Antibodies to phospholipids and liposomes: binding of antibodies to cells

Binding of two monoclonal anti-liposome antibodies to the surface of cultured murine peritoneal macrophages was investigated by indirect immunofluorescence and enzyme-linked immunosorbent assay. Neither antibody bound to cultures of freshly explanted, nonadherent macrophages, but immunoreactivity was observed following cell adherence to tissue culture plastic. Fluorescent microscopic evaluation revealed heterogeneity in staining patterns of the antibodies on adherent cells. Binding both to viable and fixed adherent macrophages was observed even after a 10,000-fold dilution of antibody. Treatment of adherent macrophage cultures with trypsin increased antibody binding. Further treatment of trypsinized-macrophages with alkaline phosphatase or neuraminidase did not affect antibody binding, but phospholipase D and, to a greater extent, phospholipase C resulted in a marked decrease in cellular binding. The data indicate that antibodies produced against liposomes appear to bind to surface phospholipids of macrophages, but binding can be influenced by the physiological state of the macrophage and overlying cell surface proteins.     

高浓度葡萄糖通过p38MAPK-TXNIP/TRX-ROS通路抑制MC3T3-E1细胞成骨分化

目的：研究高浓度葡萄糖抑制MC3T3-E1细胞成骨分化的机理。方法：建立MC3T3-E1细胞成骨分化诱导体系,观察不同浓度葡萄糖（5.5mM和22mM）对MC3T3-E1细胞成骨分化的影响;用不同浓度的p38 MAPK抑制剂Fr167653（0.1μM、1.0μM和10μM）进行药物干预,观察MC3T3-E1细胞在22mM葡萄糖浓度下成骨分化的变化情况。通过钙含量检测、Real time PCR检测相关分化的变化;用Western Blot方法检测MC3T3-E1细胞分化过程中p38 MAPK磷酸化状态、TXNIP表达水平的变化;使用胰岛素二硫键还原法检测细胞内TRX活性水平;使用活性氧检测试剂盒检测细胞内自由氧生成水平。结果：体外诱导条件下,高浓度（22mM）葡萄糖通过升高p38 MAPK磷酸化水平,上调TXNIP表达水平,同时降低TRX活性,使细胞内自由氧生成增加,抑制MC3T3-E1细胞的成骨分化;Fr167653通过抑制p38 MAPK磷酸化,下调TXNIP表达同时升高TRX活性,抑制细胞内自由氧生成,解除高浓度葡萄糖对细胞成骨分化的抑制作用。结论：高浓度葡萄糖通过p38 MAPK-TXNIP/TRX-ROS信号通路抑制MC3T3-E1细胞成骨分化。     

Binding of cathepsin D to the mannose receptor on rat peritoneal macrophages

Adherent cultures of rat peritoneal macrophages secrete lysozyme and the lysosomal marker enzymes beta-glucuronidase, beta-N-acetylglucosaminidase and acid phosphatase; the levels of secreted lysosomal cathepsin D, however, were found to be insignificant. Incubation of the cells at 4 degrees C for 15 min with yeast mannan or with 50 mM mannose, methyl alpha-glucopyranoside, or N-acetylglucosamine caused the concentration of cathepsin D in the culture medium to increase 30-40-fold; mannose-6-phosphate had no effect. 125I-labeled cathepsin D was prepared and the binding constant to the macrophage cell surface was determined to be KD = 27 nM. The data suggest that cathepsin D binds to the mannose receptor of macrophages and that binding to this receptor is not in equilibrium with the bulk medium.     

Acute glucose overload potentiates nitric oxide production in lipopolysaccharide-stimulated macrophages: the role of purinergic receptor activation

The positive effects of high glucose on the cellular productivity of nitric oxide (NO), and the mechanisms of the enhancement, were investigated. Macrophages were shifted from normal-glucose medium (5.5 mM) to high-glucose medium (25 mM) and immediately treated with lipopolysaccharide (LPS). Inducible nitric oxide synthase (iNOS) expression was expressed significantly more quickly, and NO production also increased. High-glucose conditions reduced cell viability at 48 h. Pretreatment with oxidized adenosine triphosphate (o-ATP), the selective purinergic receptor antagonist, strongly reduced LPS-induced iNOS expression, NO production and cell death in cells exposed to high levels of glucose. Apyrase, an ATP-hydrolyzing enzyme, also reduced the effects of high-glucose content. High-glucose content promoted the LPS-induced release of endogenous ATP from RAW 264.7 cells, as measured by luciferin-luciferase assay. In summary, the results revealed that purinergic receptor is important in responding to LPS challenge, increasing LPS-induced NO production and cell death under high-glucose conditions, and promoting the release of ATP from macrophages in high-glucose medium.     

Reduction in ABCG1 in Type 2 diabetic mice increases macrophage foam cell formation

Atherosclerosis development is accelerated severalfold in patients with Type 2 diabetes. In the initial stages of disease, monocytes transmigrate into the subendothelial space and differentiate into foam cells. Scavenger receptors and ATP binding cassette (ABC) Transporters play an important role in foam cell formation as they regulate the influx and efflux of oxidized lipids. Here, we show that peritoneal macrophages isolated from Type 2 diabetic db/db mice have decreased expression of the ABC transporter ABCG1 and increased expression of the scavenger receptor CD36. We found a 2-fold increase in accumulation of esterified cholesterol in diabetic db/db macrophages compared with wild-type control macrophages. Diabetic db/db macrophages also had impaired cholesterol efflux to high density lipoprotein but not to lipid-free apo A-I, suggesting that the increased esterified cholesterol in diabetic db/db macrophages was due to a selective loss of ABCG1-mediated efflux to high density lipoprotein. Additionally, we were able to confirm down-regulation of ABCG1 using C57BL/6J peritoneal macrophages cultured in elevated glucose in vitro (25 mM glucose for 7 days), suggesting that ABCG1 expression in diabetic macrophages is regulated by chronic exposure to elevated glucose. Diabetic KK(ay) mice were also studied and were found to have decreased ABCG1 expression without an increase in CD36. These observations demonstrate that ABCG1 plays a major role in macrophage cholesterol efflux and that decreased ABCG1 function can facilitate foam cell formation in Type 2 diabetic mice.     

A role for Ia antigens in thymocyte binding by macrophages

To investigate the membrane structures involved in cellular interactions between thymocytes and macrophages, the relative ability of different murine macrophage populations to spontaneously bind thymocytes was compared. Macrophages derived from the spleen or thymus bound three to four times the number of thymocytes than macrophages from peripheral blood, peritoneum, or bone marrow. This reflects differences both in the number of macrophages binding thymocytes and in the number of thymocytes bound per macrophage. The extent of binding seems to positively correlate with the number of Ia-positive macrophages contained in these populations, as based on previously published values. This was confirmed by showing that elimination of splenic Ia-positive macrophages with anti-Ia and complement treatment dramatically reduced thymocyte binding. In addition, mouse peritoneal washout macrophages incubated for several days with supernatant fluid from concanavalin A-stimulated spleen cells, which induce Ia-antigen expression, exhibited a marked increase in the number of macrophages that bound thymocytes and the number of thymocytes bound per macrophage. To determine if Ia antigens were directly involved in binding, spleen, thymus, or Ia-induced peritoneal macrophages were treated with a monoclonal anti-Ia antibody prior to the addition of thymocytes. Treatment with anti-Ia reduced binding by around 50%, whereas treatment with anti-H-2D antibody had no effect. Monoclonal anti-I-A and anti-I-E antibody treatments of macrophages both inhibited thymocyte binding to similar extents, and treatment of macrophages with both reagents together reduced thymocyte binding by 80%. These results indicate that thymocyte binding is in part dependent on macrophage Ia expression.     

Tuftsin (Thr-Lys-Pro-Arg), a natural modulator of macrophage activity: further studies

Tuftsin, Thr-Lys-Pro-Arg, that activates macrophage functions, binds to specific receptors on these cells. The receptor capacity to bind tuftsin is diminished by prior treatment of the cells with dithiothreitol. Adherent mouse peritoneal macrophages bind tuftsin to a far less extent than non-adherent macrophages. Michaelis constant (Km) of tuftsin for phagocytic stimulation of macrophages is 111 eta M. The half maximal binding concentration of tuftsin by these cells is 117 eta M. These are similar values and indicate that full occupancy of the receptors by tuftsin is a necessary prerequisite for maximal phagocytosis.     

Effects and mechanism of action of synthetic peptide octarphin

We have synthesized the peptide TPLVTLFK corresponding to the β-endorphin fragment 12-19 (the name given by the authors - octarphin), and its analogs (LPLVTLFK, TLLVTLFK, TPLVLLFK, TPLVTLLK, TPLVTLFL). The peptide octarphin was labeled with tritium (the specific activity of 28 Ci/mmol) and its binding to the murine peritoneal macrophages has been studied. [(3)H]Octarphin was found to bind to macrophages with high affinity (K(d) = 2.3 ± 0.2 nM) and specificity. The specific binding of [(3)H]octarphin is inhibited by unlabeled β-endorphin and selective agonist of non-opioid β-endorphin receptor synthetic peptide immunorphin (SLTCLVKGFY) (K(i) = 2.7 ± 0.2 and 2.4 ± 0.2 nM respectively) and not inhibited by unlabeled naloxone, α-endorphin, γ-endorphin and [Met(5)]enkephalin (K(i) > 10 μM). Inhibiting activity of unlabeled analogs of octarphin is more then 100 times lower the unlabeled octarphin. Octarphin stimulates activity of murine immunocompetent cells in vitro and in vivo: at the concentration of 1-10 nM enhances the adhesion and spreading of peritoneal macrophages as well as their capacity to digest bacteria of Salmonella typhimurium virulent strain 415 in vitro. Intraperitoneal administration of peptide at dose 20 μg/animal on day 7,3 and 1 prior to the isolation of cells increases activity of peritoneal macrophages as well as T- and B-spleen lymphocytes.     

Positive regulatory role of IL-12 in macrophages and modulation by IFN-gamma.

Similar to myeloid dendritic cells, murine macrophages and macrophage cell lines were found to express a surface receptor for IL-12. As a result, peritoneal macrophages could be primed by IL-12 to present an otherwise poorly immunogenic tumor peptide in vivo. Using binding analysis and RNase protection assay, we detected a single class of high affinity IL-12 binding sites (K(d) of approximately 35 pM) whose number per cell was increased by IFN-gamma via up-regulation of receptor subunit expression. Autocrine production of IL-12 was suggested to be a major effect of IL-12 on macrophages when the cytokine was tested alone or after priming with IFN-gamma in vitro. In vivo, combined treatment of macrophages with IFN-gamma and IL-12 resulted in synergistic effects on tumor peptide presentation. Therefore, our findings suggest a general and critical role of IL-12 in potentiating the accessory function of myeloid APC.     

Regulation of uptake of inositol by glucose in cultured retinal pigment epithelial cells

Long term and acute effects of glucose on myo-inositol (MI) uptake were studied in primary cultures of bovine retinal pigment epithelial (RPE) cells. RPE cells were grown under low (5 mM) or high (20, 40, or 50 mM) glucose levels in the growth medium for up to 18 days. The concentrative capacity of confluent RPE cells to accululate [3H]MI (10 microM) was reduced up to 41% as the glucose concentration in the growth medium increased. When the growth medium glucose was switched from 5 to 40 mM, or vice versa, the capacity of cells to accumulate MI was reversed. Treatment of cells grown in 40 or 50 mM glucose with 0.1 mM Sorbinil (an aldose reductase inhibitor) minimally reversed the ability of cells to accumulate MI. RPE cells, grown in 5 mM glucose, were incubated with 10-60 mM D-glucose or its nonmetabolizable analogues (acute effect). Kinetics of MI uptake inhibition by alpha-methyl glucose according to Dixon plots were characteristic of competitive inhibition (Ki = 28 mM). MI uptake was strongly inhibited by phlorizin. The ability of RPE cells to bind 5 microM [3H]phlorizin also was reduced by increased glucose levels in the growth medium. These studies indicated that MI and glucose shared the same transporter system. Glucose in the incubation medium directly interfered with MI binding to the transporter. High glucose feeding of the cells also down-regulated the transporter density. The uptake and function of solutes such as MI in tissues that operate on the glucose carrier system may be severely impaired in diabetes.     

Binding and degradation of soluble immunoglobulin aggregates by mouse mononuclear phagocytes—Stimulation by colony-stimulating factor

The binding and degradation of soluble guinea pig IgG₂ aggregates by murine mononuclear phagocytes were studied. Bone marrow mononuclear phagocytes cultured in the presence of an embryonic fibroblast-conditioned medium (CM) degraded the aggregates to a much greater degree than did resident peritoneal macrophages. Binding and degradation by resident peritoneal macrophages were enhanced by culture in the presence of CM.Freshly harvested thioglycollate-induced peritoneal macrophages bound and degraded the aggregates to the same degree as the cultured bone marrow mononuclear phagocytes did. However, the thioglycollate-induced macrophages lost most of these capacities when cultured in vitro without CM. When CM was added to these cultures, the capacity to bind and degrade was restored in a dose-dependent fashion. To obtain the maximum effect, exposure to CM must be maintained for more than 2 days. The effect of CM could be reproduced with purified CSF-1. Taken together the results of this study indicate that Fc receptor expression is modulated by CSF-1.     

Glucose regulates glucokinase activity in cultured islets from rat pancreas

In this study, we have used isolated pancreatic islets cultured for 7 days in 3 or 30 mM glucose to explore whether glucokinase is induced or activated by high glucose concentrations and has related enzyme activity to glucose-stimulated insulin release. Islets cultured in low glucose medium or low glucose medium plus 350 ng/ml insulin did not respond to high glucose stimulation. Islets cultured in medium containing high glucose concentrations showed a high rate of basal insulin secretion when perifused with 5 mM glucose, and the insulin release was greatly augmented in a biphasic secretion profile when the glucose concentration was raised to 16 mM. Islet glucokinase and hexokinase activities were determined by a sensitive and specific fluorometric method. Glucokinase activity was reduced to approximately 50% in islets cultured in low glucose medium with or without insulin present compared to results with fresh islets. However, islets cultured in 30 mM glucose showed that glucokinase activity was elevated to 236% compared to results with fresh islets. It is concluded that (a) glucose is the physiological regulator of glucokinase in the islet of Langerhans and that (b) the activity of glucokinase plays a crucial role in glucose-induced insulin secretion.     

Murine monocytes express transferrin receptors: evidence for similarity to inflammatory macrophages

Nonionic detergent extracts of murine monocytes contain a specific, high-affinity binding site for the serum glycoprotein transferrin. The binding activity was saturable and specific for 125I-labeled transferrin. The transferrin-receptor content of monocytes was compared with that of resident peritoneal macrophages and thioglycollate-elicited macrophages. Whereas resident cells showed no detectable activity, inflammatory macrophages and monocytes both bound transferrin to a similar degree. The calculated dissociation constant (2.3 X 10(-10)) and the number of sites per monocyte (11,400) compared favorably with those reported for transferrin receptors on inflammatory macrophages. Thus, based on the expression of the transferrin receptor, murine monocytes resemble murine inflammatory peritoneal macrophages rather than resident tissue macrophages.     

Expression of a binding structure for sialic acid-containing glycoconjugates on rat bone marrow-derived macrophages and its modulation by IFN, TNF-alpha, and dexamethasone

Rat macrophages express a binding structure for sialic acid-containing glycoconjugates (sialic acid-binding receptor, SAR) which can be detected by a rosette assay utilizing SRBC coated with bovine brain gangliosides (E-G). Freshly isolated rat bone marrow cells (BMC) contain about 5% SAR-positive cells. Rat BMC cultured for 1 wk with tissue culture media containing CSF-1 differentiate into a virtually pure population of bone marrow-derived macrophages (BMDM phi). All BMDM phi bound E-G coated with an optimal concentration of gangliosides (100 micrograms/ml). When BMC were cultured for 1 wk with murine recombinant granulocyte-macrophage CSF, irrespective of the dose of GM-CSF, approximately 90% of the cells were identified as rat macrophages, and practically all expressed SAR. Only about 50% of BMDM phi bound SRBC coated with a suboptimal concentration of gangliosides (20 micrograms/ml). However, this percentage increased markedly after 8 to 72 h incubation with 1 to 10,000 U/ml purified murine IFN-alpha or IFN-beta, whereas murine or rat rIFN-gamma at doses above 10 U/ml led to a decrease of E-G binding. Human and murine rTNF-alpha enhanced rosette formation in a dose-dependent manner. These effects could be blocked by the respective anti-cytokine antibodies. Treatment of BMDM phi with dexamethasone also augmented E-G rosetting. The enhancement of E-G binding was abolished by pretreatment of BMDM phi with cycloheximide and actinomycin D but not with mitomycin C, suggesting that de novo synthesis of protein and RNA, but not DNA, is required. Our results demonstrate that all rat BMDM phi constitutively bear SAR, and that murine IFN-alpha, IFN-beta, and TNF-alpha, as well as dexamethasone, may augment SAR expression.     

High glucose induces alternative activation of macrophages via PI3K/Akt signaling pathway

Objective: It has been proved that lactate-4.25% dialysate could result in peritoneal fibrosis by inducing alternative activation of macrophages in our previous study, but the mechanism of high glucose-induced alternative activation has not been elucidated. This study was, therefore, to investigate the mechanism by high glucose stimuli.

Methods: In this study, Raw264.7 (murine macrophage cell line) cells were cultured and stimulated by 4.25% glucose medium, and mannitol medium was used as osmotic pressure control. Cells were harvested at 0?h, 4?h, 8?h, and 12?h to examine the expression of Arg-1, CD206, and p-Akt. After blocking PI3K by LY294002, the expression of Arg-1, CD206, and p-Akt was examined again.

Results: The expression of Arg-1 and CD206 was increased in a time-dependent manner induced by high glucose medium. On the contrary, there was mainly no Agr-1 or CD206 expressed in cells cultured in the mannitol medium with the same osmotic pressure. What’s more, Akt was phosphorylated at the eighth hour stimulated by high glucose medium, and LY294002 inhibited the expression of Arg-1 and CD206 by blocking the phosphorylation of Akt.

Conclusions: Our study indicated that high glucose rather than high osmotic pressure induced M2 phenotype via PI3K/Akt signaling pathway.     

Interaction of high density lipoprotein with its receptor on cultured fibroblasts and macrophages. Evidence for reversible binding at the cell surface without internalization

Cultured extrahepatic cells possess a specific high affinity receptor for high density lipoprotein (HDL) that is induced by cholesterol delivery to cells. Current results suggest that HDL receptors on cultured human fibroblasts and mouse peritoneal macrophages promote reversible binding of HDL to the cell surface without internalization of lipoprotein particles. When 125I-HDL3 was bound to cultured cells at 0 degrees C and then warmed to 37 degrees C after removal of unbound lipoprotein, most of the cell surface-bound HDL was released rapidly (t1/2 = 3 min) into the medium without entering a cellular pool that was inaccessible to digestion by trypsin at 0 degrees C. This lack of internalization of HDL was evident under conditions where internalization of 125I-low density lipoprotein and 125I-transferrin were readily detected. When cells were exposed to 125I-HDL3 at 37 degrees C, only a trace amount of iodinated apoprotein remained associated with cells after treatment of cells with trypsin. Fibroblasts treated with medium containing increasing concentrations of cholesterol exhibited a dose-dependent increase in reversible, trypsin-sensitive binding of 125I-HDL3 at 37 degrees C without an attendant increase in trypsin-resistant binding. These results suggest that reversible binding of HDL to its cell-surface receptor without subsequent endocytosis of receptor-HDL complexes is the mechanism by which HDL receptors facilitate cholesterol transport from cells.     

Preservation of the effects of pregnancy on rat islets of Langerhans in tissue culture.

Islets of Langerhans, isolated from normal or 19-day pregnant rats, were cultured for 20 h at 37 degrees C in tissue culture medium 199. When islets were cultured in medium containing low glucose (5.5 mM), the higher adenylate cyclase activity and insulin secretory responses characteristic of islets from pregnant rats were maintained during the test period of 29 h. Islets from normal and pregnant rats were also cultured for 20 h in medium containing a very high glucose concentration (83.3 mM) in order to load the B cells with glycogen. It was found, after glycogen loading, that, while adenylate cyclase activity increased to a greater extent in islets from pregnant rats than controls, this activity was not increased in proportion to the striking changes in insulin release rate observed in pregnant rat islets. The results show that the difference in insulin secretory response between islets from normal and pregnant rats may be preserved when the islets are cultured for 20 h, and that these differences are enhanced for a variety of reasons after culture of islets in 83.3 mM glucose.     

Secretion of the lysosomal acid triacylglycerol hydrolase precursor by J774 macrophages

J774, thioglycollate-elicited mouse peritoneal and BCG-induced rabbit alveolar macrophages all contain high levels of a triacylglycerol hydrolase (EC 3.1.1.3) (TGase) with optimal activity at pH 6.5. The J774 macrophages, a cell line deficient in the calcium-independent mannose 6-phosphate receptor, were found to secrete large quantities of the TGase into the culture medium. In contrast, mouse peritoneal and rabbit alveolar macrophages, which are both mannose 6-phosphate receptor-competent cell types, secreted much lower amounts of neutral TGase. The enzyme was localized in the lysosomes of rabbit alveolar macrophages. Addition of 25 mM NH4Cl induced a 6-fold increase in TGase secretion by alveolar macrophages, while 50 mM NH4Cl induced a 12-fold increase in TGase secretion. NH4Cl had no effect on TGase secretion by J774 macrophages. The TGase secreted by J774 macrophages was internalized by I-cell disease fibroblasts, increasing the cellular content of TGase 10-fold after 8 h. Internalization was inhibited 70% by the addition of 2 mM mannose 6-phosphate to the culture medium, but was not affected by 2 mM mannose or glucose 6-phosphate. After internalization, the neutral TGase was converted to a TGase with a pH optimum of 5.1. These data are consistent with the spontaneous release of a lysosomal enzyme precursor from a calcium-independent mannose 6-phosphate receptor-deficient cell line, indicating that the neutral TGase previously reported in several types of macrophages may be the precursor of the lysosomal acid TGase.     

Nicotinamide adenine dinucleotide splitting enzyme: a plasma membrane protein of murine macrophages.

The subcellular distribution of NADase in splenic and peritoneal macrophages of the mouse has been studied. Conventional procedures for fractionation and isolation of subcellular components demonstrated that the NADase of murine macrophages was localized in the microsomal fraction. By using the diazonium salt of sulfanilic acid, a nonpenetrating reagent known to inactivate ecto-enzymes in intact cells, purified plasma membrane preparations, and marker enzymes, 5′-nucleotidase for plasma membrane and glucose 6-phosphatase for the microsomal fraction, we have shown that: (i) NADase of murine macrophages is a plasma membrane ecto-enzyme and (ii) the microsomal fraction is a mixture of endoplasmic reticulum and plasma membrane elements. At 5 × 10^?4 M concentration, the diazonium salt of sulfanilic acid drastically decreased NADase in intact splenic and peritoneal macrophages of the mouse. 5′-Nucleotidase was similarly inhibited by this reagent, whereas the activity of glucose 6-phosphatase remained unaffected. There was a good recovery of NADase of high specific activity in plasma membrane preparations that were characterized by high 5′-nucleotidase and low glucose 6-phosphatase activity.