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

The glycoproteins of several enveloped viruses, grown in a variety of cell types, are labeled with 35SO4(-2), whereas the nonglycosylated proteins are not. This was shown for the HN and F glycoproteins of SV5 and Sendai virus, the E1 and E2 glycoproteins of Sindbis virus, and for the major glycoprotein, gp69, as well as for a minor glycoprotein, gp52, of Rauscher leukemia virus. The minor glycoprotein of Rauscher leukemia virus is more highly sulfated, with a ratio of 35SO4- [3H]glucosamine about threefold greater than that of gp69. The G protein of vesicular stomatitis virus was labeled when virions were grown in the MDBK line of bovine kidney cells, although no significant incorporation of 35SO4(-2) into this protein was observed in virions grown in BHK21-F line of baby hamster kidney cells. In addition to the viral glycoproteins, sulfate was also incorporated into a heterogenous component with an electrophoretic mobility lower than that of any labeled with 35SO4(-2) and [3H]leucine, this component had a much greater 35S-3H ratio than any of the viral polypeptides and thus could not represent aggregated viral proteins. This material is believed to be a cell-derived mucopolysaccharide and can be removed from virions by treatment with hyaluronidase without affecting the amount of sulfate present on the glycoproteins.
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PMID:Sulfated components of enveloped viruses. 17 Apr 20

Polyions were tested for effects on some membrane-related functions. Both polycations investigated reduced the negative surface charge of assay cells and enhanced in vitro infectivity of murine C-type viruses, but had no influence on leukemia-virus-induced XC cell syncytia formation. Three polyanions increased the net outer cell charge, while only one of four inhibited infectivity and two of three impeded syncytia formation. Polyions had a slight, probably toxic, effect on the transmembrane potential, independent of their charge. Cells treated with fluorescent DEAE-dextran showed diffuse staining, which 4 h later had been modified into a granular fluorescence with unstained areas now present. This change correlated with a loss of enhancement of viral infectivity. The only polyanion which inhibited viral infectivity had a strong antihyaluronidase activity, and hyaluronidase and Ca++ both increased viral infectivity. It is suggested, therefore, that polyions may in part work on virus-cell membrane interactions by influencing membrane enzymes and not necessarily by simply changing the net outer cell surface charge.
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PMID:Correlation between polyion effect on cell susceptibility to in vitro infection with murine C-type viruses and polyion effect on some membrane-related functions. 20 87

The concept of mast cell heterogeneity has been studied extensively. Recently developed techniques to enzymatically disperse skin mast cells from human skin have shown that skin mast cells are somehow different from those of other organs such as lung and intestine. In this report, we have isolated and partially purified human skin mast cells from human neonatal foreskins by collagenase and hyaluronidase digestion. These mast cells are morphologically intact by histological, immunohistochemical and electron microscopic criteria. These human skin mast cells secrete histamine significantly (max. net histamine release, 20-30%) in a dose-related, temperature- and time-dependent fashion following stimulation with purified human C5a and C3a (over the ranges of 5 x 10(-8) M to 10(-7) M and 3 x 10(-7) M to 6 x 10(-6) M, respectively). On the other hand, interactions between human skin mast cells and other leukocytes have long been suspected of playing a very important role in cutaneous inflammation. Recently, a human neutrophil-derived histamine-releasing activity termed HRA-N was partially purified. HRA-N has been shown to cause human and rat basophil leukemia cells to degranulate. This study was also undertaken to assess the ability of HRA-N to directly induce histamine release from isolated human skin mast cells. HRA-N causes dose- and time-dependent histamine release as do human anaphylatoxins. These results suggest that HRA-N may lead to a better comprehension of allergic and inflammatory reactions and their modulation in the skin.
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PMID:The effect of human anaphylatoxins and neutrophils on histamine release from isolated human skin mast cells. 137 10

Human hemopoietic blast colony-forming cells (BI-CFCs) recognize and adhere to the extracellular matrix (ECM) produced by marrow-derived stromal cells in vitro. We have investigated the requirements for this interaction by testing the capacity of BI-CFCs to adhere to ECM components under a variety of conditions. Binding was prevented completely by prior treatment of stromal ECM with nitrous acid, in large part by treatment with heparitinase or hyaluronidase, and slightly by treatment with chondroitinases. Whereas heparan sulfate isolated from marrow stromal cultures effectively blocked binding, heparan sulfate from bovine kidney did not. Chondroitin sulfate and hyaluronic acid did not have any effect in this test. In contrast, collagen was not sufficient for the interaction because dishes coated with collagen type I or IV did not act as adhesive surfaces for BI-CFCs. Ligands for integrin receptors (e.g., fibronectin) did not participate in BI-CFC binding because the synthetic pentapeptide glycine-arginine-glycine-asparagine-serine did not compete with stroma in binding BI-CFCs. These findings indicate that heparan sulfate in the bone marrow microenvironment is necessary for BI-CFC binding to ECM and may contribute to localizing hemopoietic stem cells in hemopoietic tissue.
Leukemia 1988 Dec
PMID:Heparan sulfate is necessary for adhesive interactions between human early hemopoietic progenitor cells and the extracellular matrix of the marrow microenvironment. 297 4

Decarbazine (DTIC) is reported to exhibit enhanced clinical toxicity and increased antitumor activity in vitro when exposed to light. Since it was unclear whether light exposure enhanced DTIC antitumor activity or local toxic effects in vivo, a series of experiments was performed in mice given DTIC solutions exposed to light for 2 hours at room temperature. Adenocarcinoma 07/A was implanted by trocar in adult female BALB/c mice. DTIC (50 and 100 mg/kg) was given ip three times per week for 2 weeks. Both drug doses significantly inhibited tumor growth. However, there was no significant difference between light-exposed and -protected drug treatments. In vitro clonogenic assays in L1210 leukemia and Chinese hamster ovary (CHO) cells demonstrated that DTIC cytotoxicity was not increased with light exposure (0.8 J/m2/sec). Both cell lines showed a dose-response relationship to DTIC after 1- or 6-hour exposures in the presence or absence of light. Normal dehaired BALB/c mice were given single intradermal injections of 0.5, 1.75, 5.0, or 10 mg of DTIC in 0.05 ml of saline. Dose-dependent skin ulceration was produced at the 1.75-, 5.0-, and 10.0-mg dose levels. Again, there was no consistent statistical difference in skin ulceration between treatments using light-exposed and -protected DTIC vials. However, when mice were exposed to light following intradermal DTIC, increased skin toxicity was produced (P less than 0.05 by Student-Neuman-Keuls multiple range test). A number of potential local antidotes to DTIC skin ulceration were found to be ineffective. These included: L-cysteine, dimethyl sulfoxide, hyaluronidase, hydrocortisone, and 0.9% saline. Sodium thiosulfate (0.3 M) significantly reduced DTIC skin ulcers as did pre-exposure of DTIC to S-9 rat liver enzymes and NADPH. Neither mild skin heating nor cooling reduced DTIC ulcerations. DTIC appears to synergize with light in vivo to produce increased toxicity. Patients receiving DTIC should avoid intense light exposure after drug injection. However, elaborate precautions to prevent light exposure of DTIC solutions during preparation or injection appear to be unnecessary.
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PMID:Experimental dacarbazine antitumor activity and skin toxicity in relation to light exposure and pharmacologic antidotes. 381 94

Transfection is a technique for inducing transformation of normal fibroblasts (NIH 3T3) with DNA (oncogenes) from human tumors. Our goal was to determine if these transformed cells expressed antigens associated with malignancy. NIH 3T3 cells were transfected with DNA fragments from a human acute lymphocytic leukemia (ALL 1-69), and transformed colonies were selected for growth in soft agar. Transfected cells containing human DNA sequences demonstrated by Southern blot analysis were used to immunize Balb/C mice. Monoclonal antibodies were produced and screened for binding to the parental leukemia (ALL 1-69), transfectant (17(2], and 3T3 cells in an enzyme-linked assay. A monoclonal antibody (IgM kappa) designated 17-9H3 bound to ALL 1-69 and secondary transfectant 17(2) but not to NIH 3T3 plasma membranes. Immunoperoxidase staining confirmed this binding pattern and demonstrated that the antigen was expressed on the cell surface. Expression of the antigen by transfectants directly correlated with the presence of a single 6.1 kilobase human DNA sequence. The antibody binding site of the antigen was inactivated by trypsin, glucosidase, and hyaluronidase. Binding of the 17-9H3 antibody was selective for acute lymphocytic leukemias (5/8) and osteogenic sarcomas (33/36), although other tumor types did demonstrate significant binding by immunoperoxidase staining. The majority of normal tissues did not bind 17-9H3 with the exception of some metabolically active cells (renal tubular epithelium, secretory epithelial cells, and cardiac smooth muscle), germ cells, Leydig cells of the testes, and some lymphoid cells. Monoclonal antibodies to oncogene-associated antigens may be potentially useful for cancer diagnosis and therapy and as probes for oncogene isolation.
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PMID:A novel approach to production of antitumor monoclonal antibodies: antibody to a cell surface glycoprotein associated with transformation by a human oncogene. 637 59

The effect of sera from mice bearing a T cell lymphoid leukaemia (LB) and the supernatants from short term cultures of the tumour cells were studied on cell proliferation using syngeneic and allogeneic normal and tumour cells. An inhibitory activity was demonstrated in 24-48 h supernatants of LB cells in culture and disappeared after 4 days of culture. Inhibitory activity was cytostatic but not cytotoxic and was non-specific since it inhibited the growth of both syngeneic and allogeneic normal and tumour cells. Such activity was found in the 10(5)-1.3 x 10(5) M(r) serum fraction after a Sephacryl S200 chromatography. Though sensitive to protease, trypsin or neuraminidase treatment, which indicated its glycoprotein nature, it remained stable after heating or freezing-thawing cycles as well as after alkaline, acid or hyaluronidase treatment. Addition of exogenous IL-2 abrogated inhibitory activity. ELISA showed the presence of soluble IL-2R both in LB conditioned medium and in above serum fraction. It is demonstrated that the inhibitory factor, soluble IL-2R, is produced by LB leukaemia cells, then secreted into blood and ascitic fluid or released into culture supernatants. Soluble IL-2R exerts inhibitory activity blocking cell proliferation and modulating immune response by binding to free IL-2.
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PMID:Inhibitory activity of soluble IL-2R in sera, ascites and culture supernatants from murine leukaemic cells. 809 Nov 30

A variant of gelatinous transformation of marrow was described in leukemic patients post-chemotherapy. This lesion was found in 8 out of 1833 post-chemotherapy bone marrows from 429 patients with leukemia. Histologically, this variant form was identical to the classical gelatinous transformation except for the absence of fat atrophy. In marrow smears, mucoid strands were seen between marrow particles and oriented along the direction of spread. In clot and trephine sections, an eosinophilic ground substance was widespread, filling out spaces around the fat cells, which occupied the normal proportion of marrow space. At high magnification, this ground substance appeared granular and fibrillary, a non-specific feature which could also be seen in fibrin clot commonly found in marrow sections. This eosinophilic ground substance, however, can be distinguished from fibrin clots by positive staining with Alcian Blue (pH 2.3) and inhibition of the staining after treatment with hyaluronidase. Clinically, in contrast to the classical form, this variant form of gelatinous transformation was acute in onset, transient, and associated with chemotherapy but not with cachexia.
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PMID:A variant of gelatinous transformation of marrow in leukemic patients post-chemotherapy. 826 50

To clarify the role of c-fos DNA in the activation of human synovial cells, the pH8 expression vector containing human c-fos DNA under the control of murine leukemia virus long terminal repeat was transfected into cultured synovial cells. After G418 selection, the control transfectant clones transfected with pH8 vector not containing c-fos DNA insertion changed their original fibroblastic shape into dendritic cells. They stopped growing at this stage. However, the c-fos DNA transfectant clones continued to grow actively beyond this stage, and regained the fibroblastic appearance. Furthermore, c-fos DNA transfectants adhered to and grew on hyaluronidase treated cartilage surfaces more extensively than control transfectants after 6 days in culture. These findings suggest that c-fos DNA supports active growth of human synovial cells by facilitating transition of synovial dendritic cells into fibroblastic cells.
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PMID:The contribution of human c-fos DNA to cultured synovial cells: a transfection study. 847 46

Gene therapy may be an important adjuvant for treating cancer in the pleural space. The initial results of retroviral gene transfer to cancer cells in malignant pleural effusions revealed that transduction was markedly inhibited, and studies to characterize the inhibitory factor(s) were performed. The inhibition was contained within the soluble, rather than cellular, components of the effusions and was demonstrated with amphotropic, gibbon ape leukemia virus, and vesicular stomatitis virus-glycoprotein pseudotyped retroviral vectors. After excluding complement proteins, a series of studies identified chondroitin sulfates (CSs) as the inhibitory substances. First, treatment of the effusions with mammalian hyaluronidase or chondroitinases, but not Streptomyces hyaluronidase, abolished the inhibitory activity. Second, addition of exogenous CS glycosaminoglycans mimicked the inhibition observed with pleural effusions. Third, immunoassays and biochemical analyses of malignant pleural effusion specimens revealed CS in relevant concentrations within pleural fluid. Fourth, proteoglycans/glycosaminoglycans isolated from the effusions inhibited retroviral gene transfer. Analyses of the mechanism of inhibition indicate that the chondroitin sulfates interact with vector in solution rather than at the target cell surface. These results suggest that drainage of the malignant pleural effusion, and perhaps enzymatic pretreatment of the pleural cavity, will be necessary for efficient retroviral vector mediated gene delivery to pleural metastases.
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PMID:Retroviral gene transfer is inhibited by chondroitin sulfate proteoglycans/glycosaminoglycans in malignant pleural effusions. 911 27


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