Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0026764 (multiple myeloma)
 36,148 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The pathogenesis of the anemia of cancer involves the combination of a shortened erythrocyte survival in circulation with the failure of bone marrow to increase red cell production in compensation. Inappropriate red cell production is itself related to a conjunction of factors, including impaired availability of reticuloendothelial storage iron, inadequate erythropoietin (Epo) response to anemia, and overproduction of cytokines which are capable of inhibiting erythropoiesis. Many of these cytokines may interfere with erythropoietin production by the kidney. Consequently inadequate serum erythropoietin levels are often encountered in cancer patients, though more frequently in those with solid tumors or multiple myeloma than in those with other hematologic malignancies. There is little evidence supporting a negative impact of chemotherapy, including cisplatin, on erythropoietin production. Rather, chemotherapy usually causes a transient elevation of serum Epo. Red cell transfusions are often administered to cancer patients, possibly resulting, among other deleterious effects, in enhancement of tumor growth. Recombinant human erythropoietin (rHuEpo) has thus been proposed as an alternative. RHuEpo has been shown to be safe and effective in correcting the anemia of cancer and reducing the need for transfusions. The response rate is as good in hematologic malignancies as in solid tumors, but it is extremely poor in those with myelodysplastic syndromes. The effect of rHuEpo does not differ among patients receiving or not receiving chemotherapy, including cisplatin. The probability of response is also similar in patients with adequate or inappropriate erythropoietin production before therapy, although the doses used are usually 2 to 3 times higher than in renal failure patients.
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PMID:Erythropoietin and the anemia of cancer. 866 61

Recombinant erythropoietin (r-HuEPO) was the first growth factor introduced into clinical practice. The main indication for its therapeutic use remains treatment of anaemias during chronic renal failure. In Czech Republic it is at present administered to 55% of patients included in a regular haemodialyzation program and in the pre-dialyzation stage of the disease, consistent with European practice. In addition to a marked improvement of the quality of life, during r-HuEPO treatment also the prevalence of some cardiovascular complications is reduced and immune functions improve. The list of diseases where r-HuEPO therapy is indicated has been, however, extended nowadays. A very favourable effect was recorded in some haematological malignicies and solid tumours. The best results were observed so far in the treatment of anaemia associated with multiple myeloma and chronic lymphatic leukaemia, and also in malignant lymphomas, carcinoma of the breast and ovary. It is used also in the treatment of suppressed erythropoiesis resulting from cytoreducing therapy. Other indications include anaemia after transplantations of bone marrow, preparation before autologous transfusions and some cases of myelodysplastic syndrome. The authors mention also other contemporary possibilities of r-HuEPO use.
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PMID:[Erythropoietin in the treatment of anemias]. 868 10

Thirty-one patients (median age, 44 years) with advanced hematologic malignancies were given thiotepa 15 mg/kg, and cyclophosphamide 120 (n = 14) or 150 (n = 17) mg/kg followed by unfractionated peripheral blood stem cell transplants (PBSCT) from genotypically identical siblings (n = 28) or one antigen mismatched family donor (n = 3). Donors were mobilized with granulocyte colony-stimulating factor 5 to 10 microgram/kg/d for 6 days and underwent two to three leukapheresis on days +5, +6, +7. The median cell yield per donor expressed/kg of recipients body weight was as follows: nucleated cells 13 x 10(8)/kg; CD34+ cells 6 x 10(6)/kg; colony-forming unit-granulocyte macrophage 38 x 10(4)/kg, and CD3+ cells 449 x 10(6)/kg. The diagnoses were chronic myeloid leukemia (n = 4), acute myeloid (n = 9) or lymphoid leukemia (n = 2), acute myelofibrosis (n = 2), multiple myeloma (n = 1), lymphoma (n = 6), chronic lymphocytic leukemia (n = 1) myelodysplasia (n = 6). Twenty-eight patients had advanced disease, 29 patients were first grafts, and 2 were second transplants 3 and 9 years after the first. Neutrophil counts of 0.5 x 10(9)/L and platelet counts of 30 x 10(9)/L platelets were both achieved on day +14 (median). Engraftment could be proven by sex markers or DNA polymorphism in 29 of 31 patients: one had early leukemia relapse and one patient was unevaluable because of early death. Acute graft-versus-host disease (GVHD) was scored as minimal or absent (grade 0 to 1) in 14 patients, moderate (grade II) in 13, and severe (grade III to IV) in four. Causes of death were leukemia (n = 4), acute GVHD (n = 4, with associated cytomegalovirus infections in three), sepsis (n = 1), liver failure (n = 1), multiorgan failure (n = 1), and hemorrhage (n = 1). The actuarial transplant mortality is 29%, the actuarial relapse rate 22%. Nineteen patients survive with a median follow up of 288 days (100-690). The actuarial 2-year survival is 57%. Three patients received PBSCT from family donors mismatched for one class II antigen: all engrafted, one developed grade I aGVHD; one died of leukemia on day +155; two are alive disease free 267 to 290 days postgraft. This study suggests that thiotepa cyclophosphamide followed by unfractionated PBSC allograft may be an alternative form of transplant for adults with advanced leukemia, also in the setting of one antigen mismatched donor. The engraftment is rapid with acceptable GVHD and relatively low transplant-related mortality.
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PMID:Thiotepa cyclophosphamide followed by granulocyte colony-stimulating factor mobilized allogeneic peripheral blood cells in adults with advanced leukemia. 870 95

The survival, proliferation, differentiation and function of normal hematopoietic cells are negatively and positively controlled by various cytokines. Survival and proliferation of leukemic cells appears to be influenced, at least in vitro, by several cytokines. Among the different hematopoietic cell lineages, megakaryocytopoiesis represents a complex and unique hematopoietic system that is thought to be supported by some well-known cytokines; however, the hypothetical lineage-specific main regulator of platelet production, termed thrombopoietin (TPO) had remained elusive. Recently, characterization of the proto-oncogene c-mpl revealed structural homology with the hematopoietic cytokine receptor superfamily, specific expression on cells of the megakaryocytic lineage and functional involvement in megakaryocytopoiesis. Several groups purified and cloned the MPL ligand. Extensive in vitro and in vivo studies have shown that the MPL ligand has activity in stimulating both megakaryocytopoiesis and platelet production proving that this ligand is the long-sought growth factor TPO itself. The MPL receptor was found at the mRNA and/or protein level in 40-80% of primary acute myeloid leukemia (AML) cases in various series. MPL expression was not limited to certain morphological FAB types, although the highest percentages were seen in the M6 (erythroid) and M7 (megakaryocytic) subclasses. Among the myelodysplastic syndromes (MDS), MPL expression was detected in one third of the cases, in particular in refractory anemia with excess of blasts and chronic myelomonocytic leukemia. Lymphoid malignancies such as acute lymphoblastic leukemia (ALL), non-Hodgkin's lymphoma (NHL) and myeloma were MPL-negative. Among the large panel of human leukemia-lymphoma cell lines studied, MPL expression occurred predominantly in lines with erythro-megakaryocytic phenotypes. Nearly all primary and continuously cultured non-hematopoietic solid tumor samples were negative for MPL expression. A significant portion of AML cases and of erythroid, megakaryocytic and myeloid leukemia cell lines co-expressed TPO and MPL mRNA transcripts, although no biologically active TPO appeared to be secreted by these cells. In several studies TPO induced in vitro proliferation of 14-37% of primary AML cases, predominantly of the M2 and M7 subtypes. TPO significantly enhanced the cytokine-induced growth of AML cells in a substantial fraction of cases responsive to GM-CSF, IL-3, IL-6 or SCF. While none of 30 growth factor-independent erythro-megakaryocytic leukemia cell lines responded to TPO with increased proliferation, TPO strongly augmented the growth of several constitutively cytokine-dependent cell lines (eg HU-3, M-07e, TF-1) which can be made TPO-dependent and used as bioassays. Neither in primary cells nor in cell lines did TPO appear to induce any signs of morphological, functional or immunological differentiation. Expression of the MPL receptor is not correlated with a proliferative response to TPO. In summary, extensive studies on normal human and animal cells demonstrated the specificity and function of the MPL receptor and proved that its ligand TPO is the major physiological regulator of megakaryocytopoiesis. The data reviewed here document the wide expression of the MPL receptor on AML cells and also suggest some proliferative effects on certain leukemia cells, apparently on non-megakaryocytic AML cells as well. Thus, experimental evidence supports the notion that TPO may contribute, at least in part, to leukemogenesis, especially in combination with other hematopoietic cytokines which is of clinical significance. TPO-responsive cell lines represent powerful tools for such analyses.
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PMID:Thrombopoietin: expression of its receptor MPL and proliferative effects on leukemic cells. 875 57

The occurrence of multiple malignancy was studied in 674 patients with hematologic malignancies who were admitted to this department during the past 10 years. Of the 674 patients, 205 were aged 65 years or older, and 56 (8.3%) had another cancer. The frequency of multiple malignancy was significantly higher in older patients than in younger patients: 44 (21.5%) vs. 12 (2.6%). The major hematologic conditions in patients with multiple malignancy were multiple myeloma, myelodysplastic syndromes, non-Hodgkin's lymphoma, and chronic myelogenous leukemia. The major sites of cancers other than hematological malignancies were the stomach, colon, breast, and esophagus. Many of the older patients had gastric cancer or colon cancer, and gastric cancer was common in the younger patients. The multiple malignant neoplasms were synchronous in as many as 20 of the 44 older patients. There was only one such case among the younger patients. Of the 56 patients, nine had received alkylating agents, and one has received etoposide. In brief, elderly patients with hematologic malignancies are likely to have multiple malignant neoplasms. If they are synchronous, the patient's prognosis may be adversely affected, because simultaneous management of multiple malignant neoplasms is not easy.
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PMID:[Double cancer in elderly patients with hematologic malignancies]. 875 14

Erythropoietin can be successfully used in the treatment of anaemia induced by chemotherapy and radiotherapy as well as for the treatment of anaemia induced by malignant disease without previous chemotherapy of radiotherapy. Erythropoietin administered during chemotherapy is effective in 50-70% patients, it has a more marked effect as a supplement to chemotherapy with cisplatinum and carboplatinum than non-platinum regimens. Erythropoietin reduces the consumption of red cell concentrates during chemotherapy on average by one half. Long-term administration of erythropoietin in anaemia caused by malignant disease alone proves most effective in multiple myeloma and in chronic lymphatic leukaemia or in non-Hodgkin lymphomas with a low malignity. The therapeutic responses defined as independence on transfusions and a rise of the haemoglobin level by at least 20 g/l, as compared with the pretreatment value, can be achieved in 60 to 80% of the patients. Erythropoietin is much less effective (10-20% therapeutic responses) in myelodysplastic syndrome, in myeloproliferative diseases or in aplastic anaemia. The authors give an account on the effectiveness of erythropoietin in different indications.
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PMID:[Erythropoietin in oncology. II. Evaluation of the effectiveness of erythropoietin in hematologic and oncologic diseases]. 876 96

Bone marrow malignancies are clonal disorders resulting from neoplastic transformation of hematopoietic stem or progenitor cells. Similar to their normal counterparts, transformed blood-forming cells remain dependent on signals from the hematopoiesis-regulating stromal environment for survival and proliferation. There is increasing evidence that the microenvironment may also take a more active part in the disease process. A review of the literature on stromal abnormalities in the leukemias, the myelodysplastic syndromes, and multiple myeloma reveals three principal mechanisms by which stromal derangements can contribute to the evolution of a neoplastic disease. In the simplest case, neoplastic blood-forming cells induce reversible changes in stroma function or composition which result in improved growth conditions for the malignant cells ('malignancy-induced microenvironment'). In the second setting, functionally abnormal end cells derived from the malignant clone become an integral part of the stroma system, selectively stimulating the neoplastic cells and inhibiting normal blood cell formation ('malignant microenvironment'). In the third condition, the emergence of a neoplastic cell population is the consequence of a primary stroma lesion characterized by inability to control regular blood cell formation ('malignancy-inducing microenvironment'). The perception of different stroma-related disease mechanisms may eventually lead to the development of alternative therapeutic approaches.
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PMID:Stromal abnormalities in neoplastic bone marrow diseases. 877 14

Eleven patients with advanced multiple myeloma (MM) received syngeneic marrow (n = 10) or peripheral blood stem cell (n = 1) transplants following cyclophosphamide (CY) and total body irradiation (TBI) (n = 8), busulfan (Bu) and CY (n = 1), Bu, CY and TBI (n = 1) or Bu, melphalan and thiotepa (n = 1). At the time of transplant one patient had stage II and 10 patients had stage III disease. Four patients had refractory disease, two had chemotherapy sensitive disease and five had progressed after an initial response to chemotherapy. The median time from diagnosis to transplant was 353 days (range 176-6118). After transplant, the median time to achieve granulocytes of 0.5 x 10(9)/l and platelets of 20 x 10(9)/l was 12 days (range 9-20) and 12 days (9-27), respectively. One patient died of interstitial pneumonia syndrome on day 32 and one died of veno-occlusive disease of the liver on day 44 post-transplant, and these were unevaluable for response. Five of nine evaluable patients achieved a complete response (CR), three a partial response, and one patient had no response. Three patients who did not achieve CR died of progressive disease 106, 142 and 321 days post-transplant. Of five patients who achieved a CR, three relapsed on days 539, 737 and 1706 and died on days 1759, 1596 and 1736, respectively; one patient died of myelodysplastic syndrome on day 1407 without evidence of MM and one patient is alive and disease-free 3297 days after transplant. One of the two long-term survivors has a persistent monoclonal protein in the blood 15 years post-transplant. These data show that high-dose therapy and infusion of normal syngeneic marrow cells can cure a small fraction of patients with MM. However, the majority of patients did not achieve durable CR, demonstrating the need for improved transplant conditioning regimens, earlier transplant or additional post-transplant treatment strategies when syngeneic transplants are performed.
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PMID:Syngeneic marrow transplantation in patients with multiple myeloma. 887 13

To investigate the pathophysiological role of thrombopoietin (TPO) in thrombopoiesis, we measured its serum levels in 15 healthy individuals, 84 patients with various hematological diseases and 2 patients with liver cirrhosis using an enzyme immunoassay procedure. The TPO level was 0.84 +/- 0.40 f mol/ml in normal individuals. TPO levels were considerably elevated in patients with myelosuppression after intensification chemotherapy of acute leukemia in complete remission (postchemotherapy group; n = 18; 18.46 +/- 9.70 f mol/ml). When the data of normal individuals and the postchemotherapy group were combined, TPO levels were inversely correlated with the platelet count in this combined group. We compared these data of normal individuals and the postchemotherapy group with various hematological disease states. In aplastic anemia (n = 13; 16.03 +/- 9.44 f mol/ml), acute lymphoblastic leukemia (n = 5; 10.36 +/- 5.57 f mol/ml), malignant lymphoma (n = 6; 2.79 +/- 2.27 f mol/ml), multiple myeloma (n = 3; 3.34 +/- 0.20 f mol/ml) and chronic lymphocytic leukemia (n = 2; 1.71 +/- 3.91 f mol/ml), the relationship of serum TPO levels and platelet counts was almost the same as in the combined group with normal individuals and the postchemotherapy group. However, the TPO levels were slightly higher in myeloproliferative disorders (n = 12; 1.99 +/- 1.47 f mol/ml) and lower in acute myelogenous leukemia (n = 8; 2.27 +/- 1.25 f mol/ml), hypoplastic leukemia (n = 3; 2.76 +/- 2.23 f mol/ml), myelodysplastic syndrome (n = 2; 0.42 +/- 0.60 f mol/ml), liver cirrhosis (n = 2; 1.50 +/- 0.92 f mol/ml) and idiopathic thrombocytopenic purpura (n = 12; 2.08 +/- 1.41 f mol/ml), when compared to the regression line for the combined group with normal individuals and postchemotherapy group. These findings suggest that TPO might play an important role in regulation of the platelet count in normal and pathological conditions.
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PMID:Serum thrombopoietin level in various hematological diseases. 888 96

Myelodysplastic syndromes (MDS) and acute myeloid leukaemia (AML) have been reported after autologous transplantation (AT) for lymphoma. It is not clear whether myeloablative therapy used in conjunction with autologous transplantation contributes to the development of MDS/AML or whether the conventional chemotherapy preceding the transplant, and administered over a prolonged period, causes these secondary malignancies. To address this issue, we examined 188 patients with multiple myeloma (MM) who had received AT. 71 patients with no more than one cycle of standard chemotherapy were enrolled in our Total Therapy program, designed to avoid exposure to alkylating agents prior to peripheral blood stem cell mobilization (group 1). The median duration of pretransplant therapy in group 1 was 7.6 months and significantly shorter than the 24 months of 117 patients (group 2) with more prolonged conventional therapy (P = 0.0001). All seven patients developing MDS post-transplantation belonged to group 2 (P = 0.02); the median durations from initial therapy and first transplant were 66 months (range 38-86) and 24 months (range 9-39), respectively. Our findings provide evidence that prolonged standard-dose alkylating agent therapy prior to transplantation, rather than autotransplant-supported myeloablative treatment, is associated with development of MDS/AML. Stem cell damaging alkylator treatment should be avoided, not to compromise PBSC collection, but also to reduce the risk of treatment-related MDS/AML.
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PMID:Preceding standard therapy is the likely cause of MDS after autotransplants for multiple myeloma. 890 91


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