Staurosporine inhibits neutrophil phagocytosis but not iC3b binding mediated by CR3 (CD11b/CD18).

C receptor CR3 (iC3b-receptor, CD11b/CD18) plays an essential role in several phagocytic and adhesive neutrophil functions. Recent evidence suggests that stimulus-induced phosphorylation of the CR3 beta-chain, CD18, may mediate certain neutrophil functions by transiently converting the molecule to an activated state. Staurosporine, a protein kinase C inhibitor that blocks PMA-induced CD18 phosphorylation, was used to study the functional relevance of this event. Neutrophils adhered to glass were assayed for binding and phagocytosis of iC3b-opsonized sheep E (EC3bi) in the presence or absence of PMA and/or staurosporine. Binding of EC3bi was markedly increased, not only by PMA, but also by staurosporine and by a combination of both agents (three- to sevenfold). The enhancement of rosetting by staurosporine was likely caused by increased surface expression of CR3 via exocytosis of specific granular contents. In contrast, staurosporine alone did not stimulate phagocytosis of EC3bi and markedly inhibited PMA-induced phagocytosis. Staurosporine also inhibited phagocytosis of yeast beta glucan particles, a CR3 ligand that, in contrast to EC3bi, is bound and ingested without additional prior treatment with PMA. beta glucan phagocytosis was associated with a low level of CD18 phosphorylation. Staurosporine did not block phagocytosis in general, because this agent had relatively little effect on FcR-mediated phagocytosis. These data demonstrate that phagocytosis mediated by CR3 requires activation of CR3 via a staurosporine-sensitive pathway. Increased binding of EC3bi, a function of increased surface expression of CR3, does not require activation of CR3 by such a pathway, confirming previous evidence for the independence of these two phenomena. A direct role for CD18 phosphorylation in the activation of CR3 for phagocytosis is consistent with these data.     

Selective down-regulation of alveolar macrophage oxidative response to opsonin-independent phagocytosis

We have compared the oxidative response of alveolar macrophages (AM) during opsonin-dependent and independent phagocytosis by using multiparameter flow cytometry. The respiratory burst of AM during phagocytosis was quantitated by the intracellular oxidation of the nonfluorescent precursors dichlorofluorescin diacetate (DCFH) or hydroethidine (HE, a reduced precursor of ethidium) to their fluorescent (oxidized) counterparts. After loading freshly isolated normal hamster AM with DCFH or HE, red or green fluorescent beads, respectively, were added to the shaking cell suspensions. Ingestion of opsonized particles by AM caused a marked increase in oxidation of both DCFH and HE proportional to the number of beads ingested. In contrast, uptake of one to three unopsonized particles per cell led to inhibition of oxidative activity compared to control cells incubated without particles. AM ingesting four or more unopsonized particles showed some increase in oxidative metabolism, but far less than that with identical numbers of particles in opsonin-dependent ingestion. Similar results were obtained using fluorescent labeled staphylococcal bacteria. Using three-color flow cytometry to study cells ingesting both types of particles, cells first ingesting unopsonized beads were also found to have an inhibited oxidative response to subsequently ingested opsonized particles. The mitochondrial poison antimycin inhibited most of the intracellular oxidative response to either type of phagocytosis. The remaining antimycin-insensitive, membrane derived respiratory burst of AM was also substantially diminished after phagocytosis of unopsonized particles vs similar numbers of opsonized particles. The greatly increased mitochondrial respiration in AM during phagocytosis of opsonized particles may be related to bactericidal mechanisms. Killing of ingested Staphylococcus by AM was markedly impaired in the presence of antimycin. The results suggest that AM may ingest the numerous, unopsonized inert particles that are inhaled without generation of potentially toxic oxygen metabolites, while retaining the capacity to undergo a respiratory burst after ingesting opsonized particles and bacteria. The mechanism(s) for this distinct response may include generation of an inhibitor of intracellular oxidative metabolism.     

Integrin engagement mediates the human polymorphonuclear leukocyte response to a fungal pathogen-associated molecular pattern

Extravasation of leukocytes from peripheral blood is required for an effective inflammatory response at sites of tissue infection. Integrins help mediate extravasation and navigate the leukocyte to the infectious source. A novel role for integrins in regulating the effector response to a cell wall component of fungal pathogens is the subject of the current study. Although phagocytosis is useful for clearance of unicellular fungi, the immune response against large, noningestible hyphae is not well-understood. Fungal beta-glucan, a pathogen-associated molecular pattern, activates production of superoxide anion in leukocytes without the need for phagocytosis. To model polymorphonuclear leukocyte (PMN) recognition of fungi under conditions in which phagocytosis cannot occur, beta-glucan was covalently immobilized onto tissue culture plastic. Plasma membrane-associated respiratory burst was measured by reduction of ferricytochrome C. Results show that the human PMN oxidative burst response to immobilized beta-glucan is suppressed by addition of beta(1) integrin ligands to the beta-glucan matrix. Suppression was dose dependent and steric hindrance was ruled out. beta(1) integrin ligands did not affect respiratory burst to ingestible beta-glucan-containing particles, phorbol esters or live yeast hyphae. Furthermore, in the absence of matrix, Ab activation of VLA3 or VLA5, but not other beta(1) integrins, also prevented beta-glucan-induced respiratory burst. beta(1)-induced suppression was blocked and burst response restored by treating neutrophils with either the cell-binding fragment of soluble human Fn, cyclic RGD peptide, or Ab specific to VLA3 or VLA5. Together these findings extend the functional role of beta(1) integrins to include modulating PMN respiratory burst to a pathogen-associated molecular pattern.     

In vivo interaction between alveolar macrophages and Cryptococcus neoformans

In vivo interactions of rabbit alveolar macrophages (AM) and Cryptococcus neoformans, a yeast pathogenic for humans, were studied. As a control, inert silica particles of a similar diameter (5–6 μm) were used. Of 16 rabbits, 6 were instilled intratracheally with fluorescein-labelled heat-killed C. neoformans, 6 with fluorescein-labelled silica particles and 4 with saline only. After 24 h, the AM were collected by lung lavage, and phagocytosis, oxidative metabolism, phagolysosomal pH and morphology were studied. The accumulated number of yeasts attached to the AM was almost the same for C. neoformans as for the silica particles. The ingested fraction of C. neoformans was even higher than that of the silica particles. Quantitative NBT reduction by the AM, reflecting their oxidative metabolism, was markedly increased by exposure to C. neoformans for 24 h. The phagolysosomal pH was on the average lower in phagolysosomes with C. neoformans than with the silica particles, although approximately 2% of the phagolysosomes with C. neoformans had neutral pH. Phagolysosomes with neutral pH was not observed for silica particles. Electron microscopy showed presence of C. neoformans in phagolysosomes of AM. The conclusion of this study is that the phagocytic activity, oxidative metabolism and phagolysosomal pH AM against C. neoformans are significant 24 h after the exposure. This revised version was published online in June 2006 with corrections to the Cover Date.     

The neutrophil response to polystyrene microspheres bearing defined surface functional groups

Luminol-induced chemiluminescence (CL) and phagocytosis by human neutrophils was studied using polystyrene microsphere latices as particulate stimuli. Chemiluminescence and phagocytosis parameters were measured for particles bearing carboxyl, hydroxyl, and amino groups, as well as for the underivatized microspheres. The kinetic curves of CL were bimodal, and curve parameters were evaluated for both the early- and late-phase responses. Significant differences were found among the particle surfaces studied. Underivatized particles elicited the greatest response, particles with the amino group stimulated PMN the least, carboxyl- and hydroxyl-group-bearing particles elicited intermediate magnitudes of response. Phagocytosis data were in good agreement with that obtained from CL measurements. These data provide further evidence in favor of the hypothesis that, in protein-free systems, hydrophobic particles are more readily phagocytosed. Additionally they demonstrate that electrostatic interactions are not a significant factor for neutrophil-particle contact.     

Luminol‐, isoluminol‐ and lucigenin‐enhanced chemiluminescence of rat blood phagocytes stimulated with different activators

Luminol‐, isoluminol‐ or lucigenin‐enhanced chemiluminescence (CL) was used to measure the production of reactive oxygen species by rat blood leukocytes. Opsonized zymosan (OZ), phorbol‐12‐myristate‐13‐acetate (PMA), calcium ionophore A23187 (Ca‐I) or N‐formyl‐Met‐Leu‐Phe (fMLP) were used as activators. The CL signal of isolated blood leukocytes decreased in rank order of luminol > isoluminol > lucigenin. The kinetic pro?les of luminol‐ and isoluminol‐enhanced CL were similar upon stimulation by each activator tested. The remarkably higher luminol and isoluminol CL responses were obtained after OZ stimulation when compared with other activators. However, when lucigenin was used, the PMA‐ and OZ‐stimulated CL were comparable. The presence of plasma increased OZ‐activated CL because of the enhanced phagocytosis of OZ. This was demonstrated by determining the phagocytosis of the ?uorescent OZ using a ?ow cytometer. In contrast, the presence of plasma decreased PMA‐activated CL, due to the antioxidant properties of plasma as determined by the CL method. As far as whole blood is concerned, only OZ activated luminol‐enhanced CL was reliable. Blood volumes over 5 µL decreased CL activity due to the scavenging ability of erythrocytes. The results suggest that 0.5 µL whole blood is suf?cient for routine luminol‐enhanced CL analysis of whole blood oxidative burst in rats. Copyright © 2004 John Wiley & Sons, Ltd.     

Validation of different chemilumigenic substrates for detecting extracellular generation of reactive oxygen species by phagocytes and endothelial cells

Chemiluminescence is a widely used tool to detect extracellular generation of reactive oxygen species (ROS). In the present study we tested four different chemilumigenic substrates (CLS)—luminol, isoluminol, lucigenin and pholasin—to detect extracellular CL in different cell types: polymorphonuclear leukocytes (PMN); DMSO‐differentiated HL‐60 cells; murine macrophages (RAW 264.7); and TNFα‐stimulated human endothelial cells (HUVEC). Extracellular ROS production was calculated by subtracting intracellular CL response in the presence of superoxide dismutase and catalase from the overall CL response in the absence of enzymes. CL varied considerably in dependence on the CLS and the stimulus used to evoke ROS generation. Luminol (oxidized LDL and zymosan stimulation) and isoluminol (FMLP and PMA stimulation) were the most effective CLS for PMN. Using 5 µmol/L lucigenin as CLS, small but consistent CL responses could be obtained in macrophages stimulated with PMA, zymosan or oxidized LDL. FMLP‐stimulated extracellular CL in H‐60 cells, HUVEC and macrophages was detected with the greatest sensitivity by pholasin. Our results demonstrate that none of the investigated CLS consistently yielded the highest CL quantum, either in different cell types with one stimulating agent or by different stimulating agents in one cell type. To get the highest CL quantum in experimental studies, we recommend optimizing the CLS depending on the cell type and the ROS‐generating stimulus used. Copyright © 2003 John Wiley & Sons, Ltd.     

The influence of age and sex on phagocyte chemiluminescence

The process of ageing is associated with increased susceptibility to infection. Phagocytes form the primary defence mechanism against infecting microorganisms, but the influence of ageing on phagocyte function remains controversial. In this study we have applied a microtitre plate phagocyte chemiluminescence (CL) assay suitable for clinical use to compare phagocyte oxidative metabolism in younger healthy subjects (age 20–60 years) and healthy older (60–70 years) subjects. Polymorphonuclear leukocytes (PMNL) and monocytes were stimulated using phorbol myristate acetate (PMA), serum opsonized zymosan (SOZ), and non-opsonized zymosan (ZYM) in the presence of both lucigenin and luminol. Monocytes showed a higher luminolenhanced CL response to PMA in males compared with females in the younger age group. No PMNL differences were observed between the sexes. Although no difference were found in relation to age when cells were stimulated with PMA and SOZ, significantly lower background (unstimulated) CL was obtained from PMNL with luminol. PMNL luminol-enhanced CL responses were also lower in response to ZYM. The findings suggest a reduced response of PMNL from older subjects to minimal stimulation. This could be related to abnormalities in the triggering of the respiratory burst or myeloperoxidase release due to ageing. The influence of age and sex should be taken into account in clinical studies of phagocyte CL.     

Xylanase production by Aspergillus nidulans

Abstract The effect of phagocyte activation by TNF-α on the ability to trigger a chemiluminescence (CL) response, associated with the release of oxidizing species was evaluated in healthy human mononuclear cells in the presence of Mycobacterium leprae . Recombinant TNF-α (r-TNF-α) increased the CL response of unstimulated M. bovis BCG- and PMA-stimulated cells but did not reverse the M. leprae defective activation of the human phagocyte oxidative burst. M. leprae was less well phagocytosed than M. bovis BCG but phagocytosis of mycobacteria was not altered by addition of r-TNF-α. The failure of activation of oxygen-free radical production might have some relevance to the pathogenesis of leprosy.     

Inhibition of the oxidative burst in human neutrophils by sphingoid long-chain bases. Role of protein kinase C in activation of the burst

The neutrophil oxidative burst is characterized by increased cellular O2 consumption due to the activation of a membrane-associated superoxide-generating NADPH-oxidase. The response is triggered by a variety of stimuli, including opsonized zymosan, formylmethionylleucinephenylalanine (FMLP), arachidonate, short-chain diacylglycerols, and phorbol myristate acetate (PMA). We herein demonstrate that incubation of cells with sphinganine or sphingosine blocks or reverses activation by these agonists. The inhibition is reversible, does not affect cell viability, and does not affect another complex cell function, phagocytosis. Inhibitory concentrations of sphinganine did not significantly affect cytoplasmic calcium levels or FMLP-generated calcium transients. Structural requirements for inhibition of the oxidative burst include a long aliphatic chain and an amino-containing head-group, and there is modest specificity for the native (erythro) isomer of sphinganine. Inhibition involves stimulus-induced activation mechanisms rather than a direct effect on the NADPH oxidase, since sphinganine did not inhibit NADPH-dependent superoxide generation in isolated membranes containing the active enzyme. Activation by FMLP, diacylglycerol, PMA, opsonized zymosan, and arachidonate was blocked by the same concentrations of sphinganine, indicating that these agonists share a common inhibited step. Three lines of evidence indicate that this step involves protein kinase C. First, in a micelle system and in platelets, long-chain bases are inhibitors of this enzyme (Hannun, Y., Loomis, C., Merrill, A., and Bell, R. M. (1986) J. Biol. Chem. 261, 12604-12609). Second, sphinganine blocks PMA-stimulated incorporation of 32PO4 into neutrophil proteins. Third, sphinganine inhibits the binding of [3H]phorbol dibutyrate to its cellular receptor, known to be protein kinase C. We suggest that long-chain bases function as physiologic modulators of cellular regulatory pathways involving protein kinase C.     

Development of distinct clonal patterns of carbohydrate-binding activity in human promyelocytic HL 60 cells and histiocytic U 937 cells during DMSO-or PMA-induced differentiation

Increased ability to recognize carbohydrate structures on particles was observed in promyelocytic HL 60 cells and histiocytic U 937 cells during differentiation inducedin vitro with dimethylsulfoxide (DMSO) or phorbol myristate acetate (PMA). The size of the cells and increased capacity to bind and ingest IgG-or complement-coated yeast particles were used as indicators of phagocytic maturation. Carbohydrate affinities were assessed by the binding of glycolipid-containing liposomes displaying mannose, galactose, lactose,N-acetylgalactosamine, fucose, inositol, or ganglioside residues. With DMSO, HL 60 cells showed greater affinity for mannose and ganglioside residues, and with PMA also for fucosyl ligands. U 937 cells displayed a slightly different pattern; mannose binding was present before induction and by DMSO affinity was clearly augmented for galactose, fucose, ganglioside and inositol residues. With PMA these effects were smaller except for increased binding of lactosyl liposomes.Subclones of cells derived from U 937 (Cl 1, Cl 2 and Cl 3) appeared more mature already in the absence of inducing agent, and the lectin activity was barely affected by DMSO or PMA. Incidentally, Cl 1 lacked mannose affinity, which was fully expressed in Cl 2. With respect to inositol and ganglioside residues the reverse pattern was observed.In conclusion, DMSO- or PMA-mediated maturation in HL 60 and U 937 cells is accompanied by increased carbohydrate binding similar to what has been found in mature macrophages and granulocytes, indicating that these cellular systems can be used for further assessment of the molecular origin of lectin-like membrane components in phagocytic cells.     

Artificial reversion of acute myeloid leukemia cells into normal phenotype

1. Induction of tumor cell differentiation could reverse transformed cells into normal, mature cells. Important question is whether these malignant-to-normal reversed cells are really normal ones. 2. We have developed an experimental model based on the examination of three different levels of human acute myeloid leukemia cell properties before and after induction of differentiation: morphological (percentage of undifferentiated blast cells), functional (DNA ploidy, Fc receptors, phagocytic activity, clonogenic assay in soft agar, oxidative metabolism which accompanies phagocytosis in mature granulocytes) and genetical (expression of oncogene p53). 3. Several inducers have been employed: dimethylsulfoxide (DMSO) granulocyte-macrophage colony stimulating factor (GM-CSF); tunicamycin, interferon gamma, tumor necrosis factor and lipopolysaccharide. 4. Our results indicate that the reversion of leukemic cells into mature normal ones with some inducers (DMSO, GM-CSF) could be a complete process.     

Negative regulation of myeloid cell proliferation and function by the SH2 domain-containing tyrosine phosphatase-1

The SH2 domain containing tyrosine phosphatase SHP-1 has been implicated in the regulation of a multiplicity of signaling pathways involved in hemopoietic cell growth, differentiation, and activation. A pivotal contribution of SHP-1 in the modulation of myeloid cell signaling cascades has been revealed by the demonstration that SHP-1 gene mutation is responsible for the overexpansion and inappropriate activation of myelomonocytic populations in motheaten mice. To investigate the role of SHP-1 in regulation of myeloid leukocytes, an HA epitope-tagged dominant negative (interfering) SHP-1 (SHP-1C453S) was expressed in the myelo-monocytic cell line U937 using the pcDNA3 vector. Overexpression of this protein in SHP-1C453S transfectants was demonstrated by Western blot analysis and by detection of decreased specific activity. Growth, proliferation, and IL-3-induced proliferative responses were substantially increased in the SHP-1C453S-overexpressing cells relative to those in control cells. The results of cell cycle analysis also revealed that the proportion of cells overexpressing SHP-1C453S in S phase was greater than that of control cells. The SHP-1C453S-expressing cells also displayed diminished rates of apoptosis as detected by flow cytometric analysis of propidium iodide-stained cells and terminal deoxynucleotidyltransferase-mediated fluorescein-dUTP nick end-labeling assay. While motility and phagocytosis were not affected by SHP-1C453S overexpression, adhesion and the oxidative burst in response to PMA were enhanced in the SHP-1C453S compared with those in the vector alone transfectants. Taken together, these results suggest that SHP-1 exerts an important negative regulatory influence on cell proliferation and activation while promoting spontaneous cell death in myeloid cells.     

Loss of tafazzin in yeast leads to increased oxidative stress during respiratory growth

The tafazzin (TAZ) gene is highly conserved from yeast to humans, and the yeast taz1 null mutant shows alterations in cardiolipin (CL) metabolism, mitochondrial dysfunction and stabilization of supercomplexes similar to those found in Barth syndrome, a human disorder resulting from loss of tafazzin. We have previously shown that the yeast tafazzin mutant taz1Delta, which cannot remodel CL, is ethanol-sensitive at elevated temperature. In the current report, we show that in response to ethanol, CL mutants taz1Delta as well as crd1Delta, which cannot synthesize CL, exhibited increased protein carbonylation, an indicator of reactive oxygen species (ROS). The increase in ROS is most likely not due to defective oxidant defence systems, as the CL mutants do not display sensitivity to paraquat, menadione or hydrogen peroxide (H2O2). Ethanol sensitivity and increased protein carbonylation in the taz1Delta mutant but not in crd1Delta can be rescued by supplementation with oleic acid, suggesting that oleoyl-CL and/or oleoyl-monolyso-CL enables growth of taz1Delta in ethanol by decreasing oxidative stress. Our findings of increased oxidative stress in the taz1Delta mutant during respiratory growth may have important implications for understanding the pathogenesis of Barth syndrome.     

The effect of tobacco smoke on the metabolism and function of rat alveolar macrophages.

Alveolar macrophages harvested by bronchopulmonary lavage from rats exposed to tobacco smoke for 30 days ("smokers") showed alterations in oxidative metabolism, lactate production and phagocytosis of inert starch particles when compared with control macrophages. Phagocytosis of viable Staphylococcus aureus was unaffected by tobacco smoke. Glucose oxidation measured by conversion of glucose-1-14C to 14CO2 moderately affected while oxidation of glucose-6-14C to 14CO2 was not. Smokers routinely yielded fewer cells than controls, though these cells contained approximately 17% more protein than did controls. Opsonization of particles was not necessary for macrophages from either smoker or control animals to manifest a respiratory burst and increased superoxide and hydrogen peroxide release during phagocytosis. The glycolytic inhibitors, sodium fluoride and iodoacetamide, while effectively blocking glycolysis, did not inhibit phagocytosis by macrophages from either group. The results reported clearly distinguish alveolar macrophages from other phagocytic cells (peritoneal macrophages and polymorphonuclear leukocytes) and suggest a state of non-specific activation caused by exposure to tobacco smoke.     

Anti-My-26: a monoclonal antibody inhibiting human phagocyte chemiluminescence

Anti-My-26, a mouse monoclonal IgG1 antibody, was raised against human granulocytes and has been shown to inhibit luminol-enhanced, glucose-independent chemiluminescence (CL) of human granulocytes (or monocytes) responding to the soluble secretagogues A23187 or ionomycin (calcium ionophores) and phorbol myristate acetate (PMA). Anti-My-26 inhibition of CL was reversible and was dependent on both secretatogue and monoclonal antibody concentration. This inhibition appeared to be directed at the component of granulocyte CL that is independent of NAD(P)H-oxidase-catalyzed formation of superoxide anion, because neither opsonized zymosan-stimulated CL nor the PMA-induced decrease in NAD (P)H-associated autofluorescence was affected by anti-My-26. In addition, ionomycin, over a wide concentration range, failed to generate any decrease in granulocyte autofluorescence. The A23187-induced CL inhibited by anti-My-26 was correlated with its depression of oxygen consumption. Furthermore, anti-My-26 was not cytotoxic and did not itself induce oxidative metabolism when used as a stimulant. Binding of anti-My-26 to phagocytic cells was not decreased by pre-exposure of cells to either A23187 or PMA. Evidence is presented to suggest that the binding of anti-My-26 to the granulocyte surface inhibits the oxidative response to calcium ionophore and PMA by blocking a common pathway(s) stimulated by these different secretagogues.     

Expression of cytolytic functions in HL-60 leukaemic cells after induction of polymorphonuclear leukocyte differentiation

Mature polymorphonuclear leukocytes (PMN) are capable of mediating phorbol myristate acetate (PMA)- and antibody (A)-dependent cellular cytotoxicity (DCC) against ox red blood cells (ORBC) by using oxidative means. The purpose of the present study was to investigate the acquirement of these cytotoxic functions during PMN ontogeny, using the promyelocytic HL-60 cell line as a model for PMN differentiation. HL-60 cells were induced to differentiate along the PMN pathway by exposure to dimethyl sulfoxide (DMSO). Uninduced HL-60 cells were found to be completely devoid of PMA-DCC and ADCC activity. DMSO-induced cells progressively acquired the capacity to kill ORBC and to undergo the activation of oxidative metabolic burst when triggered by PMA. Despite approximately 40% of them also were capable of binding IgG-sensitized ORBC, no ADCC activity and respiratory burst activation was observed: this finding indicates that maturing HL-60 cells require a more complete maturation than that induced by DMSO to actually exert ADCC. Together the results suggest that: a. the acquirement of both PMA-DCC and ADCC potential is a post-promyelocytic event; b. the cytotoxicity activating stimuli, PMA and IgG-coated targets, follow different post-receptor transductional pathways to trigger the effector cell lytic systems: only the PMA receptor-linked pathway develops during DMSO-driven differentiation of HL-60 cells.     

beta 2-glycoprotein I (apolipoprotein H) modulates uptake and endocytosis associated chemiluminescence in rat Kupffer cells

beta 2-Glycoprotein I (beta 2 GPI) is known to influence macrophage uptake of particles with phosphatidylserine containing surfaces, as apoptotic thymocytes and unilamellar vesicles in vitro. Nevertheless, effects upon macrophage activation induced by this interaction are still unknown. beta 2 GPI influence upon the reactive species production by Kupffer cells was evaluated in order to investigate whether beta 2 GPI modulates the macrophage response to negatively charged surfaces. Chemiluminescence of isolated non-parenchymal rat liver cells was measured after phagocytosis of opsonized zymosan or phorbolymristate acetate (PMA) stimulation, in the presence and absence of large unilamellar vesicles (LUVs) containing 25 mol% phosphatidylserine (PS) or 50 mol% cardiolipin (CL) and complementary molar ratio of phosphatidylcholine (PC). beta 2 GPI decreased by 50% the chemiluminescence response induced by opsonized zymosan, with a 66% reduction of the initial light emission rate. PMA stimulated Kupffer cell chemiluminescence was insensitive to human or rat beta 2 GPI. Albumin (500 micrograms/ml) showed no effect upon chemiluminescence. beta 2 GPI increased PS/PC LUV uptake and degradation by Kupffer cells in a concentration-dependent manner, without leakage of the internal contents of the LUVs, as shown by fluorescence intensity enhancement. LUVs opsonized with antiphospholipid antibodies (aPL) from syphilitic patients increased light emission by Kupffer cells. Addition of beta 2 GPI to the assay reduced chemiluminescence due to opsonization with purified IgG antibodies from systemic lupus erythematosus (SLE or syphilis (Sy) patient sera. A marked net increase in chemiluminescence is observed in the presence of Sy aPL antibodies, whereas a decrease was found when SLE aPL were added to the assay, in the presence or absence of beta 2 GPI. At a concentration of 125 micrograms/ml, beta 2 GPI significantly reduced Kupffer cell Candida albicans phagocytosis index and killing score by 50 and 10%, respectively. The present data strongly suggest that particle uptake in the presence of beta 2 GPI is coupled to an inhibition of reactive species production by liver macrophages during the respiratory burst, supporting the role of beta 2 GPI as a mediator of senescent cell removal.     

Negative regulation of class IA phosphoinositide 3-kinase by protein kinase Cdelta Limits Fcgamma receptor-mediated phagocytosis in macrophages

Stimulation of macrophages by various ligands results in the activation of both phosphoinositide 3-kinase (PI3K) and protein kinase C (PKC). Here, we showed that PKCdelta selectively inhibits class IA PI3K. Prior exposure of macrophages to a PKC activator, phorbol 12-myristate 13-acetate (PMA) inhibited the PI3K activation induced by the Fcgamma receptor (FcgammaR) ligation but not that induced by C5a. Prolonged PKC inhibition by GF109203X increased the basal PI3K activity of quiescent macrophages. The effect of the PKC inhibitor can be observed in macrophages from mice lacking class IB PI3K (p110gamma). Thus PKC was suggested to selectively attenuate the class IA activity. Chronic PKC activation by PMA induced PKCdelta degradation and Akt activation. Enhancement of the basal Akt actvity was also observed in cells stably deficient in PKCdelta prepared by shRNA technique. FcgammaR-mediated phagocytosis was dramatically increased in these cells. Thus it is suggested that inactivation of class IA PI3K by PKCdelta is functioning in regulation of FcgammaR-mediated phagocytosis.     

Acute regulation of Na/H exchanger NHE3 activity by protein kinase C: role of NHE3 phosphorylation

Acute hormonalmodulation of NHE3 activity is partly mediated by kinases, includingprotein kinase C (PKC). We examined the role of NHE3 phosphorylation inregulating its activity in response to PKC activation by phorbol12-myristate 13-acetate (PMA). In pooled NHE-deficient fibroblaststransfected with NHE3, PMA increased NHE3 activity and phosphorylation.When six potential PKC target serines were mutated, NHE3phosphorylation was drastically reduced and PMA failed to regulate NHE3phosphorylation or function. To examine whether NHE3 phosphorylation issufficient for functional regulation by PKC, we exploited theheterogeneous response of NHE3 activity to PMA in individual clones oftransfectants. Clones with stimulatory, inhibitory, or null responsesto PMA were observed. Despite the diverse functional response, changesin NHE3 phosphorylation as revealed by tryptic phosphopeptide maps weresimilar in all clones. We conclude that although phosphorylationappears to be necessary, it is insufficient to mediate PKC regulationof NHE3 function and factors extrinsic to the NHE3 protein must be involved.