Delayed post-injury administration of C5a improves regeneration and functional recovery after spinal cord injury in mice.

The activation of a complement system can aggravate the secondary injury after spinal cord injury (SCI). However, it was reported recently that the activation of a complement could have both a secondary injury and a neuroprotective effect, in which C5a is the most important factor, but there is no direct evidence for this dual effect of C5a after SCI. In order to investigate the potential neuroprotective effect of C5a after SCI, in this study ectogenic C5a was injected intraperitoneally before/after SCI in vivo, or administrated to mechanically injured neurones in vitro; following this, neurone apoptosis, neurite outgrowth, axonal regeneration and functional recovery were investigated. The in-vivo experiments indicated that, following treatment with C5a 24 h before or immediately after injury, locomotor function was impaired significantly. However, when treatment with C5a took place 24 h after injury, locomotor function improved significantly. In-vitro experiments indicated that a certain concentration of C5a (50-100 nM) could inhibit caspase-3-mediated neurone apoptosis by binding to its receptor CD88, and that it could even promote the neurite outgrowth of uninjured neurones. In conclusion, delayed post-injury administration of C5a within a certain concentration could exert its neuroprotective effect through inhibiting caspase-3-mediated neurone apoptosis and promoting neurite outgrowth of uninjured neurones as well. These data suggest that C5a may have opposite functions in a time- and concentration-dependent manner after SCI. The dual roles of C5a have to be taken into account when measures are taken to inhibit complement activation in order to promote regeneration after SCI.

A local coupling model and compass parameter for eukaryotic chemotaxis.

Chemotaxis is a cellular sensing mechanism that guides immune cells to sites of infection and leads fibroblasts to sites of injury. Here, we show in migrating primary dendritic cells and fibroblasts that the leading edge is not a uniform signaling entity, but instead consists of independent coupling units in which transient activation of PI3-kinase links to local lamellipod extension and small discrete turns in the direction of migration. These findings led to a model in which global cell polarization is independent from the chemotaxis mechanism. In this model, chemotaxis does not require spatial integration but is instead a stochastic process in which each receptor binding event within the leading edge triggers a local lamellipod extension and a small turn in the direction of migration. We show that this model and a derived "compass parameter" are sufficient to simulate the observed random migration, biased random walk, and persistent chemotactic behaviors of eukaryotic cells.

Resveratrol attenuates C5a-induced inflammatory responses in vitro and in vivo by inhibiting phospholipase D and sphingosine kinase activities.

The anti-inflammatory activity of the phytoalexin resveratrol (RSV) was evaluated in C5 anaphylatoxin (C5a)-stimulated primary neutrophils and in a mouse model of acute peritonitis. Pretreatment of human and mouse neutrophils with RSV significantly blocked oxidative burst, leukocyte migration, degranulation, and inflammatory cytokine production. The anti-inflammatory activity of RSV was a function of inhibition of sphingosine kinase (SphK) activity (IC(50) approximately 20 microM) within 5 min of exposure, its membrane localization, and SphK1-mediated Ca(2+) release. As an experimental control, the SphK1 pharmacological inhibitor N,N-dimethyl sphingosine (DMS) was used to compare the inhibitory effect of RSV. We also provide evidence that the SphK inhibitory effect of RSV was mediated via its ability to block phospholipase D (PLD) activity and membrane recruitment. Furthermore, RSV blocked ERK1/2 phosphorylation, which functioned independently of SphK1 in this study. To provide in vivo relevance to these data, C5a-induced model of acute peritonitis was established, and the effects of prior injection of RSV were investigated. Indeed, prior injection of RSV virtually completely attenuated the effects of C5a on vascular permeability, neutrophil migration, release of interleukin 1beta, tumor necrosis factor alpha, interleukin 6, and the chemokine MIP-1alpha. Taken together, these data demonstrate strong anti-inflammatory activity of RSV in vitro and in vivo and highlight SphK1 as a potential target of this remarkable phytoalexin. These data could have tremendous implications for the clinical use of RSV in inflammatory pathologies.

FcgammaRIII is protective against Pseudomonas aeruginosa pneumonia.

Defenses against bacterial infections involve activation of multiple systems of innate immunity, including complement, Toll-like receptors, and defensins. Reactions to chronic infections bring adaptive immune mechanisms into play as well, with the introduction of modulatory interactions between the two. In humans with chronic lung infections, the severity of inflammation and disease correlate with elevated levels of pathogen-specific immune complexes and complement activation. In mice with genetic deficiency in C5, or targeted deletion of the C5a receptor, Pseudomonas lung infections reveal a role for the C5a anaphylatoxin in disease severity. Deficient animals exhibit significantly reduced survival and clearance of infecting bacteria, simultaneous with greatly increased pulmonary influx of inflammatory cells. Among the actions of C5a on inflammatory cells mediated through the C5a receptor is a shift in the relative expression of Fcgamma receptors to increase FcgammaRIII relative to FcgammaRII. This shift may significantly impact defenses against chronic infection, reflecting the cellular activation profiles of these IgG receptors. We addressed the role of FcgammaRIII in defense against Pseudomonas lung infection, and found that, like C5aR-deficient mice, animals with targeted deletion of FcgammaRIII are more susceptible to mortality upon infection and exhibit reduced clearance of the pathogen. Pseudomonas infection was associated with an increase in the FcgammaRIII/FcgammaRII ratio in wild-type mice, and the data support its role as an additional mechanism of host defense against bacterial infection.

Activation of immune cells in bovine mammary gland secretions by zymosan-treated bovine serum.

Mastitis, caused by bacterial infection of the mammary gland, is a major disease of dairy cattle. The greatest risks of intramammary infection occur at the end of lactation and at the initiation of the next lactation when the cow calves. Treating serum with zymosan (yeast cell wall preparation) causes the complement to cleave, allowing this serum to serve as a source of complement fragment 5a (C5a), a potent chemoattractant and activator of the immune system. Our hypothesis was that intramammary infusion of zymosan-treated serum (ZTS) would recruit polymorphonuclear neutrophils (PMN) and generate prolonged activity in lymphocytes within the mammary gland. Ultimately this could help prevent bacterial infections in cows at dry-off and at the initiation of lactation. Two ipsilateral quarters of the mammary gland of each cow were infused with ZTS (12.5 mL/quarter), and 2 contralateral quarters were infused with saline in 8 cows shortly after lactation ended. Mammary secretions were collected periodically throughout the dry period and the first 2 wk of the next lactation. Activation status of lymphocytes and PMN in those secretions was assessed based on the intracellular presence or absence of IFN-gamma and IL-8 as determined by flow cytometry. The ZTS infusion greatly increased PMN numbers in mammary secretions for the first week only. The percentage of IFN-gamma positive lymphocytes and PMN, and the percentage of IL-8 positive PMN, exhibited a sustained increase in secretions from ZTS-treated quarters through the first 2 wk of lactation. The ZTS can stimulate PMN and lymphocyte-mediated immune defense mechanisms in the mammary gland, which may provide a useful means of preventing new intramammary infections during the dry period as well as at the initiation of lactation.

Picogram concentrations of endotoxin stimulate synthesis of IL-1 beta and TNF alpha by human peripheral blood mononuclear cells exposed to recombinant human C5a.

Endotoxemia, complement activation, and the generation of C5a occur in the course of sepsis, trauma, and the adult respiratory distress syndrome, clinical situations in which TNF and IL-1 are thought to play an important role. In the present studies, we examined the effect of picogram concentrations of endotoxin (LPS) on the synthesis of IL-1 beta and TNF alpha by human PBMC exposed to recombinant human C5a (rhuC5a). rhuC5a induced the synthesis of IL-1 beta by PBMC made in response to otherwise substimulatory levels of LPS. In the presence of rhuC5a, LPS concentrations from 10 pg to 1000 pg/ml substantially amplified IL-1 beta synthesis by PBMC compared to LPS alone. Since rhuC5a can induce transcription of IL-1 beta with minimal translation to cytokine protein, these studies support the concept that fM concentrations of LPS can combine with rhuC5a to provide the "second signal" for optimal translation of IL-1 beta mRNA.

Anti-inflammatory activity of IgG1 mediated by Fc galactosylation and association of FcγRIIB and dectin-1.

Complement is an ancient danger-sensing system that contributes to host defense, immune surveillance and homeostasis. C5a and its G protein­coupled receptor mediate many of the proinflammatory properties of complement. Despite the key role of C5a in allergic asthma, autoimmune arthritis, sepsis and cancer, knowledge about its regulation is limited. Here we demonstrate that IgG1 immune complexes (ICs), the inhibitory IgG receptor FcγRIIB and the C-type lectin­like receptor dectin-1 suppress C5a receptor (C5aR) functions. IgG1 ICs promote the association of FcγRIIB with dectin-1, resulting in phosphorylation of Src homology 2 domain­containing inositol phosphatase (SHIP) downstream of FcγRIIB and spleen tyrosine kinase downstream of dectin-1. This pathway blocks C5aR-mediated ERK1/2 phosphorylation, C5a effector functions in vitro and C5a-dependent inflammatory responses in vivo, including peritonitis and skin blisters in experimental epidermolysis bullosa acquisita. Notably, high galactosylation of IgG N-glycans is crucial for this inhibitory property of IgG1 ICs, as it promotes the association between FcγRIIB and dectin-1. Thus, galactosylated IgG1 and FcγRIIB exert anti-inflammatory properties beyond their impact on activating FcγRs.

A novel adjuvant for vaccine development in the aged.

A conformationally-biased, response-selective agonist of human C5a(65-74) (EP67) activated antigen presenting cells (APC) from aged C57Bl/6 mice in vitro and the generation of antigen (Ag)-specific antibody (Ab) responses in aged mice in vivo. EP67, induced the release of the pro-inflammatory cytokines IL-6, TNFα, and INFγ from splenic APCs obtained from both aged and young mice. Both aged and young mice produced high Ag-specific IgG Ab titers when immunized with EP67-containing vaccines to ovalbumin (OVA-EP67) and to a protein (rPrp1) from the cell wall of Coccidioides (rPrp1-EP67). Immunization with EP67-containing vaccines resulted in higher IgG titers in both young and aged mice compared to mice immunized with OVA adsorbed to alum (OVA/alum) and Prp1 admixed with CpG (rPrp1 +CpG). Aged and young mice immunized with the EP67-containing vaccines generated higher titers of IgG1 and IgG2b relative to their aged-matched counterparts immunized with OVA/alum or Prp1 +CpG. These results indicate that EP67 induces humoral immunity in aged mice not obtainable with alum and CpG. These results support the use of EP67 as a potential vaccine adjuvant suited to the elderly.

Immune responses to methamphetamine by active immunization with peptide-based, molecular adjuvant-containing vaccines.

Vaccines to methamphetamine (meth) were designed by covalently attaching a meth hapten (METH) to peptide constructs that contained a conformationally biased, response-selective molecular adjuvant, YSFKPMPLaR (EP54). Rats immunized with EP54-containing meth vaccines generated serum antibody titers to authentic meth, an immune outcome that altered meth self-administration. Immunization increased meth self-administration suggesting pharmacokinetic antagonism. The ability of immune sera to bind a METH-modified target protein dramatically decreased during and shortly after the meth self-administration assay, suggesting effective sequestration of free meth. However, the binding ability of immune sera to the METH-modified target protein was recovered 34 days after meth-free clearance time.

A critical role for sphingosine kinase in anaphylatoxin-induced neutropenia, peritonitis, and cytokine production in vivo.

The aim of our study was to investigate the roles played by sphingosine kinase (SPHK) in the anaphylatoxin C5a-triggered responses in vivo. Our data show that i.v. administration of C5a triggers a rapid neutropenic response, but pretreating mice with the SPHK inhibitor, N,N-dimethylsphingosine (DMS), 10 min before the C5a i.v. administration substantially inhibited the C5a-triggered neutropenia. Similarly the i.v. administration of C5a caused a rapid increase in the serum levels of TNF-alpha and IL-6, and this increase in cytokine levels was blocked by DMS. We then induced acute peritonitis with C5a. The C5a i.p. injection triggered a fast recruitment of neutrophils, later followed by monocytes, into the peritoneal cavity. Vascular permeability was also observed: when we i.v. injected Evans blue before C5a i.p. injection, we could observe a continued influx of the dye into the peritoneum. In mice pretreated with DMS, there was a significant reduction on the C5a-triggered neutrophil and monocyte infiltration, as well as a marked reduction on the Evans blue influx. Our data also show that the i.p. administration of C5a caused a rapid increase in TNF-alpha and IL-6 levels in the peritoneal cavity, and this increase in cytokine levels was substantially inhibited in mice pretreated with the SPHK inhibitor. Taken together, these observations suggest a potential role for SPHK in the C5a-triggered inflammatory responses in vivo.

Stem cell factor stimulates the chemotaxis, integrin upregulation, and survival of human basophils.

BACKGROUND: Little is known about the mechanisms that regulate the selective recruitment of basophils to sites of allergic inflammation. OBJECTIVE: Here we examine the role of stem cell factor (SCF) in the regulation of basophil function. METHODS: Human basophils were isolated from peripheral blood, and their migration was investigated in chemotaxis assays. Apoptosis was detected by means of annexin V and propidium iodide staining. The expression of cell-surface molecules was measured by means of flow cytometry. RESULTS: SCF amplified the chemotactic responsiveness of human peripheral blood basophils to the chemoattractants eotaxin, monocyte chemotactic protein 2 and macrophage inflammatory protein 1alpha, and C5a, without being chemotactic or chemokinetic by itself. SCF synergized with chemoattractants in causing basophil upregulation of the integrin CD11b, and this effect was inhibited by a c-kit antibody, the tyrosine kinase inhibitor imatinib mesylate (STI-571), and a phosphatidylinositol 3 kinase inhibitor but not by inhibitors of p38 mitogen-activated protein kinase or mitogen-activated protein kinase/extracellular signal-regulated kinase kinase. Basophils bound fluorescence-labeled SCF and expressed its receptor, c-kit, which was markedly upregulated in culture for 24 to 48 hours in the presence of IL-3. Moreover, SCF prolonged basophil survival in concert with IL-3 by delaying apoptosis. These effects of SCF were selective for basophils because chemotaxis and CD11b upregulation of eosinophils or neutrophils were unchanged. CONCLUSION: SCF might be an important selective modulator of basophil function through a phosphatidylinositol 3 kinase-dependent pathway.

Human recombinant C5a enhances lipopolysaccharide-induced synthesis of interleukin-6 by human monocytes.

The effect of human recombinant C5a (hrC5a) on the synthesis of interleukin-6 (IL-6) was studied in human monocytes. Monocytes incubated in the absence of hrC5a and of bacterial lipopolysaccharide (LPS) produced only low amounts (less than 100 U/2 x 10(6) cells/16 h) of IL-6 activity. LPS in concentrations from 10 pg ml-1 to 10 ng ml-1 greatly stimulated the synthesis of IL-6 to about 50.000 U/10(6) cells/16 h. When hrC5a was added to the monocyte media maximal IL-6 synthesis was reached at lower LPS concentrations, i.e. at 0.1 ng ml-1 LPS in the presence of 100 ng ml-1 hrC5a. Maximal IL-6 production was not significantly enhanced by hrC5a. Metabolic labelling with [35S]-methionine followed by immunoprecipitation of IL-6 showed that the increased IL-6 activity in the medium of hrC5a treated monocytes was due to a stimulation of the de novo synthesis of IL-6. Increased amounts of IL-6 mRNA were found in monocytes treated with LPS and hrC5a compared with monocytes stimulated only with LPS. HrC5a prolonged the elevation of IL-6 mRNA levels after stimulation of monocytes with LPS. HrC5a thus enhanced the LPS-induced synthesis of IL-6 by human monocytes.

Infusion of ovine C5a into sheep mimics the inflammatory response of hemodialysis.

Previous studies in our group have explored the inflammatory response in sheep to dialysis with a variety of different hemodialysis membranes. In the present study we investigated the potential role of C5a in mediating inflammatory responses that have been attributed to complement activation in the extracorporeal setting. Sheep C5a was infused into sheep in a manner that simulated exposure to this anaphylatoxin during dialysis. C5a infusion into sheep was shown to produce a dose-dependent neutropenia that was quantitatively and temporally identical to the response of sheep undergoing dialysis with complement-activating membranes. The two lowest doses used (0.25 and 0.50 micrograms/kg), which resulted in concentrations below the detectable limits of current assays (10 ng/ml), produced significant neutropenia (21.8% and 78.1%, respectively). The ability of the neutrophils (PMNs) to bind fluorescein isothiocyanate-C5a or initiate a respiratory burst in response to phorbol myristate acetate were also affected in a dose-dependent manner. In contrast, C5a alone was not able to produce significant release of lactoferrin, a specific granule constituent, suggesting that degranulation of PMN-specific and primary granules requires secondary stimuli. The production of thromboxane A2 and thromboxane's consequent cardiopulmonary effect of increasing mean pulmonary artery pressure were both observed in a dose-dependent fashion. However, larger amounts of C5a were required to elicit these latter responses as compared with the PMN activities. These results suggest that C5a may be a primary mediator of complement-dependent events that occur during extracorporeal therapies such as hemodialysis, and they also suggest that very little complement activation is necessary to activate leukocytes, whereas higher thresholds are required to produce cardiopulmonary responses.

Inhibition of complement-factor-5a-induced inflammatory reactions by prostaglandin E2 in experimental meningitis.

The possible role of complement factor 5a (C5a) and prostaglandin E2 (PGE2) in cerebrospinal fluid (CSF) pleocytosis and protein accumulation was assessed in a rabbit model of meningitis. Intracisternally administered C5a caused a rapid, early influx of leukocytes into CSF that peaked at 1 h after injection; by 6 h, cell counts were slightly higher than those in controls. Administration of PGE2 or saline did not induce detectable CSF leukocytosis. Coadministration of PGE2 with C5a decreased CSF leukocytosis in a dose-related fashion. Protein concentration increased 30 min after administration of C5a, peaked after 1 h, and remained elevated for 6 h. PGE2 caused a dose-related increase in protein content after 2 h, whereas coadministration caused an inversely dose-related inhibition of the C5a-induced protein influx into CSF. These data suggest that PGE2 in the subarachnoid space exerts an inhibitory action on the C5a-mediated response that is probably not related to its direct effects on protein extravasation.

Age-dependent neutrophil and blood flow responsiveness in acute pulmonary inflammation in rabbits.

Diminished ability of neonatal neutrophils to orient and move in a chemotactic gradient has been linked to compromised pulmonary host defense. We investigated whether deficiency of neonatal neutrophil function in vitro was evident in acute pulmonary inflammation. Analysis of neutrophils in vitro showed impaired chemotaxis in 4-wk-old compared with adult rabbits. In vivo-directed migration of labeled neutrophils into the alveolar space of adult rabbits in response to C5f instillation was significantly less for neutrophils donated from 4-wk-old rabbits compared with those from adults. In contrast, there were no differences in the alveolar accumulation of 4-wk-old and adult labeled neutrophils in 4-wk-old rabbits in response to C5f instillation, although the response showed a shorter time course than seen in adult rabbits. Adult rabbits diverted 46% of the blood away from the right cranial lung lobe, whereas 4-wk-old rabbits showed no change in blood flow after C5f instillation. Megakaryocytes (a source of blood flow mediators) were 3.2-fold greater in adult compared with 4-wk-old lung. These data suggest that the lack of blood flow diversion from inflamed neonatal lung increases neutrophil migration into alveoli, allowing for preservation of an inflammatory response despite neutrophil deficiencies in chemotaxis.

Intracoronary C5a induces myocardial ischemia by mechanisms independent of the neutrophil: leukocyte filters desensitize the myocardium to C5a.

Activation of the complement cascade with the generation of anaphylatoxins accompanies the inflammatory response elicited by acute myocardial ischemia and reperfusion. Although complement is activated in the interstitium during acute myocardial ischemia, we have studied mechanisms whereby complement might exacerbate ischemia by using a model employing intracoronary injection of C5a in nonischemic hearts. Intracoronary injection of complement component C5a induces transient myocardial ischemia, mediated through the production of the coronary vasoconstrictors thromboxane A2 and peptidoleukotrienes (LTC4, LTD4), and causes sequestration of polymorphonuclear leukocytes (PMN) in the coronary vascular bed. To further investigate the role of the PMN in the C5a-induced vasoconstriction, the left anterior descending coronary artery (LAD) in pigs was perfused at constant pressure and measurements of coronary blood flow, myocardial contractile function (sonomicrometry), arterial/coronary venous blood PMN count, and thromboxane B2 (TxB2) levels were performed. The myocardial response to intracoronary C5a (500 ng) was determined before, during, and after perfusion with blood depleted of PMNs using leukocyte filters (Sepacell R-500, Pall PL-100). In additional animals, the myocardial response to the PMN chemotactic agent, LTB4, and the effects of intracoronary C5a during constant flow perfusion were measured. Control intracoronary injection of C5a decreased flow (41% of baseline) and contractile function (39% of baseline), PMNs were trapped (5.1 x 10(3) cells/microliters), and TxB2 concentration increased in coronary venous blood. The response to C5a during coronary perfusion with arterial blood depleted of PMNs with Sepacell or Pall filters (less than 0.1 x 10(3) cells/microliters) was greatly blunted, with flow and contractile function falling by less than 14 and 8%, respectively, from baseline, and release of TxB2 was greatly attenuated. However, the myocardial ischemia and TxB2 release remained depressed in response to C5a after removal of the filters and perfusion with either arterial blood containing normal levels of PMNs or stored arterial blood never exposed to filters. In contrast, the repeat C5a challenge resulted in equivalent myocardial extraction of PMNs, thus indicating a dissociation of PMN sequestration from the acute ischemic response and release of TxB2. In separate experiments, the intracoronary injection of LTB4 also resulted in a pronounced myocardial extraction of PMNs (8.6 x 10(3) cells/microliters) greater than during C5a, but did not depress coronary flow or function. Perfusion at constant flow greatly diminished the ischemic response to C5a, indicating that vasoconstriction and resultant ischemia is the main cause of the contractile dysfunction. These data indicate that leukocyte filters inhibit the myocardial ischemia and release of TxB2 induced by C5a via mechanisms not related to PMN depletion.(ABSTRACT TRUNCATED AT 400 WORDS)

Activation of phospholipase D in normodense human eosinophils.

Normodense human eosinophils have been labeled in 1-0-alkyl-phosphatidylcholine (alkyl-PC) with 32P by incubating isolated cells with alkyl-[32P]lysoPC. Stimulation of these 32P-labeled cells with C5a, A23187 or PMA in the presence of 0.5% ethanol resulted in time- and dose-dependent formation of alkyl-[32P]phosphatidic acid (alkyl-[32P]PA) and alkyl-[32P]phosphatidylethanol (alkyl-[32P]PEt). Because cellular ATP does not contain 32P, alkyl-[32P]PA must have been formed by the hydrolytic action of phospholipase D (PLD) and not by the combined actions of phospholipase C and DG kinase. Regardless of the stimulating agent, alkyl-[32P]PEt formation paralleled that of alkyl-[32P]PA, suggesting that alkyl-PEt was the result of a PLD-catalyzed transphosphatidylation reaction between alkyl-PC and ethanol. These data provide the first definitive proof of receptor- and nonreceptor-mediated activation of PLD in normodense eosinophils derived from human blood.

Intratracheal administration of anaphylatoxin C5a potentiates antigen-induced pulmonary reactions through the prolonged production of cysteinyl-leukotrienes.

The effects of intratracheal administration of anaphylatoxin C5a on airway inflammation have been studied using two sources of material, zymosan activated serum (ZAS) and purified rat C5a des Arg, in order to determine the influence of complement activation on allergic airway disorders.The intratracheal administration of ovalbumin (OA) to OA-sensitized rats generated two phases of airway response, an immediate airway response (IAR) occurring within 15 min and a late airway response (LAR) beginning 4-6 h after the allergen challenge. The simultaneous administration of ZAS and OA into the trachea generated a sustained elevation of airway resistance (Raw) following IAR, while that of OA or ZAS alone resulted in Raw returning nearly to the baseline just after the IAR. The elevation of Raw after the combined challenge of OA and ZAS was significantly inhibited by pretreatment with a CysLT(1) receptor antagonist, pranlukast 30 mg/kg, but after that OA or ZAS alone was not significantly inhibited by pranlukast. The intratracheal administration of purified C5a produced an airway response that was similar to, but higher than, that evoked by ZAS. Namely, the challenge with OA plus C5a resulted in a higher IAR than OA plus ZAS, and also caused an early animal death up to 6 h, which was prevented by a combined pretreatment with pranlukast and the H(1) receptor antagonist, diphenhydramine.A histological examination at 6 h after the OA challenge identified an infiltration of inflammatory cells into the bronchial submucosal tissue, with a predominance of neutrophils and fewer eosinophils. On the other hand, a histological examination after the OA and ZAS challenge showed more severe infiltration of granulocytes into the bronchial submucosal tissue than that with OA or ZAS alone. The challenge with OA plus C5a was associated with severe perivascular leakage in the lungs and the combined pretreatment with both the antagonists led to a marked reduction in perivascular leakage. The quantitation of N-acetyl-leukotriene E(4) (N-Ac-LTE(4)), a major metabolite of cysteinyl-leukotrienes (cysLTs), in the bile indicated a significantly greater and longer excretion of cysLTs, from 1 to 6 h after the combined challenge, than that after either OA or ZAS alone. This suggested a prolonged generation of cysLTs in the lung by the combined challenge.In conclusion, our findings suggest that anaphylatoxin C5a may mediate the airway inflammatory response induced by a specific antigen challenge partly through a prolonged production of cysLTs and the release of histamine.

Complement-dependent acute-phase expression of C-reactive protein and serum amyloid P-component.

The acute-phase response (APR) is regulated by TNF-alpha, IL-1beta, and IL-6 acting alone, in combination, or in concert with hormones. The anaphylotoxin C5a, generated during complement activation, induces in vitro the synthesis of these cytokines by leukocytes and of acute-phase proteins by HepG2 cells. However, there is no clear evidence for a role of C5a or any other complement activation product in regulation of the APR in vivo. In this study, using human C-reactive protein (CRP) transgenic mice deficient in C3 or C5, we investigated whether complement activation contributes to induction of the acute-phase proteins CRP and serum amyloid P-component (SAP). Absence of C3 or C5 resulted in decreased LPS-induced up-regulation of the CRP transgene and the mouse SAP gene. Also, LPS induced both the IL-1beta and IL-6 genes in normocomplementemic mice, but in complement-deficient mice it significantly induced only IL-6. Like LPS injection, activation of complement by cobra venom factor led to significant elevation of serum CRP and SAP in normocomplementemic mice but not in complement-deficient mice. Injection of recombinant human C5a into human CRP transgenic mice induced the IL-1beta gene and caused significant elevation of both serum CRP and SAP. However, in human CRP transgenic IL-6-deficient mice, recombinant human C5a did not induce the CRP nor the SAP gene. Based on these data, we conclude that during the APR, C5a generated as a consequence of complement activation acts in concert with IL-6 and/or IL-1beta to promote up-regulation of the CRP and SAP genes.

In vitro and in vivo responses of murine granulocytes to human complement-derived, haemolytically inactive C5b67 (iC5b67).

Haemolytically inactive C5b67 (iC5b67), which was made from purified human components and decayed to a haemolytically inactive form, was evaluated as an agonist for murine leucocytes both in vitro and in vivo. In an in vitro assay, iC5b67 stimulated chemotaxis for both neutrophils purified from mouse bone marrow and splenic eosinophils of IL-5 transgenic mice. The stimulation was dose-dependent, with high dose inhibition. As with human neutrophils, iC5b67 also failed to up-regulate CR3 (CD11b/CD18) expression and to stimulate superoxide generation in murine bone marrow neutrophils, in vitro. In vivo, iC5b67 elicited an inflammatory response in a mouse model of pleuritis. A marked infiltration of neutrophils, which peaked at 4 h, was followed by an infiltration of eosinophils and mononuclear leucocytes. This inflammatory response was dose- and time-dependent. However, the protein concentration in the pleural wash fluid did not increase, indicating that iC5b67 did not induce a capillary leak. Although the infiltration of neutrophils could not be reproduced by pure C7 or human serum albumin (HSA), C5b6 did induce an influx of neutrophils. We were able to document the existence of C7, both antigenically and functionally, in pleural washes of normal mice, making it likely that the activity of C5b6 resulted from the in situ formation of C5b67 and iC5b67. The mouse model of pleuritis promises to be a useful in vivo system in which to evaluate the pro- and anti-inflammatory effects of iC5b67 that have been noted in vitro.