UNIPROT:Q06643 - FACTA Search

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Query: UNIPROT:Q06643 (non-Hodgkin's lymphoma)
11,307 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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 T cell-mediated antineoplastic activity observed following allogeneic transplantation and the suggestion of improved therapeutic efficacy by autologous peripheral stem cell transplantation (PSCT) as compared to autologous bone marrow transplantation (ABMT) for non-Hodgkin's lymphoma (NHL) stimulated our interest in the immunologic competence of stem cell products. We report the immune phenotype and function of normal peripheral blood (PB) cells, bone marrow (BM) cells from normal donors and cancer bearing patients, GM-CSF-mobilized and apheresed blood mononuclear cells from NHL patients, unmobilized apheresed mononuclear cells from normal volunteers and umbilical cord blood (CB). The analyses include three-color fluorescent cytometry of the major hematologic and immunologic phenotypes as well as natural killer (NK) activity, natural suppressor (NS) activity, and phytohemagglutinin (PHA) and pokeweed (PWM) mitogenesis. These studies demonstrated an increased frequency of T cells in apheresis products as compared to BM and CB products. Specifically, the mobilized PSC had significant increases in CD3+, CD4+, CD45RO+ and CD56+ cells relative to BM cells. In addition, the frequency of TCR gamma/delta + cells in all the stem cell products, with the exception of CB, were also increased compared to normal peripheral blood leukocytes (PBL). However, all the stem cell products had a significant depression in T (PHA mitogenesis) and B (PWM mitogenesis) cell function. The depression in immune cell functionality, in the PSC products was perhaps due to the high frequency of monocytes which appeared to be increased due to both mobilization and apheresis. The frequency of the NK cell phenotype (CD56) but not function was increased in the mobilized PSC products, while the NK cell function in the BM products from cancer patients but not normal donors was depressed as compared to normal PBL. In summary, there are significant differences in the cellular phenotypes and immunologic competence among the various stem cell products with potential therapeutic implications.
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PMID:Immunologic phenotype and function in human bone marrow, blood stem cells and umbilical cord blood. 883 96

Cytokines are involved in hematopoiesis by regulating proliferation, differentiation and cellular functions of various lineages of hematopoietic cells. There is an increasing range of clinical conditions in which cytokines are involved as therapeutic agents. One of the most advanced and successful applications is the stimulation of hematopoiesis by the colony stimulating factors (GM-CSF and G-CSF) and erythropoietin. Hematopoietic growth factors are effective in accelerating recovery from neutropenia after chemotherapy and bone marrow transplantation and in reducing incidence of infections. Interferon alpha (IFN-alpha) proved a useful therapeutic agent for chronic myelogenous and hairy cell leukemias as well as for multiple myeloma and non-Hodgkin's lymphoma. Interleukin 2 is the only cytokine apart from IFN-alpha accepted as antineoplastic agent. It may be useful as adjuvant therapy in the hematological malignancies. It may be supposed that in the near future new recombinant cytokines will be introduced in the treatment of blood diseases.
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PMID:Cytokines in the treatment of hematological disorders: recent progress and perspectives. 887 63

Recently various cytokines have been introduced into the clinic and have played important therapeutic roles in the treatment of hematological malignancies. Among these cytokines, I have focused on interferon (IFN) and granulocyte (G) or granulocyte-macrophage (GM) colony stimulating factor (CSF), which are currently the most useful cytokines, in this review. IFN-alpha has been approved for chronic myelogenous leukemia (CML), multiple myeloma and hairy cell leukemia. In addition, IFN-alpha has therapeutic potentials for low grade non-Hodgkin's lymphoma, cutaneous T cell lymphoma and adult T cell leukemia/lymphoma. Thus, IFN-alpha is one of the most useful and wide-ranging antitumor agents in hematological malignancies. Most striking effects have been studied in chronic phase CML. Cytogenetic responses are seen in 30-40% of the treated patients and a complete cytogenetic response can be seen in about 10%. Long-term survival can be expected in these patients. Considering the risk of graft-versus-host disease-associated mortality in allogeneic bone marrow transplantation, the category of treatment is difficult to choose in IFN-responsive patients. Elucidation of the antitumor mechanism of IFN, as a prototype for other biological response modifiers, may revolutionize cancer treatment. G- and GM-CSF (CSFs) have reduced the duration of neutropenia, incidence of infectious episodes and days of hospitalization following cancer chemotherapy or stem cell transplantation. CSFs have also been used to mobilize peripheral blood stem cells and to increase dose intensity of chemotherapeutic agents. Leukemic cells from many patients with acute myelogenous leukemia (AML) have surface receptors for CSFs and may proliferate in response to CSFs. However, several randomized studies showed that CSFs can be used safely and effectively in augmenting neutrophil recovery in patients with AML when given after induction chemotherapy. Various trials have been made to prime leukemic cells by CSFs to make them more susceptible to chemotherapy, but no convincing evidence has been obtained.
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PMID:Cytokine therapy for hematological malignancies. 899 Jun 22

The feasibility of ex vivo expansion of hematopoietic progenitors selected from leukapheresis products of patients treated for multiple myeloma (MM) was studied and compared with progenitor expansions from patients with nodular non-Hodgkin's lymphoma (NHL) or healthy donors. After positive selection, CD34+ cells from leukapheresis products of 4 MM and 5 NHL patients and CD34+ cells from bone marrow (BM) of 3 healthy donors were grown in IMDM plus 12.5% horse serum, 12.5% fetal calf serum, IL-1alpha, IL-3, IL-6, SCF, GM-CSF, G-CSF (10 ng/ml each), and EP (4 UI/ml). Outputs of CD34+ cell cultures from MM and NHL patients were similar. Day 14 mean increases in CD34+, CFU-GM, and total cell numbers were, respectively, 5.3-fold, 19.8-fold, and 1173-fold for MM patients and 4.3-fold, 15.6-fold, and 1659-fold for NHL patients, with at least 40% of day 14 cells being of granulocytic lineage. Patient CD34+ cell culture output was found to be related to the CFU-GM/CD34+ cell ratio of selected CD34+ cells, not to underlying pathology. When the initial CFU-GM/CD34+ cell ratio was above 0.025, MM and NHL CD34+ cell culture outputs were always above 1000-fold. Moreover, in all but one CD34+ cell culture, the use of fibronectin (FN)-coated dishes improved CFU-GM and total cell expansion. In patient CD34+ cultures carried out in FN-coated dishes, mean day 14 CFU-GM and total cell outputs were increased, respectively, 2.1-fold and 1.9-fold. We conclude that if the CFU-GM/CD34+ cell ratio is sufficient (>0.025), ex vivo expansion of hematopoietic progenitors from CD34+ cells selected from leukapheresis products is possible for both MM and NHL patients and that using FN-coated flasks is a simple and reliable way to improve both CFU-GM and total cell output.
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PMID:Ex vivo expansion of hematopoietic progenitors from CD34+ cells selected from leukapheresis products of lymphoma and myeloma patients: feasibility and enhancement by fibronectin. 911 56

Cytokines play an important role in granuloma formation, but the extent that cytokine profiles are similar in different granulomatous diseases and whether differences in the histopathologic features of the granulomatous response results from differences in cytokine production have not been evaluated. To investigate these questions, we used RT-PCR to quantify the expression of mRNAs coding for 16 cytokines in granulomatous lymph nodes from patients with tuberculosis and sarcoidosis and from control tissues, and we sought correlations between the level of expression of these cytokines and the histopathologic features of the granulomas. Expression of mRNAs coding for a number of cytokines (IL-1beta, IFN-gamma, TNF-alpha, granulocyte-macrophage (GM)-CSF, IL-12 (p40), and lymphotoxin-beta) was increased in tuberculous and sarcoid granulomas compared with that of control tissues. All sarcoid granulomas were shown to express a Th1 pattern of cytokine mRNAs, while tuberculous lymph nodes expressed either a Th1 or a Th0 profile. GM-CSF and lymphotoxin-beta mRNAs were more abundant in sarcoid than in tuberculous granulomas, whereas IL-8 mRNA was strongly expressed only in tuberculous lymph nodes. Strong expression of GM-CSF, TNF-alpha, and IL-8 by granulomas was shown to be correlated, respectively, with the presence of florid granulomatous lesions, the absence of central necrosis, and the presence of neutrophil infiltration. These results demonstrate that the formation of tuberculous and sarcoid granulomas in humans is associated with the expression of characteristic cytokine profiles and indicate that the expression of certain cytokines is associated with the development of specific pathologic features in the resulting granulomas.
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PMID:Cytokine patterns in tuberculous and sarcoid granulomas: correlations with histopathologic features of the granulomatous response. 930 Jul 29

Autologous transplantation for non-Hodgkins lymphoma and Hodgkin's disease is widely used as standard therapy for those with high-risk or relapsed tumor. Peripheral blood stem cell (PBSC) collections have nearly completely replaced bone marrow stem cell (BMSC) harvests because of the perceived advantages of more rapid engraftment, less tumor contamination in the inoculum, and better survival after therapy. The advantage of PBSC, however, may derive from the hematopoietic stimulating cytokines used for PBSC mobilization. Therefore, we tested a randomized comparison of GM-CSF vs. G-CSF used to prime either BMSC or PBSC before collection for use in autologous transplantation. Sixty-two patients receiving transplants (31 PBSC; 31 BMSC) for non-Hodgkin's lymphoma (n = 51) or Hodgkin's disease (n = 11) were treated. All patients received 6 days of randomly assigned cytokine. Those with cellular marrow in morphologic remission underwent BMSC harvest, while those with hypocellular marrow or microscopic marrow tumor involvement had PBSC collected. Neutrophil recovery was similarly rapid in all groups (median 14 days; range 10-23 days), though two patients had delayed neutrophil recovery using GM-CSF primed PBSC (p = 0.01). Red cell and platelet recovery were significantly quicker after BMSC mobilized with GM-CSF or PBSC mobilized with G-CSF. This speedier hematologic recovery resulted in earlier hospital discharge as well. However, in multivariate analysis, neither the stem cell source nor randomly assigned G-CSF vs. GM-CSF was independently associated with earlier multilineage hematologic recovery or shorter hospital stay. Relapse-free survival was not independently affected by either the assigned stem cell source or the randomly assigned priming cytokine, though malignant relapse was more frequent in those assigned to PBSC (RR of relapse 3.15, p = 0.03). These data document that BMSC, when collected following cytokine priming, can yield a similarly rapid hematologic recovery and short hospital stay compared with cytokine-primed PBSC. Using primed BMSC, no difference in malignant relapse or relapse-free survival was observed. These findings suggest that despite widespread use of PBSC for transplantation, BMSC, when collected following hematopoietically stimulating cytokines, may remain a satisfactory source of stem cells for autologous transplantation. G-CSF and GM-CSF are both effective in priming autologous PBSC or BMSC for collection.
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PMID:Cytokine-primed bone marrow stem cells vs. peripheral blood stem cells for autologous transplantation: a randomized comparison of GM-CSF vs. G-CSF. 936 Jul 84

PIXY321, a granulocyte-macrophage colony-stimulating factor/interleukin 3 (GM-CSF/IL-3) genetically engineered hybrid, has shown greater biological activity in stimulating committed myeloid progenitors than either GM-CSF or IL-3 in vitro, in vivo, and in patients treated with high-dose chemotherapy. However, one concern is that PIXY321 may stimulate the proliferation of malignant cells which have functional GM-CSF or IL-3 receptors. Therefore, using a human tumor cloning assay, we have tested the effects of several concentrations of PIXY321 ranging from 0.1 to 100 ng/ml on tumor cells taken directly from 98 patients with solid tumors and Hodgkin's or non-Hodgkin's lymphomas. Of the 34 evaluable specimens, including 15 breast cancers, 5 ovarian cancers, 5 lung cancers, and 9 lymphomas, none showed stimulation of tumor growth. Interestingly, a significant inhibition of the tumor proliferation was seen in one breast cancer and in one large cell immunoblastic non-Hodgkin's lymphoma after continuous exposure of PIXY321. In conclusion, the use of PIXY321 to reduce myelosuppression after high-dose chemotherapy appears unlikely to result in stimulation of the growth of malignant cells in patients with lymphoma or cancers of the breast, lung, and ovary.
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PMID:Effects of PIXY321, a granulocyte-macrophage colony-stimulating factor/interleukin 3 fusion protein, on human tumor colony-forming units taken directly from patients. 981 21

We are investigating the use of tumor-pulsed dendritic cell (DC)-based vaccines in the treatment of patients with advanced cancer. In the current study, we evaluated the feasibility of obtaining both CD34+ hematopoietic stem/ progenitor cells (HSCs) and functional DCs from the same leukapheresis collection in adequate numbers for both peripheral blood stem cell transplantation (PBSCT) and immunization purposes, respectively. Leukapheresis collections of mobilized peripheral blood mononuclear cells (PBMCs) were obtained from normal donors receiving granulocyte colony-stimulating factor (G-CSF) (for allogeneic PBSCT) and from intermediate grade non-Hodgkin's lymphoma or multiple myeloma patients receiving cyclophosphamide plus G-CSF (for autologous PBSCT). High enrichment of CD34+ HSCs was obtained using an immunomagnetic bead cell separation device. After separation, the negative fraction of mobilized PBMCs from normal donors and cancer patients contained undetectable levels of CD34+ HSCs by flow cytometry. This fraction of cells was then subjected to plastic adherence, and the adherent cells were cultured for 7 days in GM-CSF (100 ng/ml) and interleukin 4 (50 ng/ml) followed by an additional 7 days in GM-CSF, interleukin 4, and tumor necrosis factor alpha (10 ng/ml) to generate DCs. Harvested DCs represented yields of 4.1+/-1.4 and 5.8+/-5.4% of the initial cells plated from the CD34+ cell-depleted mobilized PBMCs of normal donors and cancer patients, respectively, and displayed a high level expression of CD80, CD86, HLA-DR, and CD11c but not CD14. This phenotypic profile was similar to that of DCs derived from non-CD34+ cell-depleted mobilized PBMCs. DCs generated from CD34+ cell-depleted mobilized PBMCs elicited potent antitetanus as well as primary allogeneic T-cell proliferative responses in vitro, which were equivalent to DCs derived from non-CD34+ cell-depleted mobilized PBMCs. Collectively, these results demonstrate the feasibility of obtaining both DCs and CD34+ HSCs from the same leukapheresis collection from G-CSF-primed normal donors and cancer patients in sufficient numbers for the purpose of combined PBSCT and immunization strategies.
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PMID:Dendritic cell-based vaccines in the setting of peripheral blood stem cell transplantation: CD34+ cell-depleted mobilized peripheral blood can serve as a source of potent dendritic cells. 982 33

Bone marrow aspirates are composed of two cellular compartments, an abundant buffy coat suspension and a minor particulate fraction. The particulate fraction is routinely removed by filtration prior to transplantation in order to reduce the risk of embolism. This study shows that the filter-retained fraction includes many multicellular complexes, previously defined as haematons. A haematon is a finely arborized stromal-web which is tightly packed with haemopoietic progenitor cells and differentiated postmitotic cells. Comparison of the pooled buffy coat and the filter-retained materials from healthy donors showed that the haematon fraction contained 8-40 x 10(6) CD34+ cells, 20-115 x 10(3) high proliferative potential colony-forming cells (HPP-CFC) and 0.49-2.67 x 10(6) granulocyte-macrophage colony-forming unit (GM-CFU) which constituted 24+/-8% (10-36; n=8) of the total GM-CFU population harvested. Similar, but more variable recoveries of GM-CFU were obtained from the haematon fractions from patients with breast cancer (21+/-13%; n=10), Hodgkin's disease (33+/-19%; n=4), non-Hodgkin's lymphoma (21+/-18; n=7), but the recovery was lower from patients with acute myelogenous leukaemia (AML) (13+/-13%; n=6). The haematon fraction was enriched in CD34+ cells (2.5-fold), long-term culture initiating cells (LTC-IC/CAFC, week 5) (3.5-fold), HPP-CFC (2.8-fold) and GM-CFU (2.3-fold) over the buffy coat. Purified CD34+ cells expanded exponentially and produced 800 to 4000-fold more nucleated cells, 300 to 3500-fold more GM-CFU and 10 to 80-fold more HPP-CFC in stroma-free suspension culture with interleukin-1 (IL-1beta), IL-3, IL-6, GM-CSF and stem cell factor (SCF), than did the starting cell input. The haematon fraction produced significantly more progenitor cells than the buffy coat in long-term liquid culture (LTC). This was due to the higher frequency of LTC-IC/CAFC and to the presence of the whole spectrum of native, stroma cell-associated CAFC in haematons. Thus, the haematon includes the most productive haematogenous compartment in human BM. This simple enrichment strategy, using filter-retained haematons, provides a rational source of BM cells for large scale experimental and/or clinical studies on haemopoietic stem cells and on critical accessory stromal cells.
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PMID:Large scale recovery and characterization of stromal cell-associated primitive haemopoietic progenitor cells from filter-retained human bone marrow. 1021 40

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