Immunoregulatory activity of recombinant human tumor necrosis factor (TNF)-alpha: induction of TNF receptors on human T cells and TNF-alpha-mediated enhancement of T cell responses

The expression of specific tumor necrosis factor (TNF) membrane receptors and biological effects of recombinant TNF (rTNF)-alpha on normal human T lymphocytes were studied. Although resting T cells lacked specific binding capacity for rTNF-alpha, high affinity (Kd 70 pM) TNF receptors were de novo induced upon primary activation of T cells. Comparison of TNF receptor expression with that of high affinity interleukin 2 (IL-2) and interferon-gamma (IFN-gamma) receptors, respectively, revealed similarities to IL 2-receptor expression with respect to kinetics of induction. However, maximum expression of TNF receptors (approximately equal to 5000/cell at day 6) and subsequent decline occurred approximately 3 days after the peak of IL 2-receptor expression. In contrast, no change in the expression of IFN-gamma receptors (Kd 10 pM, 300 to 400 receptors/cell) was found in the course of T cell activation. On activated TNF receptor positive T cells, TNF-alpha exerted multiple stimulatory activities. Thus TNF increased the expression of HLA-DR antigens and high affinity IL 2 receptors. As a consequence, TNF-treated T cells showed an enhanced proliferative response to IL 2. Moreover, TNF-alpha was effective as a co-stimulator of IL 2-dependent IFN-gamma production. These data indicate that TNF-alpha may regulate growth and functional activities of normal T cells.     

IFN-gamma reduces specific binding of tumor necrosis factor on murine macrophages.

Because IFN-gamma is the main cytokine activating macrophages and TNF cooperates in this activation, we assessed TNF binding capacity during the course of murine macrophage activation by IFN-gamma. TNF binding to elicited macrophages increased with time, was maximal by 8 h of culture, and required de novo protein synthesis. 125I-TNF bound to about 40,000 sites/cell with a Kd of 1 x 10(-9) M. Cross-linking experiments performed with a bifunctional cross-linking agent revealed a specific band with a m.w. of 94,000. Preincubation of macrophages with IFN-gamma prevented the binding of TNF to receptors. This effect was dose-dependent and maximal at 100 U/ml. IFN-gamma also reduced specific TNF binding to preexisting receptors (50% inhibition in 3 h), but IFN-gamma did not change the internalization rate of TNF. These studies showed that the number of TNF receptors increased on macrophages vs maturation in culture and was negatively controlled by IFN-gamma.     

Tumor necrosis factor up-regulates gamma-interferon binding in a human carcinoma cell line

WiDR colorectal carcinoma cells are highly sensitive to the synergistic cytotoxic effects of tumor necrosis factor (TNF) and gamma-interferon (IFN-gamma). In the present study, we have investigated the effects of recombinant human (rh) TNF and IFN-gamma on the binding of both ligands in this cell line. WiDR cells exhibited high affinity binding sites for both 125I-rhTNF (Kd = 1.66 x 10(-10) M, 920 sites/cell) and 125I-rhIFN-gamma (Kd = 4.15 x 10(-10) M, 18,960 sites/cell). Preincubation of the cells with rhTNF (24 h) increased cell-associated 125I-rhIFN-gamma radioactivity by 129% when binding was carried out at 37 degrees C, as a result of an increase in both surface bound and internalized 125I-rhIFN-gamma. However, rhTNF did not alter the degradation profile of released 125I-rhIFN-gamma radioactivity. Scatchard analysis of 125I-rhIFN-gamama binding data (4 degrees C) revealed that rhTNF induced a 245% increase in 125I-rhIFN-gamma binding sites. Conversely, rhIFN-gamma caused a 68% increase in 125I-rhTNF binding sites and a 58% increase in receptor affinity. rhIFN-gamma also increased the subsequent binding of 125I-rhIFN-gamma, whereas rhTNF increased the subsequent binding of 125I-rhTNF. Furthermore, preincubation of the cells with both rhTNF and rhIFN-gamma also resulted in an increase in the binding of both ligands. Actinomycin D and cycloheximide blocked all the effects of rhTNF and rhIFN-gamma on ligand binding. However, the basal level of 125I-rhIFN-gamma binding was insensitive to either inhibitor, whereas the basal level of 125I-rhTNF binding was decreased by both inhibitors. These data indicate that in some cell types TNF and IFN-gamma may induce an increase in their own receptors (homologous up-regulation) and concomitantly increase each other's receptors (heterologous up-regulation) and that these actions are due, in part, to enhanced receptor synthesis.     

Transforming growth factor beta treatment decreases ACTH receptors on ovine adrenocortical cells

Transforming growth factor beta (TGF beta) is a potent inhibitor of adrenocortical cell differentiated functions, whereas corticotropin (ACTH) is the main physiological hormone which acts positively on these functions. We have studied the effects of both TGF beta and ACTH on ovine adrenocortical cell ACTH receptors. Ovine adrenocortical cells contained specific high affinity (Kd = 2.7 +/- 1.6 x 10(-10) M) and low capacity (1190 +/- 120 sites/cell) ACTH receptors. Pretreatment of cells with TGF beta resulted in a time- and dose-dependent (ED50 = 50 pg/ml) decrease of 125I-ACTH1-39 binding. The observed decrease in ACTH binding was due to a 2-3-fold decrease in the number of binding sites without modification of the binding affinity. On the contrary, pretreatment of cells with ACTH caused a 4-4.5-fold increase in the number of ACTH binding sites without an effect on the Kd. When cells were pretreated with both ACTH and TGF beta, TGF beta blocked completely the positive trophic effect of ACTH on its own receptors. The variations in ACTH receptor number were associated with parallel changes on acute ACTH-induced cyclic AMP production. Thus, the effects of TGF beta on ACTH receptor content are likely another important negative action of this peptide on adrenocortical cell differentiation. Moreover, these results suggest that regulation of ACTH receptor number may be one mechanism by which hormones and growth factors control adrenocortical differentiation.     

Differentiation of ob 17 preadipocytes to adipocytes. Effect of insulin on the levels of insulin receptors and on the transport of alpha-aminoisobutyrate.

Cells of a clonal cell line (ob 17) isolated from the epididymal fat pad of ob/ob mouse possess insulin receptors. Their number was increased 1.5-fold after growth arrest, with no significant change in the Kd values of the "high affinity" sites determined by extrapolation of the high affinity portion of the curvilinear Scatchard plots. With chronic insulin exposure for 3 to 11 days after confluence, ob 17 cells showed a decrease in insulin receptor concentrations from 8,000 to 1,600 high affinity sites/cell (Kd from 0.45 to 1.10(-9) M) while similar levels of "low affinity" sites were found (80,000 to 100,000 sites/cell; Kd from 10(-8) to 3 x 10(-8) M). The loss of the high affinity binding sites is accompanied by the disappearance of the stimulatory effect by insulin of alpha-aminoisobutyrate uptake. Therefore, in contrast to 3T3-L1 fibroblasts, the ob 17 cells present, in culture, a self-modulation of insulin receptors and a loss of insulin sensitivity after chronic exposure to insulin.     

Down-regulation of interleukin 6 receptors of mouse myelomonocytic leukemic cells by leukemia inhibitory factor.

We examined the effect of leukemia inhibitory factor (LIF) on the expression of interleukin 6 receptors (IL-6R) on mouse myelomonocytic leukemic M1 cells. Binding studies using 125I-labeled human and murine IL-6 revealed that LIF caused a decrease in IL-6 binding to M1 cells. The decrease became evident within 1 h, and the maximum decrease was observed at 3-6 h. Scatchard plot analysis revealed that M1 cells had a single class of high affinity receptors for IL-6 and that LIF-induced decrease in IL-6 binding was due to a decrease in the number of IL-6R on the cell surface and not to changes in their affinity. The affinity of IL-6R on M1 cells to human IL-6 (Kd = 2.25 nM) was about 10-fold lower than that to murine IL-6 (Kd = 200 pM). The amount of IL-6 secreted into culture media by M1 cells that were treated with LIF for up to 12 h was not enough to cause receptor down-regulation. Northern blot analysis demonstrated that IL-6R mRNA was down-regulated by LIF treatment, and similar regulation was also observed when the cells were treated with IL-6. The time course of the IL-6R mRNA level was similar to that of IL-6R expression on the cell surface, suggesting that the main mechanism responsible for the loss of high affinity IL-6R was the regulation of IL-6R mRNA. Although the half-life of IL-6R on the cell surface was about 30 min, the addition of LIF reduced it to 16 min, suggesting the existence of an additional mechanism responsible for the loss of high affinity IL-6R on the cell surface.     

Effect of cell cycle on the regulation of the cell surface and secreted forms of type I and type II human tumor necrosis factor receptors

The cell cycle has been shown to regulate the biological effects of human tumor necrosis factor (TNF), but to what extent that regulation is due to the modulation of TNF receptors is not clear. In the present report we investigated the effect of the cell cycle on the expression of surface and soluble TNF receptors in human histiocytic lymphoma U-937. Exposure to hydroxyurea, thymidine, etoposide, bisbensimide, and democolcine lead to accumulation of cells primarily in G₁/S, S, S/G₂/M, G₂/M, and M stages of the cell cycle, respectively. Whilie no significant change in TNF receptors occurred in cells arrested in G₁/S or S/G₂ stages, about a 50% decrease was observed in cells at M phase of the cycle. Scatchard analysis showed a reduction in receptor number rather than affinity. In contrast, cells arrested at S phase (thymidine) showed an 80% increase in receptor number. The decrease in the TNF receptors was not due to changes in cell size or protein synthesis. The increase in receptors, however, correlated with an increase in total protein synthesis (to 3.8-fold of the control levels). A proportional change was observed in the p60 and p80 forms of the TNF receptors. A decrease in the surface receptors in cells arrested in M phase correlated with an increase in the amount of soluble receptors. The cellular response to TNF increased to 8- and 2-fold in cells arrested in G₁ and S phase, respectively; but cells at G2/M phase showed about 6-fold decrease in response. In conclusion, our results demonstrate that the cell cycle plays an important role in regulation of cell-surface and soluble TNF receptors and also in the modulation of cellular response. © 1995 Wiley-Liss, Inc.     

Studies on the differing effects of tumor necrosis factor and lymphotoxin on the growth of several human tumor lines

The relative ability of TNF and lymphotoxin (LT) to inhibit the growth of five human tumor cell lines was examined both in the presence and absence of IFN-gamma. Two adenocarcinoma lines, HT-29 and SK-CO-1, were 20- and 320-fold more sensitive to the inhibitory effects of TNF and LT in 3- to 4-day proliferation assays. In contrast, the breast carcinoma line BT-20 showed only a one- to twofold difference. The MCF-7 and ME-180 cell lines exhibited intermediate behavior. These results parallel the reported disparate potencies of TNF and LT in their effects on endothelial cells, hematopoietic development and their abilities to sustain a mixed lymphocyte response. Radiolabeled TNF binding studies showed two classes of receptors (Kd 0.04 to 0.15 nM and 0.2 to 1.0 nM) on the highly sensitive SK-CO-1 line. HT-29 cells also appeared to possess some high affinity-binding sites, whereas the BT-20 line completely lacked the high affinity form. Thus the presence of high affinity-binding sites correlated with increased sensitivity to the antiproliferative effects of TNF. Cold TNF competed with the binding of radiolabeled human TNF three- to fivefold better than LT for binding to all three lines. These relatively small differences between the TNF and LT receptor-binding characteristics are insufficient to explain the dramatic disparity in their antiproliferative properties. Likewise, the absolute concentrations of the unlabeled cytokines necessary to block the binding of 125I-TNF were 10- to 150-fold higher than the levels necessary to elicit the biologic response. Thus, the receptor binding data conflict with the growth inhibitory effects. This discrepancy is discussed in terms of either separate receptors for TNF and LT or more complex phenomena such as receptor cooperativity possibly resulting from multivalent interactions with the trimeric form of TNF.     

TNF-alpha drives human CD14+ monocytes to differentiate into CD70+ dendritic cells evoking Th1 and Th17 responses

Many mechanisms involving TNF-alpha, Th1 responses, and Th17 responses are implicated in chronic inflammatory autoimmune disease. Recently, the clinical impact of anti-TNF therapy on disease progression has resulted in re-evaluation of the central role of this cytokine and engendered novel concept of TNF-dependent immunity. However, the overall relationship of TNF-alpha to pathogenesis is unclear. Here, we demonstrate a TNF-dependent differentiation pathway of dendritic cells (DC) evoking Th1 and Th17 responses. CD14(+) monocytes cultured in the presence of TNF-alpha and GM-CSF converted to CD14(+) CD1a(low) adherent cells with little capacity to stimulate T cells. On stimulation by LPS, however, they produced high levels of TNF-alpha, matrix metalloproteinase (MMP)-9, and IL-23 and differentiated either into mature DC or activated macrophages (M phi). The mature DC (CD83(+) CD70(+) HLA-DR (high) CD14(low)) expressed high levels of mRNA for IL-6, IL-15, and IL-23, induced naive CD4 T cells to produce IFN-gamma and TNF-alpha, and stimulated resting CD4 T cells to secret IL-17. Intriguingly, TNF-alpha added to the monocyte culture medium determined the magnitude of LPS-induced maturation and the functions of the derived DC. In contrast, the M phi (CD14(high)CD70(+)CD83(-)HLA-DR(-)) produced large amounts of MMP-9 and TNF-alpha without exogenous TNF stimulation. These results suggest that the TNF priming of monocytes controls Th1 and Th17 responses induced by mature DC, but not inflammation induced by activated M phi. Therefore, additional stimulation of monocytes with TNF-alpha may facilitate TNF-dependent adaptive immunity together with GM-CSF-stimulated M phi-mediated innate immunity.     

Atrial natriuretic peptide binding, cross-linking, and stimulation of cyclic GMP accumulation and particulate guanylate cyclase activity in cultured cells

The stimulation of cyclic GMP accumulation and particulate guanylate cyclase activity by atrial natriuretic peptide (ANP) was compared to the affinity and number of ANP receptors in eight cultured cell types. At 100 nM, ANP increased cyclic GMP by 13-fold in bovine adrenal cortical, 35-fold in human lung fibroblast, 58-fold in canine kidney epithelial, 60-fold in bovine aortic smooth muscle, 120-fold in rat mammary epithelial, 260-fold in rat Leydig, 300-fold in bovine kidney epithelial, and 475-fold in bovine aortic endothelial cells. ANP (1 microM) increased particulate guanylate cyclase activity by 1.5-, 2.5-, 3.1-, 3.2-, 5.0-, 7.0-, 7.8-, and 8.0-fold in bovine adrenal cortical, bovine aortic smooth muscle, human lung fibroblast, canine kidney epithelial, rat mammary epithelial, rat Leydig, bovine kidney epithelial, and bovine aortic endothelial cells, respectively. Specific 125I-ANP binding to intact rat Leydig (3,000 sites/cell; Kd = 0.11 nM), bovine aortic endothelial (14,000 sites/cell; Kd = 0.09 nM), bovine adrenal cortical (50,000 sites/cell; Kd = 0.12 nM), human lung fibroblast (80,000 sites/cell; Kd = 0.32 nM), and bovine aortic smooth muscle (310,000 sites/cell; Kd = 0.82 nM) cells was saturable and high affinity. No specific and saturable ANP binding was detected in bovine and canine kidney epithelial and rat mammary epithelial cells. Two ANP-binding sites of 66,000 and 130,000 daltons were specifically labeled by 125I-ANP after cross-linking with disuccinimidyl suberate. The 130,000-dalton ANP-binding sites bound to a GTP-agarose affinity column, and the specific activity of guanylate cyclase was increased by 90-fold in this fraction. Our results demonstrate that the increase in cyclic GMP accumulation and particulate guanylate cyclase activity by ANP does not correlate with the affinity and number of ANP-binding sites. These results suggest that multiple populations of ANP receptors exist in these cells and that only one receptor subtype (130,000 daltons) is associated with particulate guanylate cyclase activity.     

IFN-gamma, tumor necrosis factor-alpha, and urokinase regulate the expression of urokinase receptors on human monocytes

The ability of macrophages to reach inflammatory loci is crucial in the function of cellular immunity. Invasive properties of macrophages may be due to the proteinase urokinase which binds to cell surface receptors, and thereby confers on macrophages the capacity for localized proteolysis of the interstitium. Here, we investigated the role of the macrophage-activating factors IFN-gamma, TNF-alpha, and granulocyte-macrophage-CSF and of urokinase on the expression of urokinase receptors by human cultured monocytes. IFN-gamma and TNF-alpha induced increased urokinase binding to human cultured monocytes in a time- and dose-dependent fashion. At optimal concentrations, IFN-gamma (200 U/ml) increased the number of receptors/cell from 14,000 to 64,000, TNF-alpha (50 U/ml) to 30,000, and combinations of IFN-gamma and TNF-alpha to 90,000. Granulocyte-macrophage-CSF had no effect. The enhanced urokinase binding is due to increased numbers of urokinase receptors and not an increased affinity of the receptor for urokinase. In the presence of urokinase during monocyte activation, IFN-gamma induced only 25,000 receptors/cell. However, urokinase does not inhibit increased receptor expression when the cells are activated with TNF-alpha. The effect of urokinase on induction of urokinase receptors by combinations of IFN-gamma and TNF-alpha varied with the dosage of TNF-alpha: A combination of IFN-gamma (200 U/ml) and TNF-alpha (15 U/ml) induced 38,000 receptors/cell in the presence and 90,000 receptors/cells in the absence of urokinase, whereas IFN-gamma (200 U/ml) and TNF-alpha (20 U/ml) induced 90,000 receptors/cell in the absence and presence of urokinase. These studies demonstrate that IFN-gamma, TNF-alpha, and urokinase collectively regulate the number of urokinase receptors on human monocytes. The induction of urokinase receptors may be responsible for increased invasiveness of the activated macrophage.     

Biochemical properties of the 75-kDa tumor necrosis factor receptor. Characterization of ligand binding, internalization, and receptor phosphorylation.

An expression plasmid encoding the human 75-kDa tumor necrosis factor (TNF) type 2 receptor (TNF-R2) was constructed and used to generate a stable human cell line (293/TNF-R2) overexpressing TNF-R2. Ligand binding analysis revealed high affinity binding (Kd = 0.2 nM) with approximately 94,000 +/- 7,500 sites/cell for 125I-TNF-alpha and approximately 5-fold lower affinity for TNF-beta (Kd = 1.1 nM) with 264,000 +/- 2,000 sites/cell. Cross-linking of 125I-TNF-alpha and 125I-TNF-beta to 293/TNF-R2 cells yielded predominant complexes with apparent molecular weights of 211,000 for TNF-alpha and 205,000 and 244,000 for TNF-beta, suggesting these complexes contain two or three TNF-R2 molecules. Immunoprecipitation of TNF-R2 from 32P-labeled 293/TNF-R2 cells demonstrated that the receptor is phosphorylated. The majority (97%) of 32Pi incorporation was found in serine residues with a very low level of incorporation (3%) in threonine residues. TNF-alpha treatment of 293/TNF-R2 cells did not significantly affect the degree or pattern of phosphorylation. Cell surface-bound 125I-TNF-alpha was slowly internalized by the 293/TNF-R2 cell line with a t1/2 = 25 min. Shedding of the extracellular domain of TNF-R2 was induced by 4 beta-phorbol 12-myristate 13-acetate but not by TNF-alpha or TNF-beta.     

Modifications of LDL-receptor-mediated endocytosis rates in CEM lymphoblastic cells grown in lipoprotein-depleted fetal calf serum

The efficiency of supplying cholesterol by the LDL endocytic pathway of lymphoblastic T CEM cells was compared when incubated in the presence of either fetal calf serum (FCS) or lipoprotein-depleted fetal calf serum (LDFCS). In the presence of FCS, there were 8600 +/- 2000 LDL receptors/cell with a Kd of (2.2 +/- 0.8).10(-8) M and a receptor cycling time of about 7 min; about 90% of the internalized LDL was degraded. LDL degradation produced 98% of total cellular cholesterol and only 2% came from endogenous synthesis. The absence of LDL in the culture medium of lymphoblastic CEM cells deeply modified certain metabolic and structural characteristics of the cells. Their cholesterol content decreased; the total number of LDL receptors increased 6-fold, whereas their affinity for the ligand decreased by the same factor (Kd = (1.2 +/- 0.2).10(-7) M); the receptor cycling time increased 3-fold. Finally, LDL degraded by cholesterol-depleted CEM cells amounted to about 40% of that degraded by untreated CEM cells.     

Specific, high-affinity binding sites for angiotensin II on Mycoplasma hyorhinis.

Mycoplasmataceae are known to express various proteins that are similar to those present in mammals. We report a strain of Mycoplasma hyorhinis isolated from opossum kidney cells with specific, high-affinity binding sites for human angiotensin II (Kd = 5.1 +/- 1.9 nM). In contrast, two strains of M. hominis revealed no specific binding. These binding sites resembled mammalian angiotensin II receptors by their high affinity and by their sensitivity to dithiothreitol. However, they are different from mammalian angiotensin II receptors in that they bind angiotensin I with high affinity (Kd = 1.6 +/- 0.29 nM) but not angiotensin III (Kd approximately 330,000 nM). [125I]-angiotensin II binding was not inhibited by angiotensin receptor subtype antagonists DuP 753 and CGP 42112A but it was sensitive to bacitracin and aprotinin. Positions Asp1, Ile5, His6 and Pro7 were essential for binding to M. hyorhinis as deletion of these residues led to a more than 10,000-fold decrease in affinity.     

Binding and receptor-mediated endocytosis of erythropoietin in Friend virus-infected erythroid cells

The binding of labeled erythropoietin (EP) to cell surface receptors and subsequent processing of the hormone within the cell was studied in erythroid cells procured from the spleens of mice infected with the anemia strain of Friend virus. These immature erythroid cells respond to EP in culture to differentiate into reticulocytes and erythrocytes. Radiolabeled EP (both iodinated and tritiated) binds to 800-1000 cell surface receptors on these cells at 4 degrees C. Using 125I-EP, we found that 300 of these cell surface receptors have a higher affinity for EP (Kd = 0.09 nM) than the remaining receptors (Kd = 0.57 nM). The number of molecules of EP bound per cell increased about 2-fold when binding was carried out at 37 degrees C. Treatment of the cell surface with pronase or removal of surface-bound EP with a low pH wash revealed that radiolabeled EP is internalized by the cells at 37 degrees C. Pulse chase experiments showed that degradation products of radiolabeled EP are released into the medium with a corresponding loss of label from the interior of the cell. Inhibitors of lysosomal function greatly reduced this degradation of 125I-EP. Since 180 of the 300 high affinity receptors and very few of the low affinity receptors are occupied at the concentration of EP which elicits the maximum biological response in these cells, we suggest that interaction of EP with the high affinity receptors are necessary for the full biological effect of the hormone. A different murine erythroleukemia cell line which does not differentiate in response to EP was found to have only the lower affinity binding sites for the hormone.     

Tumor necrosis factor-alpha and IFN-gamma expression in human thymus. Localization and overexpression in Down syndrome (trisomy 21).

In vitro studies suggest that TNF-alpha and IFN-gamma regulate thymocyte proliferation, but little evidence exists for the constitutive production of these cytokines in normal human thymus. In paired experiments, we examined frozen sections of postnatal human thymus from four control children and four age-matched children with Down syndrome (DS) (trisomy 21) for TNF-alpha and IFN-gamma mRNA expression using in situ hybridization. We studied thymuses from children with DS because this aneuploid condition is associated with a greatly increased incidence of infection and has abnormal thymic anatomy and patterns of thymocyte maturation. We found cells expressing constitutive levels of TNF-alpha mRNA in the trabeculae, corticomedullary junctions, and medulla of both control and DS thymuses and the number of these cells was an average of 3.9-fold higher in DS thymuses than in age-matched control thymuses. DS thymuses also contained an average of 3 fold higher numbers of cells with mast cell morphology, identified by toluidine blue histologic staining and electron microscopy. In both DS and control thymuses the mast cells colocalized with TNF-alpha mRNA-expressing cells. In addition, TNF-alpha protein- expressing cells, identified by immunohistochemistry, displayed a granular pattern of staining that is characteristic of mast cells. These results suggest that mast cells may be one source of TNF-alpha in human postnatal thymus. Discrete cells expressing IFN-gamma mRNA were distinctly localized to the cortical region of both DS and control thymuses and were 2.4-fold more abundant in DS thymuses than in the controls. Our results demonstrate, for the first time, the constitutive production and location of TNF-alpha and IFN-gamma in postnatal human thymus. The overexpression of both of these cytokines in DS thymuses suggests a dysregulation in cytokine production in DS and may provide an explanation for the abnormal thymic anatomy and thymocyte maturation associated with this syndrome.     

Characterization of the differential expression of uncoupling protein 2 and ROS production in differentiated mouse macrophage-cells (Mm1) and the progenitor cells (M1)

The expression status of mitochondrial uncoupling protein 2 (UCP2) was investigated in undifferentiated mouse myeloid leukemia (M1) and its differentiated macrophage-like cells (Mm1). Mm1 cells have a high ability of phagocytosis along with significantly high levels of reactive oxygen species (ROS) production, UCP2 protein and manganese superoxide dismutase (Mn-SOD), in contrast to undifferentiated leukemia cells (M1). Mm1 cells expressed 10-fold more UCP2 protein compared with undifferentiated M1 cells, although the UCP2 mRNA levels in both cell types were similar. The higher expression of UCP2 in the Mm1 cells suggests a regulatory role of UCP2 in the ROS production. Furthermore, the transfection of UCP2-GFP-expression vector in Mm1 cells dissipated the mitochondrial membrane potential and reduced ROS production, which was shown by their direct visualization using MitoTracker Red CM-H₂Xros. The macrophage gp91phox protein, a membrane catalytic component of the NADPH oxidase complex, was at a similar level in both of UCP2-GFP expressed and non-expressed Mm1 cells. These results suggest that the UCP2 protein of the undifferentiated cell is regulated at a quite low level and the higher UCP2 protein of the differentiated macrophages involves with the regulation of ROS production.