is associated with the virally induced leukemogenesis.
Int J Cancer 1986 Apr 15
PMID:Modulation of protein kinase C and Ca2+ lipid-independent protein kinase in lymphoma induced by Moloney murine leukemia virus in BALB/c mice. 395 64

The influence of cyclophosphamide (CY) on Friend virus leukemogenesis was studied in SJL/J, C57BL/10J, and C57BL/10J X SJL/J F1 (hereafter called B10SJF1) mice. All three differ in their susceptibility to the viral oncogenic effect. Immunosuppressive doses of CY, which by themselves produced no cancer, were followed 2 days later by injection of Friend leukemia virus. The virus doses were the same as used previously. Although in other experiments preinjection of various chemical carcinogens augmented leukemogenesis by Friend leukemia virus in SJL/J mice, in the present study, pretreatment by CY had no such effect. In contrast, CY increased Friend erythroleukemia incidence from 15 to 100% in B10SJF1 mice and from 0 to 85% in C57BL/10J mice. The disease in C57BL/10J mice had a 190-day incubation period, which is approximately 5 times that in the SJL/J and B10SJF1 mice. During this latent period, the C57BL/10J mice harbored infectious Friend leukemia virus in their plasma.
Cancer Res 1985 Feb
PMID:Effect of cyclophosphamide on Friend virus leukemogenesis in virus-sensitive and virus-resistant mice. 396 30

Radiation chimeras with trisomy 19 hematopoietic cells were constructed to test the sensitivity of the trisomic hematopoietic system to infection with Rauscher leukemia virus: Hematopoietic cells from livers of trisomic fetuses were rescued by transplantation into lethally irradiated adult mice. These Ts 19 radiation chimeras show a stable and sufficiently long-lived trisomic hematopoiesis to allow experimental induction of Rauscher leukemia. Rauscher leukemia virus (RLV) induced a marked proliferation of erythroblasts in the spleens of Ts 19 mice and control chimeras within 3 weeks. The onset of erythroblast proliferation was significantly delayed in the Ts 19 mice, suggesting a smaller number of target cells for the RLV and/or reduced susceptibility of the target cells to RLV. Both Ts 19 and control chimeras developed nonlymphocytic leukemia 2-4 months after RLV injection. The course of leukemogenesis was similar in the two experimental groups. No numerical chromosome abnormalities associated with leukemogenesis were detectable in Ts 19 or control cells. The numbers of chromosomal sister chromatid exchanges 2 weeks after RLV injection were elevated to the same degree in both Ts 19 and control cells. Thus, cells with constitutional trisomy do not show increased chromosomal instability due to leukemogenesis.
J Cancer Res Clin Oncol 1985
PMID:Susceptibility of mice reconstituted with trisomy 19 hematopoietic cells to infection with Rauscher leukemia virus. 403 80

We have highlighted the events leading to the discovery of the first human RNA tumor virus and then reviewed what is currently known about its biology. From this, it is clear that we have only begun to appreciate the biologic diversity, the geographic distribution, and the disease spectrum of this family of human T-lymphotropic retroviruses which we collectively term HTLV. At a basic level, HTLV provides a unique opportunity to study in vitro and in vivo mechanisms of cell transformation. Given its close association with adult T-cell leukemia and its ability to efficiently immortalize primary cells in vitro, we believe that HTLV will very likely harbor clues to the biology of cell growth, differentiation, and transformation. At a more clinical level, the close association between HTLV and a malignancy of clonally expanded (HTLV-containing) mature T-cells argues strongly for a causal relationship, although the mechanism for such is currently unknown. It is likely that further study of the molecular and cellular biology of this virus will bring together these basic and clinical findings and elucidate, at least in part, one mechanism for human leukemogenesis. From a more speculative viewpoint, the role of HTLV in the pathogenesis of human disease appears even broader. As discussed in this chapter, there are indications that all subtypes of HTLV may produce immunosuppression both in vitro and in vivo, and there is now exciting new data to suggest that a novel member of this family of viruses, HTLV-III, is causally linked to the AIDS syndrome. Moreover, the possibility has been raised that the immunosuppressive properties of HTLV could predispose patients to non-T-cell malignancies as occurs in patients with AIDS or chemically induced immunosuppression. Finally, by employing the experimental strategies which were successful in isolating HTLV-I, HTLV-II, and HTLV-III, it may be possible in the future to identify still other human retroviruses.
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PMID:Human T-cell leukemia virus: its discovery and role in leukemogenesis and immunosuppression. 608 47


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