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Query: EC:2.7.10.1 (ERK)
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In the present investigation we show data from our studies of anaplastic human thyroid carcinoma cell lines. The cell lines employed in the study were HTh 7, HTh 74, C 643 and SW 1736, all derived from tumours diagnosed as anaplastic thyroid carcinomas. Northern blot analysis with four different thyroid specific cDNA probes showed a varying pattern of expression. Thyroglobulin mRNA was found in three of the carcinoma cell lines, although the signal was very weak compared to the expression in tissue from a toxic goitre, used as positive control. Interestingly, two of the cell lines expressed the receptor for thyrotropin, but none of them contained thyroperoxidase mRNA. Three of the cell lines expressed mRNA for receptors platelet-derived growth factor, PDGFR-alpha and/or PDGFR-beta type. Messenger RNA of a thyroid specific transcription factor, TTF-1, known to regulate the normal function of thyrocytes, was found in the toxic goitre but not in the anaplastic thyroid carcinoma cell lines. Lack of expression of TTF-1 might the immediate cause of the anaplastic phenotype, considering the possibility that TTF-1 functions as a master regulatory gene in thyroid cell differentiation.
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PMID:The molecular biology of the human anaplastic thyroid carcinoma cell. 172 28

We have recently reported that about 50% of papillary thyroid carcinomas harbor an activated TRK or RET oncogene. Two retroviral vectors containing the activated TRK or RET/PTC oncogene have been used to infect a differentiated rat thyroid epithelial cell line, namely the PC Clone 3 cell line. Upon infection with the TRK virus, the PC Clone 3 cells lost only the ability to trap iodide and to express the thyroperoxidase gene. Conversely, when infected with the PTC virus, the PC Clone 3 cells completely lost all of their differentiated functions. However, both the PC-TRK and PC-PTC cell lines were unable to grow in soft agar, and they were not tumorigenic when injected into nude mice. A completely undifferentiated and malignant phenotype was obtained by the cooperation between the TRK or RET and the viral Ha-ras or Ki-ras oncogenes.
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PMID:The TRK and RET tyrosine kinase oncogenes cooperate with ras in the neoplastic transformation of a rat thyroid epithelial cell line. 849 86

The 9;22 chromosomal translocation characteristic of CML results in a fused bcr/abl gene and an abnormal fusion protein, p210bcr/abl. Relative to normal c-abl, p210bc1/abl has elevated tyrosine kinase activity that is essential for its transforming activity. We recently reported a prominent 62 kDa GAP-associated P-tyr protein and five additional consistent but less prominent P-tyr proteins as well as five more minor P-tyr proteins that are constitutively tyrosine phosphorylated in primary primitive lineage negative (lin-) chronic phase CML blasts but not in comparable primary lin- normal blasts. The GAP-associated p62 protein has now been purified, sequenced and its gene has been cloned; it is a previously unidentified protein and is currently being characterized. In analyzing P-tyr proteins in primary lin- normal blasts in response to various hematopoietic cytokines, we found a striking similarity in the tyrosine phosphorylation of four major and three minor proteins after stimulation with c-kit ligand (KL) and the P-tyr proteins that are constitutively phosphorylated in primary primitive lin- chronic phase CML blasts. Other cytokines tested (ie GM-CSF, G-CSF, IL-3, FLT3 ligand, TPO, EPO) were much less active or stimulated phosphorylation of other proteins. KL/c-kit and bcr/abl have some similar activities including enhancing survival and expansion of hematopoietic progenitor cells, probably acting primarily on early progenitors at the time of lineage commitment rather than on self-renewing stem cells. Activation of growth factor receptors promote a cascade of protein phosphorylations that can ultimately result in a wide range of cellular responses. Sustained activation of discrete signaling pathways in some types of cells results in differentiation, whereas transient activation instead causes a proliferative response; in other cell types, the converse is true. It may be postulated that stem cells and primitive progenitors are at a particularly susceptible stage of development that renders them especially responsive to sustained bcr/abl-induced phorphorylation of a number of signaling proteins that are components of critical regulatory pathways, including c-kit. The affected pathways control and coordinate multiple diverse cell processes including proliferation, differentiation, maturation and apoptosis, processes that are normally tightly regulated and integrated. Perturbation of these key pathways in primitive progenitors would be expected to seriously disrupt orderly hematopoiesis and could also explain the multiple subtle pleiotropic biological abnormalities characteristically observed in later maturing CML compartments that we have collectively designated 'discordant maturation'. The true situation is undoubtedly very complex and involves interaction of multiple cytokines and signaling pathways that we are now trying to define. Constitutive downstream activation of critical pathways in susceptible early progenitors that normally require KL or other factors for activation could explain most if not all features of the disease.
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PMID:New understanding of the pathogenesis of CML: a prototype of early neoplasia. 952 44

The most frequent genetic alterations described thus far in human papillary thyroid carcinomas are somatic rearrangements of the RET proto-oncogene, which generate the chimeric RET/PTC oncogenes. We recently found that the expression of the RET/PTC1 oncogene blocked the expression of the thyroid-differentiated phenotype in rat thyroid epithelial cell line PC CI 3 (PC). Here, we show that this block occurs at a transcriptional level; indeed, the thyroid-specific thyroglobulin and thyroperoxidase gene promoters were inactive in PC-PTC cells. Specific transcription factors, namely, TTF-1 and Pax-8, regulate the expression of differentiated functions in thyroid cells. Here, we show that Pax-8 is expressed at reduced levels in PC-PTC cells and that its adoptive overexpression is unable to restore the activity of target promoters. In contrast, TTF-1 expression is unaltered in PC-PTC cells; however, by using a synthetic promoter that contains its specific target sequence, we demonstrate that TTF-1 is inactive in PC-PTC cells. We conclude that the RET/PTC1 oncogene alters the expression of the thyroid-differentiated phenotype by at least two different mechanisms, ie., down-regulation of Pax-8 protein and mRNA expression and impaired function of TTF-1 and Pax-8, which occurs at a posttranslational level.
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PMID:Expression of the RET/PTC1 oncogene impairs the activity of TTF-1 and Pax-8 thyroid transcription factors. 943 93

We have developed an efficient serum free culture model for cloning human erythroid progenitors. Accordingly, human bone marrow or cord blood CD34+ cells if plated in our serum free medium and stimulated with a mixture of EpO + KL, grow erythroid colonies exclusively. Cells isolated from these cultures express glycophorin-A (GPA-A), are CD33-, IIb/IIIa-, and finally all become hemoglobinized. By employing this system we also found out that cord blood CD34+ mononuclear cells (MNC) contain more BFU-E than adult marrow CD34+ MNC, moreover, the erythroid colonies formed by cord blood progenitors are significantly larger then the ones formed by the marrow cells. We have also compared the influence of different cytokines and growth factors, which were reported in the literature to costimulate BFU-E growth on cloning efficiency of human BFU-E cultured in our serum free medium. We found that from 20 different growth factors and cytokines tested, EpO dependent bone marrow BFU-E growth is costimulated only by KL, and to lesser degree also by IL-3, GM-CSF, TpO and IL-9. In contrast to marrow cells we observed that cord blood BFU-E in addition to KL, IL-3, GM-CSF, TpO, LIF and IL-9 were also costimulated by NGF-beta, FGF-1, FGF-2 and STK-IL. We found simultaneously that TPO which possess only negligible costimulatory effect on erythroid colony formation by bone marrow CD34+ cells, significantly costimulated the formation of erythroid colonies grown by cord blood CD34+ cells. Therefore, the cord blood CD34+ cells are largely committed to erythroid differentiation, and, moreover, they respond to a wider spectrum of the growth factors than their bone marrow counterparts.
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PMID:An improved serum free system for cloning human "pure" erythroid colonies. The role of different growth factors and cytokines on BFU-E formation by the bone marrow and cord blood CD34+ cells. 960 18

The effects of thrombopoietin (TPO; c-mpl ligand), FLT3/FLK-2 ligand (FL), and interleukin-6 (IL-6) on the survival of murine hematopoietic long-term reconstituting cells (LTRC) were studied by using lineage-negative, Sca-1-positive, c-kit-positive (Lin-Sca-1(+)c-kit+) marrow cells from 5-fluorouracil-treated mice. We tested the ability of these cytokines to maintain the viability of LTRC by transplanting the cultured cells to lethally irradiated Ly-5 congenic mice together with compromised marrow cells. As a single agent, only TPO could maintain the LTRC. Neither IL-6 nor FL was effective by itself, but they acted synergistically to maintain the LTRC. We examined whether the maintenance of LTRC by these cytokines was due to the survival of stem cells or was the result of active cell divisions and self-renewal. To monitor cell division, we used membrane dye PKH26. Enriched cells were stained with PKH26 on day 0 and incubated in suspension culture with TPO or with IL-6 and FL for 7 days. On day 7, PKH26(low) and PKH26(high) cells were prepared by sorting and their in vivo reconstituting abilities were tested by transplantation into lethally irradiated Ly-5 congenic mice together with compromised marrow cells. PKH26(high) populations cultured with both TPO alone and the combination of IL-6 and FL showed greater reconstitution activity than that of PKH26(low) populations. These data indicate that TPO alone and the combination of IL-6 and FL can support the survival of stem cells without stimulating their active cell proliferation.
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PMID:Thrombopoietin promotes the survival of murine hematopoietic long-term reconstituting cells: comparison with the effects of FLT3/FLK-2 ligand and interleukin-6. 965 44

The aim of this study was to explore further the hypothesis that early stages of normal human hematopoiesis might be coregulated by autocrine/paracrine regulatory loops and by cross-talk among early hematopoietic cells. Highly purified normal human CD34(+) cells and ex vivo expanded early colony-forming unit-granulocyte-macrophage (CFU-GM)-derived, burst forming unit-erythroid (BFU-E)-derived, and CFU-megakaryocyte (CFU-Meg)-derived cells were phenotyped for messenger RNA expression and protein secretion of various growth factors, cytokines, and chemokines to determine the biological significance of this secretion. Transcripts were found for numerous growth factors (kit ligand [KL], FLT3 ligand, fibroblast growth factor-2 [FGF-2], vascular endothelial growth factor [VEGF], hepatocyte growth factor [HGF], insulinlike growth factor-1 [IGF-1], and thrombopoietin [TPO]); cytokines (tumor necrosis factor-alpha, Fas ligand, interferon alpha, interleukin 1 [IL-1], and IL-16); and chemokines (macrophage inflammatory protein-1alpha [MIP-1alpha], MIP-1beta, regulated upon activation, normal T cell expressed and secreted [RANTES], monocyte chemotactic protein-3 [MCP-3], MCP-4, IL-8, interferon-inducible protein-10, macrophage-derived chemokine [MDC], and platelet factor-4 [PF-4]) to be expressed by CD34(+) cells. More importantly, the regulatory proteins VEGF, HGF, FGF-2, KL, FLT3 ligand, TPO, IL-16, IGF-1, transforming growth factor-beta1 (TGF-beta1), TGF-beta2, RANTES, MIP-1alpha, MIP-1beta, IL-8, and PF-4 were identified in media conditioned by these cells. Moreover, media conditioned by CD34(+) cells were found to inhibit apoptosis and slightly stimulate the proliferation of other freshly isolated CD34(+) cells; chemo-attract CFU-GM- and CFU-Meg-derived cells as well as other CD34(+) cells; and, finally, stimulate the proliferation of human endothelial cells. It was also demonstrated that these various hematopoietic growth factors, cytokines, and chemokines are expressed and secreted by CFU-GM-, CFU-Meg-, and BFU-E-derived cells. It is concluded that normal human CD34(+) cells and hematopoietic precursors secrete numerous regulatory molecules that form the basis of intercellular cross-talk networks and regulate in an autocrine and/or a paracrine manner the various stages of normal human hematopoiesis.
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PMID:Numerous growth factors, cytokines, and chemokines are secreted by human CD34(+) cells, myeloblasts, erythroblasts, and megakaryoblasts and regulate normal hematopoiesis in an autocrine/paracrine manner. 1134 33

A novel human thyroid papillary carcinoma cell line (FB-2) has been established and characterized. FB-2 cells harbor the RET/PTC1 chimeric oncogene in which the RET kinase domain is fused to the H4 gene. FB-2 cells neither formed colonies in semisolid media nor induced tumors after heterotransplant into severe combined immunodeficient mice. However, HMGI(Y), HMGI-C and c-myc genes, which are associated to thyroid cell transformation, were abundantly expressed in FB-2 cells but not in normal thyroid cells. FB-2 cells only partially retained the differentiated thyroid phenotype. In fact, the PAX-8 gene, which codes for a transcriptional factor required for thyroid cell differentiation, was expressed, while thyroglobulin, TSH-receptor and thyroperoxidase genes were not. Moreover, FB-2 cells produced high levels of interleukin (IL)-6 and IL-8.
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PMID:Establishment of a non-tumorigenic papillary thyroid cell line (FB-2) carrying the RET/PTC1 rearrangement. 1180 85

Recovery from radiation-induced (RI) myelosuppression depends on hematopoietic stem and progenitor cell survival and the active proliferation/differentiation process, which requires early cytokine support. Single cytokine or late-acting growth factor therapy has proved to be inefficient in ensuring reconstitution after severe RI damage. This work was aimed at evaluating the in vivo survival effect of combinations of early-acting cytokines whose antiapoptotic activity has been demonstrated in vitro: stem cell factor (SCF [S]), FMS-like tyrosine kinase 3 ligand (FLT-3 ligand [F]), thrombopoietin (TPO [T]), interleukin-3 (IL-3 [3]), and stromal derived factor-1 (SDF-1). B6D2F1 mice underwent total body irradiation at 8 Gy cesium Cs 137 gamma radiation (ie, lethal dose 90% at 30 days) and were treated soon after irradiation, at 2 hours and at 24 hours, with recombinant murine cytokines, each given intraperitoneally at 50 microg/kg per injection. All treatments induced 30-day survival rates significantly higher than control (survival rate, 8.3%). 4F (SFT3) and 5F (4F + SDF-1) were the most efficient combinations (81.2% and 87.5%, respectively), which was better than 3F (SFT, 50%), TPO alone (58.3%), and SDF-1 alone (29.2%) and also better than 4F given at 10 microg/kg per injection (4F10, 45.8%) or as a 50 microg/kg single injection at 2 hours (4Fs, 62.5%). Despite delayed death occurring mainly from day 150 on and possible long-term hematopoiesis impairment, half the 30-day protective effects of 4F and 5F were preserved at 300 days. Our results show that short- and long-term survival after irradiation depends on appropriate multiple cytokine combinations and at optimal concentrations. The proposal is made that an emergency cytokine regimen could be applied to nuclear accident victims as part of longer cytokine treatment, cell therapy, or both.
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PMID:Short-term injection of antiapoptotic cytokine combinations soon after lethal gamma -irradiation promotes survival. 1246 35

A major obstacle to the use of adult somatic stem cells for cell therapy is our current inability to fully exploit stem cell self-renewal properties. The challenge is to obtain defined culture systems where cycling of primitive stem/progenitor cells is stimulated, while their differentiation and senescence are prevented. The cytokine transforming growth factor-beta1 (TGF-beta1) appears as a potential regulator of hematopoietic stem/ progenitor cell self-renewal, as it participates in the control of cell proliferation, survival/apoptosis, and cell immaturity/differentiation. TGF-beta1 acts via a complex regulatory network involving intracellular signaling molecules and cell surface receptors. According to the High Proliferative Potential-Quiescent (HPP-Q) cell working model that we introduced previously, TGF-beta1 maintains primitive hematopoietic stem/progenitor cells in a quiescent or slow cycling state, in part by downmodulating the cell surface expression of mitogenic cytokine receptors, thus preventing cells from responding rapidly to a mitogenic signal. We have established that this modulation concerns the tyrosine kinase receptors KIT and FLT3, and the IL-6 receptor (IL-6R), three important cytokine receptors controlling early human hematopoietic stem/progenitor cell development. In this article. we show a similar modulation by TGF-beta1 of a fourth receptor: the TPO receptor (MPL). As a consequence, TGF-beta1 decreased the cell cycle entry of stem/progenitor cells stimulated by the respective ligands of these receptors, the cytokines SF, FL, IL-6, and TPO, whereas neutralization of TGF-beta1 increased the cell responsiveness to these mitogenic cytokines. Other aspects of the function of TGF-beta1 in the regulation of early hematopoiesis (i.e., the control of stem/progenitor cell survival and immaturity) are reviewed in the discussion.
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PMID:Control of hematopoietic stem/progenitor cell fate by transforming growth factor-beta. 1272 36


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