HFCL细胞对U937细胞的诱导分化作用

为了观察正常人骨髓成纤维样细胞系HFCL对急性单核细胞白血病U937细胞促分化作用,及其对经典诱导分化剂TPA诱导分化作用的影响,先建立U937细胞和HFCL细胞共培养体系,以细胞形态学改变、硝基四氦唑蓝(NBT)、流式细胞仪检测细胞周期和CD11b、CD13、CD14、CD33细胞表面抗原作为诱导分化指标;Western印迹检测P38蛋白的表达变化。结果发现,与HFCL细胞共培养后,U937细胞出现分化成熟的形态学改变,且与HFCL细胞直接接触组的诱导分化作用大于用transwell组。同时发现U937细胞与HFCL细胞共培养后,G1期细胞增高,S期细胞减少;CD11b、CD13、CD14和CD33表达增高;且NBT阳性细胞增高至46、3％。Western印迹检测结果显示,直接接触组总P38蛋白表达增加。而且HFCL细胞还能增强TPA对U937的诱导分化作用。     

Interleukin 1 production by the human monocyte cell line U937 requires a lymphokine induction signal distinct from interleukin 2 or interferons

A soluble product from cloned human T lymphocytes is capable of stimulating U937 cells, a line of human monocytes, to produce interleukin 1 (IL 1). We previously reported that U937 cells exposed to T lymphocyte-conditioned medium secrete mononuclear cell factor (MCF), which increases collagenase and prostaglandin E2 production by adherent rheumatoid synovial cells. Whereas structural and functional homologies between lymphocyte-activating factor (LAF, or IL 1) and MCF were described, previous attempts to measure LAF secretion by lymphokine-stimulated U937 cells were unsuccessful. Although the crude supernatants of cultured U937 cells exposed to medium from lectin-stimulated peripheral blood or cloned T lymphocytes contained MCF activity, no LAF activity was detected. After these crude supernatants were chromatographed on Ultrogel AcA54, however, and the fractions were individually assayed for IL 1, MCF and LAF activities were coeluted with apparent m.w. approximately 14,000 to 23,000. The inability to detect LAF activity in the unfractionated medium was accounted for by an inhibitor of lymphocyte proliferation present in fractions of higher m.w. The T lymphocyte product that stimulated U937 cell maturation and monokine production was secreted in response to lectin-stimulation in a dose-dependent fashion. Although we have previously demonstrated that the hormone 1,25-dihydroxyvitamin D3 caused maturational changes in U937 cells, and other investigators have reported effects of alpha and gamma interferon, these changes are dissociable from IL 1 production. Thus, a distinct lymphocyte-derived signal, necessary for the production of IL 1 by U937 cells, can be identified and dissociated from other biologic products that cause "maturational" changes. The detection of LAF activity in U937 cell supernatants requires the removal of an inhibitor of lymphocyte proliferation.     

Characterization of a factor from the U937 cell line that enhances the toxicity of human eosinophils to Schistosoma mansoni larvae

A factor produced by lipopolysaccharide-stimulated human monocytes, monocyte-derived eosinophil cytotoxicity-enhancing factor (M-ECEF), increases the ability of human eosinophils to kill larvae of Schistosoma mansoni. In order to purify this monokine, a continuous cell line was sought as a generator of source material. It was found that high titers of an ECEF-like activity could be obtained from the U937 cell line cultured in serum-free medium. Production of this activity was optimal when cells were cultured with PMA for 2 days and were further treated with LPS for 2 days. PMA and LPS alone did not enhance eosinophil cytotoxicity and could be separated completely from U937-ECEF activity by reversed-phase HPLC. Thus, the activity was not due to carry-over of these two stimuli. U937-ECEF was compared with M-ECEF by a number of analytical methods. ECEF from both sources was resistant to several denaturing treatments but was sensitive to proteases or to reduction and alkylation. U937-ECEF exhibited activity profiles similar, if not identical, to those of M-ECEF when subjected to molecular sizing HPLC in the presence of 8 M urea, isoelectric focusing, and reversed-phase HPLC. The activity has apparent m.w. of 17,000 and 32,000, isoelectric points ranging from 3.8 to 5.1, and one or more reversed-phase HPLC retention times, depending on the method of sample preparation. These results demonstrate certain physical characteristics of M-ECEF, show that the U937 cell line is an appropriate source for the purification of M-ECEF, and provide information that will allow the design of a purification strategy. Although it appears that tumor necrosis factor (TNF) or a TNF-like molecule is a component of M-ECEF, a major component of M-ECEF is different from TNF as judged by the 1) physical characteristics of M-ECEF, 2) low direct toxicity of M-ECEF to L929 cells, 3) comparative stability of M-ECEF to heat treatment, and 4) inability of an anti-TNF monoclonal antibody to remove M-ECEF activity.     

LPS-stimulated release of prostaglandin E and thromboxane B2 from the U937 cell line

Human monocytes are known to metabolize arachidonic acid (AA) and to release prostaglandins upon stimulation. Previous data indicate that in vitro maturation and differentiation of monocytes result in alteration of this property with greatly diminished response to stimulators of release of prostaglandin E (PGE) and thromboxane B2 (TxB2) occurring after cells have been cultured. To further study the effects of differentiation on human monocyte AA metabolism, a model system was established based upon the human histiocytic cell line U937. Among tested stimulants, which included opsonized zymosan, complement fragment C3b, phorbol myristate acetate (PMA), calcium ionophore A23187, and concanavalin A, it was found that Escherichia coli lipopolysaccharide (LPS) was unique in that it stimulated increased release of TxB2 from U937 cells. The effect of the phorbol ester PMA, a compound commonly used to induce differentiation of U937, on the ability of U937 to respond to LPS was examined. Following 48 hr of treatment with PMA, U937 became capable of releasing both PGE and TxB2 in response to small doses of LPS. As previously observed for human monocytes, the release of PGE was delayed for several hours following stimulation and failed to reach maximal cumulative levels in culture until 24-48 hr following stimulation. In contrast to human monocytes, PMA-induced U937 were capable of maintaining their responsiveness to LPS for several days. Thus, the U937 cell line provides a useful model for study of the effects of differentiation of human mononuclear phagocytes on their ability to metabolize AA, and for the effects of LPS on histiocytic tumor cell prostaglandin release.     

Succinoyl trehalose lipid induced differentiation of human monocytoid leukemic cell line U937 into monocyte-macrophages

A novel type of succinoyl trehalose lipid (STL-1) prepared from n-hexadecane-culture ofRhodococcus erythropolis SD-74 markedly inhibited the growth of a human monocytoid leukemic cell line, U937, and induced its morphological alteration along a monocyte-macrophage lineage. STL-1 markedly increased differentiation-associated characteristics in macrophage, such as nitroblue tetrazolium reducing ability, appearance of Fc receptor, phagocytic activities in U937. Furthermore, U937 cells, which were activated with STL-1 exhibited cytotoxic activity against human lung carcinoma cell line A549. However, STL-1 did not affect growth of a normal human fetal lung cell line TIG-1. The individual components of STL-1, neither sugar moiety nor fatty acids in the free form, were effective at inducing the differentiation of U937 cell. From these results, we concluded that STL-1 has low cytotoxicity against normal human cells and the ester molecule itself is responsible for the activity of inducing differentiation of human monocytoid leukemic cell line U937 into monocyte-macrophage which results in the stimulation of the production of some cytotoxic substances.     

Human mononuclear phagocyte-associated antigens: II. Lymphokine-inducible antigens on the macrophage cell line,U937

We have utilized the U937 macrophage cell line as a model system for analysis of human mononuclear phagocyte (MNP) differentiation. In addition to expressing membrane antigens shared with other MNP, U937 possesses an intrinsic ability to become “activated” upon exposure to lymphokines. A heteroantiserum produced against lymphokine-stimulated U937 (anti-U937L) was utilized to detect acquired or inducible membrane antigens expressed on “activated” U937. Absorption of this antiserum to remove antibodies to nonstimulated U937 (U937N) did not remove the reactivity of anti-U937L/U937N to lymphokine-stimulated U937 as determined by an ¹²⁵I-protein A radioimmunoassay. The lymphokine-inducible antigens were not detectable on resident, human peritoneal macrophages. In addition to expression of lymphokine-inducible antigens, treated U937 cells displayed alterations in both morphology and functional activity (antibody-dependent cellular cytotoxicity). Kinetic analysis of lymphokine-stimulated U937 indicated that antigen expression occurred as early as 1–2 hr after lymphokine exposure, plateauing at 16–18 hr of stimulation. The inducible antigens were susceptible to proteolytic degradation and expression was blocked by inhibitors of protein synthesis. Inducible antigens detectable by anti-U937L/U937N did not result from the expression of cryptic or buried membrane antigens. Thus, the U937 cell line can be utilized for production of antibodies useful in analysis of membrane antigen expression during differentiation within the MNP system.     

Role of cell surface carbohydrate moieties in monocytic cell adhesion to endothelium in vitro

Monocyte adhesion to endothelium represents the first step in the emigration of this leukocyte from blood to tissue during such pathologic and physiologic processes as atherosclerotic plaque development, wound healing, and inflammation. We have examined the role of carbohydrate moieties in the binding of mononuclear cells to endothelium in vitro. Wheat germ agglutinin (WGA) completely inhibited binding of the human monocytic cell line U937 to pig or human endothelial cells (EC). The inhibition was abolished by the presence of N-acetyl glucosamine, a preferred ligand for WGA. This sugar itself, however, had no effect on monocytic cell binding to EC, suggesting that WGA is inhibiting the cell-cell interaction by binding to a distinct sugar moiety. We tested a series of simple and phosphorylated sugars for the ability to inhibit U937 cell binding to EC. Two phosphorylated disaccharides, lactose-1-phosphate and maltose-1-phosphate, but not 14 other sugars, caused complete suppression of monocyte adhesion to EC. Among the inactive sugars were mannose-6-phosphate and fructose-1-phosphate, which have been shown by others to markedly suppress lymphocyte adhesion to EC. A nonionic detergent, n-octyl-beta-D-glucopyranoside (octyl glucoside), which contains a sugar group as a hydrophilic moiety, also inhibited U937 cell or human monocyte binding to human or porcine EC. The inhibition was observed at a nontoxic concentration of octyl glucoside and appeared to be due to an effect on the monocytic cell rather than the EC. When suboptimal doses of WGA and octyl glucoside were added in combination to the U937 cell-EC adhesion assay, the level of inhibition was greatly reduced when compared with either of the inhibitors alone, suggesting an interaction between these two blocking agents. Lactose-1-phosphate, but not octyl glucoside or WGA, blocked neutrophil adhesion to EC. In summary, our results indicate that specific cell surface carbohydrate groups are required for the adhesion of monocytes to the endothelium.     

Porphyromonas gingivalis fimbriae induce adhesion of monocytic cell line U937 to endothelial cells

This study used the human monocytic cell line U937 to examine whether or not Porphyromonas gingivalis fimbriae could induce the adhesion of monocytes to endothelial cells. An in vitro adhesion assay was used to investigate the effects of the fimbriae on U937 cell adhesion to human umbilical vein endothelial cells (HUVEC). The fimbriae enhanced U937 cell adhesion to HUVEC in a dose-dependent manner. U937 cells adhered better to HUVEC pretreated with the fimbriae for a minimum of 2 hr than to untreated HUVEC. The enhanced adhesion was inhibited by a monoclonal antibody against P. gingivalis 381 fimbriae. Pretreatment of U937 cells with the fimbriae for 24 hr enhanced U937 cell adhesion to HUVEC approximately 4-fold. This phenomenon was inhibited by an anti-CD11b antibody, suggesting the involvement of CD11b. These results indicate that P. gingivalis fimbriae can induce monocyte adhesion to the endothelial cell surface. They also suggest that the fimbriae may be involved in the initial event for infiltration of monocytes into the periodontal tissues of individuals with adult periodontitis.     

Regulation of the growth and differentiation of a human monocytic cell line by lymphokines. I. Induction of superoxide anion production and chemiluminescence

The U937 human monocytic cell line was studied to determine its ability to generate a respiratory burst after stimulation with phorbol myristate acetate (PMA) or opsonized zymosan. U937 cells cultured in normal medium produced virtually no superoxide anion or chemiluminescence in response to either stimulus. In contrast, U937 cells cultured in medium containing soluble factors from activated lymphocytes produced significant O2- and chemiluminescence when stimulated with PMA or opsonized zymosan. The chemiluminescence in response to PMA was maximal in U937 cells precultured with these soluble factors for 3 days, whereas maximal responsiveness to opsonized zymosan was not observed until 5 to 6 days of lymphokine exposure. Although this ability to generate a respiratory burst persisted for a number of days in U937 cells that were subsequently recultured in normal medium, this responsiveness was gradually lost in the continued absence of these factors. The data indicate that the U937 monocytic cell line can be activated or induced to differentiate by soluble factors released by activated lymphocytes. In the process, these cells acquire the ability to generate a respiratory burst. The U937 cell line may serve as a useful model for the study of the ontogeny and regulation of the respiratory burst during human monocytic differentiation.     

Purification and characterization of a unique human interleukin 1 from the tumor cell line U937

Interleukin 1 (IL 1) produced by a human tumor cell line was purified to homogeneity by a three-step chromatographic method and was tested in various assays for multiple biologic properties. The purified IL 1 stimulated the proliferative response of the D10.G4.1 cell line, a mouse IL 1 indicator T cell; caused the release of prostaglandin E2 and prostacyclin from cultured human foreskin fibroblasts and from primary human umbilical vein endothelial cells; and elicited characteristic endogenous pyrogen fever in rabbits. To stimulate IL 1 production, the histiocytic lymphoma cell line U937 was incubated with the exotoxin from toxic shock strains of Staphylococcus aureus. Supernatants from stimulated U937 cells were concentrated, and were applied to a reverse-phase HPLC column. IL 1 activity was eluted from the column at high acetonitrile concentration. Subsequent chromatography over hydroxyapatite yielded a single IL 1 species with a pI of 5.5. IL 1 was then purified to homogeneity by gel exclusion HPLC migrating as a 14 kDa species. The molecular size was confirmed by SDS-PAGE and was visualized as a single molecule by silver staining; biologic activity was recovered from the same region of the gel. Limited N-terminal sequence analysis suggested some homology to the pI 7 form of the human blood monocyte IL 1. The pI 5.5 IL 1 produced by U937 cells was only partially neutralized with anti-human monocyte IL 1 antibody, suggesting that U937-derived IL 1 is structurally related to one of the molecularly cloned IL 1 species. IL 1 from stimulated U937 cells possesses the functional characteristics of monocyte IL 1 but may represent a structurally unique IL 1 species, as determined by sequence analysis, size, and antibody reactivity.     

Regulation of monocyte/macrophage C2 production and HLA-DR expression by IL-4 (BSF-1) and IFN-gamma

IL-4 was originally described on the basis of its ability to co-stimulate the proliferation of resting B cells treated with anti-IgM. Recently, this cytokine has been shown to have other effects on mast cells, T cells, B cells, and macrophages. We studied the ability of IL-4 to regulate the production of C2 by human monocytes and monocytic cell lines and compared this with stimulation of HLA-DR expression, another recently described activity of IL-4. Responses to IL-4 were compared to IFN-gamma, a cytokine with both activities. IL-4 up-regulated C2 production by human monocytes and this effect was not inhibited by neutralizing anti-IFN-gamma antibody. IL-4 also stimulated C2 production by HL-60 cells that had been pre-treated with vitamin D3 to induce monocytic differentiation. IL-4 did not stimulate C2 production by U937 cells. IFN-gamma, in contrast to IL-4, stimulates C2 production by all three cell types. Although IL-4 increased C2 production by HL-60 cells we could not detect C2 mRNA by Northern blotting. However, co-stimulation of these cells with IL-4 and low concentrations of IFN-gamma resulted in an additive effect on C2 production and a greater increase in C2 mRNA than was seen with IFN-gamma alone. As reported by others, IL-4-stimulated HLA-DR expression by monocytes. In contrast to our findings regarding C2 production, stimulation of HLA-DR expression was inhibited by neutralizing anti-IFN-gamma mAb and IL-4 did not stimulate HLA-DR expression by U937 or HL-60 cells. IFN-gamma stimulated HLA-DR expression by all three cell types. These results identify IL-4 as an additional cytokine able to directly stimulate C2 production by human monocytes and by a monocytic cell line whereas IL-4 stimulation of HLA-DR expression by monocytes appears to be IFN-gamma dependent.     

Programmed Cell Death in 2′,3′-dideoxycytidine-resistant Human Monoblastoid U937 Cells

2′,3′-Dideoxycytidine is a powerful in vitro inhibitor of human immunodeficiency virus and is currently used in the treatment of acquired immunodeficiency syndrome. A long-term exposure of U937 monoblastoid cells to dideoxycytidine induces the selection of drug-resistant cells (U937-R). In previous studies, we investigated some important biochemical properties and functional activities, such as basal respiration, protein kinase C activity, superoxide anion release, and the level of reduced glutathione, which were found to be higher in the drug-resistant cell line, compared to the parental one. In the present study, we evaluated the response of the two cell lines to the induction of apoptosis by treatment with staurosporine and okadaic acid, which interfere with the protein kinase and phosphatase pathways, respectively. Moreover, knowing that GSH plays a crucial role in the regulation of nitric oxide-dependent apoptosis, U937-R and parental lines have been treated with SIN-1, which is known to generate significant amounts of O₂ and nitric oxide. Resistant and parental cells have been analysed by light and electron microscopy and agarose gel electrophoresis of isolated DNA has been performed. The obtained results demonstrate a different susceptibility of U937-R cell line to apoptosis induced with the three triggers. U937-R cells show more advanced apoptotic features if compared with parental cells, after staurosporine treatment. Differently, the okadaic acid does not induce a different behaviour in the two models. On the contrary, the agent SIN-1 determines an increased number of apoptotic cells in the U937 line. The results suggest that a higher level of protein kinase C and glutathione could prevent programmed cell death in U937-R.     

Changes in the expression of elastase and cathepsin B with differentiation of U937 promonocytes by GMCSF

The human promonocytic cell line, U937, when treated for up to 72h with 12,O,tetradecanoyl-phorbol-13-acetate or granulocyte-macrophage colony-stimulating factor, exhibited increased phagocytic activity and expression of the marker p150/95. There was an associated increase in the monocyte proteinase cathepsin B and its mRNA but decreased cellular levels of neutrophil elastase and elastase mRNA. Granulocyte-macrophage colony-stimulating factor therefore causes differentiation of U937 cells, with appropriate effects on the synthesis of leukocyte proteinases.     

Stimulation of mononuclear cell binding to human endothelial cell monolayers by thrombin

The common occurrence of fibrin deposits in chronic inflammatory lesions suggests a possible role for thrombin in the mobilization of mononuclear cell infiltrates. For this reason, the effect of thrombin on the binding of mononuclear cells to endothelial cells (EC) was investigated. Incubation of confluent monolayers of human umbilical vein endothelial cells with thrombin markedly enhanced EC adhesiveness for both T lymphocytes and U937 cells (a monocyte-like cell line) in a time- and dose-dependent fashion. This effect was EC specific: 1) treatment of the T cells or the U937 cells with thrombin did not stimulate their adherence to EC, and 2) treatment of human foreskin fibroblasts with thrombin did not stimulate their inherently low adhesiveness for T cells. Fixation of EC monolayers with paraformaldehyde after pre-incubation with thrombin did not affect the increased adhesiveness for T cells. mAb against the LFA-1 antigen (mAb 60.3 (anti-CD18) or mAb TS1/22 (anti-CD11a), which inhibit the binding of T cells to unstimulated EC, failed to block the increased adhesion induced by thrombin, indicating that the increased binding induced by thrombin is similar to that induced by IL-1 and TNF, which showed similar resistance. These results suggest that thrombin may have a role in the extravascular emigration of mononuclear cells from post-capillary venules by virtue of its ability to stimulate the adhesiveness of EC for both lymphocytes and monocytes.     

Membrane-associated interleukin 1 activity on human U937 tumor cells: stimulation of PGE2 production by human chondrosarcoma cells

Membrane-associated interleukin 1 (IL 1) activity was induced on the human macrophage tumor cell line, U937, by pretreatment with phorbol myristic acid (PMA). Incubation of PMA-treated, paraformaldehyde-fixed U937 cells with the murine cell line D10.G4.1 in the presence of concanavalin A caused an increase in DNA synthesis as measured by the uptake of tritiated thymidine. Paraformaldehyde-fixed U937, not pretreated with PMA, showed little or no activity. A rabbit polyclonal antibody directed against human IL 1 neutralized all membrane-associated IL 1-like activity, as measured by the inhibition of D10.G4.1 cell proliferation. PMA-treated U937 caused a pronounced enhancement of PGE2 production from a human chondrosarcoma cell line, SW-1353. Membrane-associated IL 1 induced a more potent PGE2 response than did a maximal concentration of soluble IL 1. Rabbit antihuman IL 1 neutralized membrane-bound IL 1 induction of PGE2. The data presented here raise the possibility that membrane-bound IL 1 may play a primary role in the pathophysiology of the inflammatory disease process.     

Synthesis of new pyrrolo[1,2-a]quinoxaline derivatives as potential inhibitors of Akt kinase

Akt kinases are attractive targets for small molecule drug discovery because of their key role in tumor cell survival/proliferation and their overexpression/activation in many human cancers. Recent efforts in the development and biological evaluation of small molecule inhibitors of Akt have led to the identification of novel Akt kinase inhibitors, based on a quinoxaline or pyrazinone scaffold. A series of new substituted pyrrolo[1,2-a]quinoxaline derivatives, structural analogues of these active quinoxaline or pyrazinone pharmacophores, was synthesized from various substituted 2-nitroanilines or 1,2-phenylenediamine via multistep heterocyclization process. These new compounds were tested for their in vitro ability to inhibit the proliferation of the human leukemic cell lines K562, U937 and HL60, and the breast cancer cell line MCF7. Three of these human cell lines (K562, U937 and MCF7) exhibited an active phosphorylated Akt form. The most promising active pyrroloquinoxalines were found to be 1a that inhibited K562 cell line proliferation with an IC(50) of 4.5 microM, and 1h that inhibited U937 and MCF7 cell lines with IC(50) of 5 and 8 microM, respectively. These two candidates exhibited more potent activities than the reference inhibitor A6730.     

白血病耐药细胞系U937/ADR的建立及其生物学性状

目的：建立白血病耐药细胞系U937/ADR模型,并检测其多药耐药相关基因及其生物学性状的改变。方法：以大剂量阿霉素(IC50浓度),短时间(2h)暴露法诱导人白血病细胞系U937细胞的阿霉素耐药性。检测细胞的生长曲线,计算阿霉素耐药倍数,流式细胞术分析细胞周期分布;罗丹明123检测药物外排功能;荧光定量PCR（FQ-PCR）检测MDR1、MRP1、NF-Κb、Bcl-2、Bax mRNA水平变化;Western blot 检测Akt、p-Akt、P65、P-gp、MRP1和Bcl-2蛋白水平变化。结果：成功构建耐阿霉素U937/ADR细胞系,对阿霉素耐药指数为亲代U937细胞的11倍,U937/ADR群体倍增时间为43.6h,高于亲代细胞8.9h;流式细胞分析显示与U937细胞相比,U937/ADR的G0/G1期细胞增多,而G2/M期细胞减少。并对多种化疗药物产生交叉耐药性。罗丹明123外排试验显示,U937/ADR细胞外排明显增加。U937/ADR细胞MDR1、NF-Κb、Bcl-2 mRNA表达水平明显增加,P-gp及p-Akt、P65表达水平增加。结论：成功构建的U937/ADR细胞系其生物学特性明显不同与亲代U937细胞,对多种化疗药物产生多药耐药,高表达多药耐药蛋白P-gp,同时激活p-Akt及NF-Kb。