Complement components and terminal complement complex in oesophageal smooth muscle of patients with achalasia.

This study investigates whether patients with achalasia exhibit autoimmune reactions with subsequent complement activation within oesophageal smooth muscle, vessels and neurones. Oesophageal muscular biopsies from 8 patients undergoing surgery for achalasia and from 6 patients operated for oesophageal cancer were investigated by immunofluorescence for the presence of the complement components C1q, C4, C3c, C3d, C9 and the C9 neoantigen of the terminal C5b-C9 complement complex. Tissues were also investigated for the expression of immunoglobulins (G,A,M) and of the antigens of rubella and varicella zoster viruses. In addition, sera of both patient groups were tested for the presence of autoantibodies against Auerbach's plexus. The terminal complement complex C5b-C9 was found within muscle cells from all patients with achalasia but in only one specimen from a patient with cancer. Two patients with achalasia also exhibited the terminal complement complex as well as IgM within ganglion cells. Muscle cells stained positive for the complement component C9 in all five patients with achalasia in whom this test was performed but in none of the control tissues. In addition, sera from four patients with achalasia contained antibodies against Auerbach's plexus. Studies for the complement components C1q, C4, C3c and for antigens of rubella and varicella zoster viruses revealed negative results in all patients and controls. The results of this study suggest that a complement activation is involved in the autoimmune pathogenesis of achalasia. However, the triggering mechanism of this phenomenon remains to be determined.     

The role of C9 in complement-mediated killing of Neisseria

During the routine examination of a healthy 31-yr-old woman, we found an incomplete deficiency of the 9th component of complement (C9). By hemolytic assay her serum C9 activity was 10 to 15% of normal. Limited family studies suggested that she inherited the deficiency as an autosomal codominant trait.She had no history of unusual or severe infections. When tested for bactericidal activity against serum-sensitive Neisseria gonorrhoeae and N. meningitidis, her serum reacted comparably to normal serum. Normal serum depleted immunochemically of C9 and sera from congenitally C9-deficient patients were also bactericidal against serum-sensitive Neisseria but required 120 min to kill the same numbers of gonococci that intact serum killed within 30 min. In the electron microscope, N. gonorrhoeae incubated with C9-depleted serum were fragmented but lacked the typical C lesions. Therefore, serum lacking C9 can kill serum-sensitive Neisseria, unlike sera deficient in the other terminal C components.     

Survival of Flavobacterium psychrophilum in rainbow trout (Oncorhynchus mykiss) serum in vitro

Virulent and non-virulent strains of Flavobacterium psychrophilum of different serotypes were examined for survival and growth in non-immune and immune rainbow trout serum, in vitro. A majority of the examined strains consumed complement of non-immune serum, but the complement cascade was not able to cause an immediate (after 3 h incubation) notable reduction in viability of the inoculated cells. After 24 h incubation a more pronounced reduction in the number of viable bacteria was observed in untreated serum as well as in serum heated at 45 degrees C. In serum heated at 56 degrees C this reduction in cell number was not observed, but an increase in cell number did not occur either. The serum survival of one of the examined strains was different from the others in showing cell multiplication after 24 h incubation in normal as well as heat-treated (45 and 56 degrees C) serum. In immune serum no immediate reduction in viability of inoculated cells, of all tested strains, was observed. The number of viable cells showed a slow decrease or remained almost unchanged for up to 72 h post-inoculation in untreated serum, at 5 degrees C as well as 15 degrees C. In heat-treated serum (45 degrees C) the number of viable cells decreased slowly at 5 degrees C and 15 degrees C for up to 72 h. The results suggest that the examined strains were unaffected by the alternative complement reaction present in fish serum as well as by antibodies against F. psychrophilum. However, some unknown component(s) in the fish sera, or lack of nutrients or essential growth factors, inhibited the growth of most of the examined strains in the tested fish sera.     

Complement consumption by Photobacterium damselae subsp. piscicida in seabream, red porgy and seabass normal and immune serum. Effect of the capsule on the bactericidal effect

A virulent strain of Photobacterium damselae subsp. piscicida (Pdp) was grown without (C form) or with (C+ form) glucose supplementation, the latter to enhance capsule formation. Both forms were resistant to killing by normal serum of seabream, red porgy and seabass. However, the C form was killed by immune serum of all three fish species while the C+ form was killed only by seabream and red porgy sera and to a lesser extent than the C form. Both C and C+ forms consumed complement in normal serum and this consumption was enhanced by precoating the bacteria in specific fish antibody. Complement consumption was greatest in seabass serum, especially with antibody-coated C+ form yet in this case the bacteria were not killed. The killing of the C form in immune serum of all three fish species was completely inhibited by EGTA/Mg(2+), indicating that the mechanism of complement activation leading to killing of the bacteria was by the classical pathway. The results suggest that immune serum killing by the classical complement pathway may provide some degree of protection against pasteurellosis, but enhanced expression of the capsule by Pdp in vivo may restrict complement-mediated killing, especially in immunised seabass.     

Complement-mediated serum cytotoxicity for Leishmania major amastigotes: killing by serum deficient in early components of the membrane attack complex

Leishmania major, the agent of Oriental sore, is an obligate intracellular parasite of macrophages in mammalian hosts. Man's immune defense against this organism requires participation of specifically sensitized lymphocytes and activated macrophages. Recent studies, however, have demonstrated that as little as 1/120 concentration of normal human serum is highly cytotoxic for the amastigote form of L. major. Initiation of the lethal process occurs rapidly, requiring only 30 sec of parasite exposure to serum, and is mediated by antibody-independent activation of the alternate complement pathway. The molecular mechanism of cytotoxicity is not known, but may require participation of the membrane attack complex, C5b-9. We investigated this possibility by treating amastigotes with human sera genetically deficient in complement components C5, 6, 7, 8, or 9. We then measured viability of treated parasites by amastigote-promastigote conversion. Our results were quite unexpected: not only did C9-deficient serum kill organisms, but sera singly deficient in each of the preceding components C6 to C8 were also cytotoxic. The degree of cytotoxicity was related both to serum concentration and to the point in the complement cascade at which deficiency occurred. Sera lacking C6 or C7 were less cytotoxic than those deficient in C8, which were less toxic than those deficient in C9. Cytoxicity of deficient sera was abolished by heating serum to 56 degrees C for 30 min. These findings indicate that an incomplete membrane attack complex may mediate cytotoxicity for L. major amastigotes. Moreover, our results raise important questions regarding the mechanism by which the complex is assembled on the surface of a living, unicellular eukaryotic organism.     

A novel C3 mutation causing increased formation of the C3 convertase in familial atypical hemolytic uremic syndrome

Atypical hemolytic uremic syndrome has been associated with dysregulation of the alternative complement pathway. In this study, a novel heterozygous C3 mutation was identified in a factor B-binding region in exon 41, V1636A (4973 T > C). The mutation was found in three family members affected with late-onset atypical hemolytic uremic syndrome and symptoms of glomerulonephritis. All three patients exhibited increased complement activation detected by decreased C3 levels and glomerular C3 deposits. Platelets from two of the patients had C3 and C9 deposits on the cell surface. Patient sera exhibited more C3 cleavage and higher levels of C3a. The C3 mutation resulted in increased C3 binding to factor B and increased net formation of the C3 convertase, even after decay induced by decay-accelerating factor and factor H, as assayed by surface plasmon resonance. Patient sera incubated with washed human platelets induced more C3 and C9 deposition on the cell surface in comparison with normal sera. More C3a was released into serum over time when washed platelets were exposed to patient sera. Results regarding C3 and C9 deposition on washed platelets were confirmed using purified patient C3 in C3-depleted serum. The results indicated enhanced convertase formation leading to increased complement activation on cell surfaces. Previously described C3 mutations showed loss of function with regard to C3 binding to complement regulators. To our knowledge, this study presents the first known C3 mutation inducing increased formation of the C3 convertase, thus explaining enhanced activation of the alternative pathway of complement.     

Evidence of complement-mediated killing of Discocotyle sagittata (Platyhelminthes, Monogenea) oncomiracidia

Discocotyle sagittata oncomiracidia were rapidly killed when incubated in na?ve plasma and immune sera from both rainbow trout (Oncorhynchus mykiss) and brown trout (Salmo trutta), the killing proceeding at a faster rate with blood material from the latter fish species. The lethal activity of na?ve plasma and immune sera was comparable. This was abolished after incubation at 45 degrees C for 30 min and by the addition of EDTA but not EGTA supplemented with Mg(2+), indicating that complement acting via the alternative pathway is responsible for the parasiticidal effect observed. Scanning electron micrographs showed varying degrees of surface disruption in larvae exposed to fish plasma, suggesting that complement acts by breaching the oncomiracidial tegument. Control (untreated) oncomiracidia showed no damage. Ultrastructural damage was more extensive in oncomiracidia exposed to brown trout plasma than to rainbow trout plasma for equal periods, suggesting that the complement cascade may be involved in mediating host susceptibility.     

Can the surface immobilization antigens of Philasterides dicentrarchi (Ciliophora: Scuticociliatida) be used as target antigens to develop vaccines in cultured fish?

In order to test whether immobilization antigens (i-antigens) of Philasterides dicentrarchi could be suitable antigenic targets against scuticociliatosis, polyclonal olive flounder (Paralichthys olivaceus) sera were raised against P. dicentrarchi by immunization with lysates of ciliates grown using chinook salmon epithelial (CHSE) cells, and the ability of the immune sera to kill the ciliates via classical complement pathway was analyzed in relation to agglutination activity. The immune sera showed clear agglutination activity against the CHSE-cultured ciliates. However, the agglutinated ciliates were not killed but escaped from the agglutinated mass within a few hours. Ciliates isolated from fish artificially infected with the same population of CHSE-cultured ciliates were not agglutinated by the immune sera even at the lowest dilution. In antibody-dependent complement-mediated killing (ADCK), the immune sera completely killed the CHSE-cultured ciliates at relatively higher serum dilutions (showing low or no agglutination activity). However, CHSE-cultured ciliates were not killed completely at lower immune serum dilutions (showing high agglutination activity). In contrast to CHSE-cultured ciliates, the ciliates isolated from infected fish were killed at lower dilutions of the immune sera in spite of no agglutination response. Considering the presence of various i-antigen types, ability to change i-antigen type in response to corresponding antibody, and relatively low ADCK activity at high agglutination titer, i-antigens of P. dicentrarchi may not be good targets for subunit vaccine development. To develop subunit vaccines against scuticociliatosis, other surface antigens expressed constitutively or expressed specifically under the infection state for survival of the ciliates in the host fish might be more favorable to elicit protective antibodies than the surface i-antigens.     

Effect of selective complement deficiency on the rate of neutralization of enveloped viruses by human sera.

The capacity of human sera genetically deficient in selective complement (C) components to enhance neutralization of enveloped viruses was examined by kinetic plaque reduction assays. Vaccinia virus, a DNA virus, and vesicular stomatitis virus (VSV), an RNA virus, were studied. Exogenous rabbit: or human antibody to vaccinia virus, and guinea pig or human antibody to VSV were provided in limiting, C-dependent concentrations. IgG antibodies predominated in most of the antisera employed. C5-deficient and C6-deficient human sera consistently supported normal rates of neutralization of either virus; this effect was heat-labile. C4-deficient human serum did hot exceed heat-inactivated serum in any neutralization assay. C1r-deficient serum displayed slight heat-labile neutralizing capacity against vaccinia but none against VSV. C2- and C3-deficient sera consistently exhibited measurable but clearly subnormal rates of neutralization. Two fresh agammaglobulinemic sera failed to inactivate either virus in the absence of added antibody. These results confirm and extend earlier evidence, based on neutralization of herpes simplex and Newcastle disease viruses in the presence of early (IgM) antibody and functionally pure guinea pig C components or C-deficient animal sera, that the late-acting components C5-C9 are not required for C-dependent neutralization. Data on four enveloped viruses now agree that this function is mediated by C1-C3, although C1 plus C4 appear to have some neutralizing capacity. This requirement for C1-C3 is overcome, however, in the presence of higher antibody cohcentrations, suggesting that the contribution of the C system to viral neutralization in vivo may be chiefly in the early phase of infection when antibody is limited.     

Infection-enhancing and -neutralizing activities of mouse monoclonal antibodies against dengue type 2 and 4 viruses are controlled by complement levels

Dengue viruses are distributed widely in the tropical and subtropical areas of the world and cause dengue fever and its severer form, dengue hemorrhagic fever. While neutralizing antibodies are considered to play a major role in protection from these diseases, antibody-dependent enhancement (ADE) of infection is an important mechanism involved in disease severity, in addition to the involvement of T lymphocytes. Here, we analyzed relationships between neutralizing and enhancing activities at a clonal level using models of dengue type 2 virus (DENV2) and dengue type 4 virus (DENV4). Totals of 33 monoclonal antibodies (MAbs) against DENV2 and 43 against DENV4 were generated, all directed to the envelope protein. In these MAbs, enhancing activities were shown at subneutralizing doses under normal ADE assay conditions where test samples were heat inactivated. However, the inclusion of commercial rabbit complement or fresh sera from healthy humans in the ADE assay system abolished the enhancing activities of all these MAbs. The reductive effect of fresh sera on enhancing activities was significantly reduced by their heat inactivation or the use of C1q- or C3-depleted sera. In some fresh sera, enhancing activities were shown within a range of 20 to 80% of normal complement levels in a dose-dependent fashion. These results indicate that a single antibody species possesses two distinct activities (neutralizing/enhancing), which are controlled by the level of complement, suggesting the involvement of complement in dengue disease severity. Fresh human sera also tended to reduce enhancing activities more effectively in homologous than heterologous combinations of viruses (DENV2/DENV4) and MAbs (against DENV2/DENV4).     

Nature of the serum heat-labile accessory factor involved in the metabolic inhibition of Mycoplasma pneumoniae

Using the metabolic-inhibition (MI) test as an assay, sera from rabbits immunized with Mycoplasma pneumoniae were separated on the basis of a requirement for a heat-labile (56 C) accessory factor (HLAF). As in previous studies, this requirement was found in sera collected early in the immune response, but disappeared as the immunization procedure progressed. Results obtained following exposure of HLAF-requiring sera to zymosan, hydrazine, and ethylene-diaminetetraacetic acid (EDTA) suggested that complement components C3, C8, and possible other components which follow C3 in the complement cascade, were required to demonstrate MI activity. Results obtained when HLAF-non-requiring sera were treated in the same manner, suggested the presence of two antibody populations. One population required component C3, and possibly C5, C6, and C9, while the other population required none of the complement components.     

Lytic rabbit IgG for tissue culture trypomastigotes of Trypanosoma cruzi alters the extent and form of complement deposition

Infective and vertebrate stages of Trypanosoma cruzi are resistant to lysis by the alternative pathway of complement. To further elucidate the mechanism of complement evasion and to study how some immune sera render the infective stage sensitive to lysis, we compared the interaction of complement components C3 and C9 with the surface of complement susceptible, vector stage epimastigotes and vertebrate stage trypomastigotes of T. cruzi. Our studies showed that, upon incubation in human serum, complement resistant tissue culture trypomastigotes (TCT) bound five- to eightfold less C3 or C9 than complement sensitive epimastigotes (Epi). C3 bound to Epi is mainly in the hemolytically active C3b form, while TCT bear predominantly the hemolytically inactive iC3b fragment, which cannot participate in C5 convertase formation or lead to deposition of the lytic C5b-9 complex. Three- to sixfold more C3 and two- to threefold more C9 were deposited on TCT when lytic rabbit immune IgG with broad specificity was used to sensitize the parasites, and nearly one-half of bound C3 was present as C3b. In contrast, a comparison of three different sources of IgG from immune human serum showed a less clear correlation between the titer or specificity of anti-T. cruzi antibody, enhancement of C3 or C9 deposition, change in the form of bound C3, or killing. These results show that lytic rabbit IgG for T. cruzi changes the form and amount of bound complement components in anticipated fashion, but that human immune IgG does not give predictable changes in the extent or form of C3 or C9 deposition.     

Neutralization of influenza virus by normal human sera: mechanisms involving antibody and complement

All normal human sera examined neutralized WS/33 H1N1 influenza virus efficiently by one of two antibody-dependent mechanisms. A minority of the sera contained moderate levels of IgG antibody directed against the viral hemagglutinin that had the ability to directly neutralize the virus. The majority of sera tested contained very low levels of IgG anti-hemagglutinin antibody, which was detectable with a specific ELISA but not by conventional HAI assays. Such IgG antibody was unable to directly neutralize the virus. Studies with agammaglobulinemic serum and with sera depleted of and reconstituted with complement components established essential roles for IgG and the components of the classical complement pathway through C3 for neutralization. The components of the alternative and membrane attack pathways were not needed for neutralization. As anticipated from the requirement for IgG and exclusive mediation of neutralization by the classical pathway, the virus-IgG immune complex activated purified C1. Binding of C3 and C4 to the virus was demonstrated, as was classical pathway-mediated triggering of the alternative pathway, with recruitment of properdin. In addition, the H1N1 influenza virus also directly activated the alternative complement pathway in human serum, leading to C3 and properdin deposition on the viral envelope. Such direct alternative pathway activation also required immunoglobulin. However, the alternative pathway alone was unable to neutralize the virus. Thus, most normal sera examined contain low levels of IgG anti-hemagglutinin antibody, which activate the classical pathway of the complement system and neutralize WS/33 influenza virus by deposition of C3 and C4 on the viral envelope.     

Isolation of salmon pancreas disease virus (SPDV) in cell culture and its ability to protect against infection by the 'wild-type' agent

A Scottish salmon pancreas disease virus (SPDV) has been isolated and its optimum growth conditions determined. Although several fish cell lines have been tested, successful culture was achieved only with CHSE-214 cells. Cytopathic effects were observed after 5 days. The highest virus titres, calculated by microtitration assay, were reached at 15 degrees C. After 7-9 days post-inoculation, CHSE-214 cell supernatants contained between 10(7)-10(5) TCID50 ml(-1) The cultured isolate is chloroform- and pH 3.0-sensitive, and virions are 50-60 nm in diameter. These characteristics are similar to the Irish SPDV isolates. The culture isolate induced typical pancreas disease (PD) lesions in experimentally infected Atlantic salmon and convalescent fish were resistant to experimental infection with PD-infective kidney homogenates obtained by serial in vivo passages from a PD-infected farmed salmon (termed wild-type SPDV). Furthermore, fish immunised with the inactivated cultured virus were protected against a cohabitation challenge with the wild-type virus. Immunised fish sera showed virus-neutralising activity before challenge (7 weeks post-immunisation) and from 3-6 weeks post-challenge, when sera from non-immunised fish did not neutralise the virus. At 6 weeks post-cohabitation challenge, previously immunised fish had neutralising titres of up to 1:65. Following intraperitoneal (i.p.) challenge, immunised fish showed neutralising titres as high as 1:226 at 8 weeks post-challenge. Non-immunised fish injected i.p. with the wild-type virus developed serum-neutralising activity against the cultured isolate when sampled 8 weeks after infection, confirming an antigenic relationship between the wild-type and cultured virus. The results demonstrate that the tissue culture-adapted isolate of SPDV could be successfully used to protect against challenge by the wild-type virus and could therefore have potential use as an inactivated vaccine against PD.     

Activation of complement by Schistosoma mansoni schistosomula: killing of parasites by the alternative pathway and requirement of IgG for classical pathway activation.

Living Schistosoma mansoni schistosomula incubated with normal chicken, guinea pig, human, and monkey sera were killed after 4 hr contact at 37 degrees C. The following data indicate that this action is dependent on the activation of the alternative complement pathway (AP): a) the inactivity of RB, RD, and zymosan-treated serum against schistosomula; b) the partial activity of RD restored in FD; c) the full effect of the C4-deficient guinea pig, C2-deficient human, and the agammaglobulinemic human sera; d) the consumption of both the AP and FB after the incubation of NHS with schistosomula; e) the detection of C3d breakdown product during the contact of the C2-deficient human serum with these young parasites. Killing by serum was decreased as the immature schistosomes developed and was completely absent against 4-day-old lung schistosomula (LS). In other experiments, it was demonstrated that schistosomula, in the presence of IgG, were able to initiate complement activation also through the classical pathway (CP). However, the CP does not appear to play a role in the schistosomulicidal activity of complement. The in vivo relevance of these observations is considered.     

Study of the effect of Anisakis simplex larval products on the early and late components in the classical complement pathway

In previous studies, we have reported that the larval products (crude extract [CE] and excretory-secretory [ES]) of Anisakis simplex showed a dose-dependent inhibition of the lysis mediated by classical (CP) and alternative pathways (AP) of the human complement system, with the major inhibition on the CP rather than on AP. This inhibition of hemolysis is due to the consumption of complement factors because the assays performed shortening the preincubation period result in a significant decrease of the inhibitory effect on the lysis of the larval products compared with the standard time. Likewise, we found that the larval products reduce the inhibitory percentages in the CP using C3-deficient sera, but not in the AP, which could indicate that other complement components are implicated in the inhibitory effect in the CP. Hence, we have studied the activity of the larval products of A. simplex on individual components in the CP, using different complement-deficient sera. The investigated complement molecules were C1q, C2, C4, C5, C6, C7, C8, and C9. The larval products showed activity at the C2 level but failed to have a significant effect on the other components. Therefore, CE and ES products from A. simplex interact with C3 and C2 complement proteins, which are early components of the complement system, but not with the late complement components.     

The interaction of Escherichia coli with normal human serum: the kinetics of serum-mediated lipopolysaccharide release and its dissociation from bacterial killing

We have examined the killing of E. coli and kinetics of lipopolysaccharide (LPS) release after the exposure of the bacteria to normal human serum (NHS) and sera deficient in complement components, or with inactivated complement components. LPS of the galactose epimerase-deficient strain E. coli J5 were specifically radiolabeled by growing the bacteria in a medium containing [3H]galactose. Exposure of the washed bacteria to NHS resulted in a significant reduction (greater than 99%) in viability within 15 min and the concomitant release of radiolabeled LPS. However, maximal release of LPS was consistently 30% of the total radiolabel incorporated into the LPS molecules. The amount of tritium-labeled LPS released was shown to be directly proportional to the concentration of bacteria exposed to NHS, suggesting that release of LPS was not limited by the availability of some critical serum component(s). The consumption of complement in NHS by incubation with E. coli was demonstrated by decreased alternative and classical pathway-specific hemolytic activity. The use of Factor D-depleted and VEM-treated human sera demonstrated that, with these bacteria, both the alternative and classical pathways of complement contribute to bacterial killing and release of LPS. It is noteworthy that, in VEM-treated and Factor D-depleted sera, the rate of killing and the kinetics of LPS release were somewhat slower as compared to control serum. Bacterial killing in C7-depleted and C9-deficient human sera was minimal. Neither killing nor LPS release occurred in heat-inactivated (56 degrees C, 30 min) human serum. The amount of [3H]LPS released by C9-deficient serum was qualitatively similar to the amount released by the action of NHS. Tritium-labeled LPS was not released in C7-depleted serum. These data indicate that bacterial killing can be dissociated from LPS release, and suggest that, whereas LPS release may be necessary for the bactericidal effects of serum complement, it is probably not sufficient to effect killing. Furthermore, a significant fraction of LPS can be removed from the outer membrane of the bacteria without an apparent affect on viability.     

The ontogeny of complement component C3 in Atlantic cod (Gadus morhua L.)--an immunohistochemical study

The complement system in fish is well developed and plays an important role in the immune response. Very little is known about the ontogeny of C3 in fish and no study has previously been done on the development of C3 in teleosts. In this study we have detected the presence of C3 in cod larvae from the age of 1 day post hatching (p.h.) till 57 days p.h., using immunohistochemistry. The specific primary antibodies used, were produced against the beta-chain of cod C3. Immunostaining on cod larvae sections revealed that C3 is detectable in the yolksac membrane from day 1 p.h., and in liver, brain, kidney and muscle from day 2 p.h. C3 was also detected in other organs such as eye, notochord, stomach, intestines, pancreas, heart and gills at different stages of cod larval development. These findings suggest that complement is not only important in immune defence against invading pathogens but may also play a role in the formation and generation of different organs.