Terminal Complement Components Research Articles

Killing of gram-negative bacteria by complement. Fractionation of cell membranes after complement C5b-9 deposition on to the surface of Salmonella minnesota Re595.

The effect of C5b-9 deposition on the envelope of target Gram-negative bacteria was studied. In order to understand the changes occurring after complement deposition on the bacterial surface, the preparation of Gram-negative bacterial membranes by different methods involving the osmotic lysis of spheroplasts was investigated. Subsequent fractionation of the outer membrane (OM) and cytoplasmic membrane (CM) by sucrose-density-gradient centrifugation showed differences in the membrane profiles obtained. The results indicate that optimum separation of OM and CM components requires effective digestion of DNA in the total membrane preparation before density-gradient fractionation. Salmonella minnesota Re595 carrying the intermediate complement complex C5b-7 (BC1-7) or C5b-8 (BC1-8) were efficiently killed upon incubation with purified C8 + C9 or C9 respectively. Human-alpha-thrombin-cleaved C9 (C9n), which is unable to form tubular poly(C9), was shown to be more effective at killing than native C9. By using an optimized system for the separation of OM and CM, it was found that, subsequent to lethal complement attack, the CM could not be recovered when C9 was used as the terminal complement component, but was recovered with reduced yield when C9n replaced C9. The results show that inability to recover the CM on sucrose density gradients after complement attack may not be a consequence of an essential membrane damage event required for complement-mediated killing of Gram-negative bacteria.

Immunohistochemical localisation of terminal complement component C9 in experimental allergic encephalomyelitis.

The deposition of terminal complement component C9 within the central nervous system (CNS) has been studied immunohistochemically in three models of experimental allergic encephalomyelitis (EAE) in the rat; inflammatory EAE induced by the passive transfer of myelin basic protein-specific T cells (tEAE), antibody-mediated, demyelinating tEAE and a subacute/chronic model induced by active immunisation with guinea pig spinal cord tissue in adjuvant. Two distinct patterns of C9 reactivity were observed, a diffuse staining of the tissue adjacent to inflammatory lesions, similar to that seen for other extra-vasculated serum proteins, and also granular, sometimes fibrillar C9 deposits around some inflammed vessels and in areas of active demyelination. The latter staining pattern was most pronounced in animals with acute antibody-mediated demyelinating tEAE, in which extensive, but transient, subpial and perivascular granular deposits of C9 were associated with regions of acute demyelination. A similar pattern of granular C9 reactivity was also associated with demyelinating lesions in animals with actively induced chronic progressive EAE. However, these C9 deposits were not observed in rats with purely inflammatory, clinically mild tEAE, although C9 deposition was occasionally observed around a small number of inflammed vessels in animals with hyperacute, lethal tEAE. These observations demonstrate that deposition of C9, the major component of the cytolytic membrane attack complex, in EAE is related to myelin injury rather than CNS inflammation.

The Molecular Architecture of Human Complement Component C6

The molecular architecture of human complement component C6 was elucidated at several levels of structural organization. The entire primary structure of C6 was determined by sequencing C6 cDNA that was cloned from a human liver lambda gt11 library. The polypeptide chain of C6 contains 913 amino acids. The protein is homologous with the other terminal components of complement, C7-C9. Specifically, C6 has 29% of its residues identical with C7, and 55 of the 56 cysteines found in C7 match those in C6. The C6 polypeptide chain is cross-linked by 32 disulfide bonds, and most of the cysteines are located in short (34-77 amino acids) discrete segments that exhibit homology with a wide variety of other proteins such as thrombospondin, the low density lipoprotein receptor, epidermal growth factor, and complement factors H and I. C6 is a glycoprotein, and it has two oligosaccharide groups attached to asparagines located near the amino and the carboxyl termini of the molecule. The organization of secondary structural elements in C6 was elucidated using circular dichroism spectroscopy and an empirical method based on sequence analysis. C6 has an estimated 12% alpha-helix, but is comparatively richer in beta-sheet (29%) and beta-turns (21%). Most of the predicted alpha-helical structure resides in a portion of the polypeptide chain that is free of cysteine and which shares homology with C9 and perforin. The tertiary structure of the C6 molecule was visualized by transmission electron microscopy; it has a sickle shape with dimensions of 144 x 66 A. The combined results are discussed and comparisons made with the other late acting components of complement and perforin.

COMPLEMENT DEFICIENCIES IN PATIENTS OVER TEN YEARS OLD WITH MENINGOCOCCAL DISEASE DUE TO UNCOMMON SEROGROUPS

46 patients in whom meningococcal disease due to serogroups X, Y, Z, W135, or 29E had developed after the age of 10 years were investigated retrospectively for complement deficiency. Complement deficiency was found in half of the patients: properdin deficiency in 9 patients, C3 deficiency syndromes in 5, and homozygous deficiency of a terminal component (C5, C6, C7, or C8) in 9. Meningococcal infections recurred in 5 of the 9 patients with terminal complement component deficiencies but not in the other complement-deficient patients. The findings show that meningococcal disease due to uncommon serogroups is often associated with complement deficiency.

Molecular structure and functional characterization of a human complement cytolysis inhibitor found in blood and seminal plasma: identity to sulfated glycoprotein 2, a constituent of rat testis fluid.

A component of soluble terminal complement complexes was identified and affinity-purified to homogeneity by using a monoclonal antibody previously developed against the soluble C5b-9 complex. The protein, which we have designated complement cytolysis inhibitor (CLI), has a molecular mass of 70 kDa and consists of two nonidentical, disulfide-linked subunits of 35 kDa. Partial amino acid sequences determined for the amino-termini of the two subunits were identical with those of a recently characterized serum protein called SP-40,40. An almost full-length cDNA clone of 1651 base pairs was isolated from a human liver cDNA library by using long synthetic oligonucleotides as probes. The encoded amino acid sequence of CLI consists of 427 amino acid residues preceded by a 21-residue-long typical signal peptide and shows an overall 75.6% amino acid sequence homology to sulfated glycoprotein 2 (SGP-2), a major Sertoli cell-derived protein of rat testis fluid. As in SGP-2, proteolytic processing between residues 206 and 207 yields the two disulfide-linked subunits of plasma CLI. CLI and SGP-2 were shown to be orthologous single-copy genes in humans and rats by Southern blotting experiments. In addition, CLI was immunologically identified in human seminal plasma. Functional studies with purified terminal complement components showed that CLI suppresses the cytolytic potential of nascent C5b-7 complexes at physiological blood plasma concentrations (approximately 50 micrograms/ml). Its presence on the surface of mature sperm cells and its relative abundance in seminal plasma (approximately 250 micrograms/ml) suggest that CLI protects sperm cells and epithelial tissues against complement attack in the male reproductive tract.

The release of C5a in complement-activated serum does not require C6.

The influence of terminal complement components on the generation and release of the complement C5a fragment was investigated by comparing the levels of C5a in complement-activated serum with the levels of C5a produced in serum depleted of complement C6. In order to investigate the release of C5a, a modified C5a assay was developed that utilizes an anti-C5b monoclonal antibody to remove C5, C5b, and C5b-C5a complexes from samples prior to C5a assay. The modified assay was developed because the standard methodology, which includes an acid-precipitation step designed to dissociate C5a and C5b, cannot distinguish free C5a from the C5a that is bound to C5b. Therefore, the standard methodology is not capable of monitoring the influence of terminal components on C5a/C5b dissociation. Levels of C5a were measured in complement-activated whole human serum, in serum depleted of C6, and in serum containing inhibitory levels of anti-C6 Fab using both the modified C5a assay and the standard methodology. Sera were complement-activated with either zymosan to activate the alternative complement pathway or with antibody-coated sheep erythrocytes to activate the classical pathway. The levels of free C5a in C6-depleted sera after activation were equivalent to the C5a levels in activated whole serum, indicating that C6 is not required for the release of C5a from C5b. In addition, the quantity of C5a detected in zymosan-activated sera using the standard acid-precipitation methodology was greater than C5a levels when assayed using the modified immunoadsorption technique, confirming that acid-treatment enhances the C5a dissociation and promotes C5a recovery. Since the other terminal components, C7, C8, and C9, bind to C5b only after C5b only after C6 is bound, these results indicate that none of the terminal components are required for the release of C5a. Although the terminal components could influence the rate of C5a release, the quantity of C5a released in serum was entirely independent of terminal components.

Decay-accelerating factor is expressed on vascular smooth muscle cells in human atherosclerotic lesions.

Decay-accelerating factor (DAF) is a constitutively expressed plasma membrane glycoprotein on blood cells and endothelium that inhibits cell surface C3/C5 convertase formation, thus inhibiting complement activation and protecting cells from lysis by the terminal complement components. Using monoclonal anti-DAF antibodies in conjunction with anti-smooth muscle cell (SMC)-specific myosin antibodies, it was found by immunohistochemistry that vascular SMC in advanced human carotid atherosclerotic lesions express DAF antigen. The percentage of DAF-positive SMC ranged from 20 to 60% between different patient samples and SMC DAF expression was limited to SMC in the lesion proper. Normal arterial wall SMC exhibited no DAF-specific immunostaining. Essentially 100% of passaged cultured vascular SMC derived from normal human uterine artery, or from umbilical vein, expressed DAF as assessed by immunocytochemistry. A 68-kD band was observed on SDS-PAGE autoradiograms of DAF-immunoprecipitated radiolabeled cultured SMC extracts. Sensitization of rabbit erythrocytes with DAF-containing SMC extracts conferred protection against complement-mediated hemolysis in normal human serum and the protective effect could be reversed by treatment with anti-DAF antibodies. We conclude that DAF is induced on vascular SMC during atherogenesis and in culture.

Effect of lipopolysaccharide on C3 and C5 production by human lung cells.

Although studies to date have demonstrated the ability of the monocyte/macrophage to produce C components in vitro, very few studies on C production by nonhepatic tissue cells have been reported. Recently, using 35S-methionine incorporation and immunoprecipitation techniques our laboratory has demonstrated the ability of tissue cells, i.e., the human lung type II pneumocyte (A549) and human lung fibroblast (WI-38), to synthesize and secrete a variety of early and terminal complement components, as well as several regulatory proteins in vitro, i.e., C1r, C1s, C4, C3, C5, C6, C7, C8, C9, factor B, factor H, factor I, and C1s inactivator. In our studies, we extended these observations by demonstrating the capability of LPS to modulate C3 production by A549 pneumocytes. Specifically, using a sensitive ELISA we demonstrated that A549 pneumocytes exposed to LPS induced an 80 to 180% increase in C3 levels when compared to untreated A549 cells. Interestingly, LPS had no effect on C5 production or total protein synthesis by A549 pneumocytes. In the case of the WI-38 fibroblast, LPS had no effect on 1) C3 production, 2) C5 production, or 3) total protein synthesis in vitro. These studies demonstrate that agents such as LPS have the potential to selectively regulate C production (i.e., C3) in individual lung cells in vitro, and suggests that in vivo LPS may alter the local tissue reservoir of C components during infection and lung injury, thus impacting on pulmonary inflammation and host defense.

Biotinylation: a simple method for labelling complement component C8 with preservation of functional activity

Biotinylation of human C8 with the water-soluble biotin derivative biotinylamidohexanoic acid, N-hydroxysulfosuccinimide ester is an excellent method for labelling this terminal complement component with preservation of its functional activity. The biotinylated product can be detected both in native form and also following its incorporation into the terminal complement complexes. Detection assays include Western blotting, crossed immunoblotting, ELISA, and immunocytochemistry. Biotinylation is an attractive alternative method for labelling C8 and may be used for detecting and quantifying C8 and C5b-9 complexes in their soluble and membrane-bound forms.

Secretion of the terminal complement proteins, C5–C9, by human platelets

The terminal complement components, C8 and C9, and to a lesser extent C5, C6, and C7, but minimal amounts of C3, were shown to be associated with washed human platelets. In unactivated platelets, the complement components were detected in the platelet pellet by hemolytic assays after centrifugation and disruption of the platelets by freeze-thawing. However, after platelets had been activated by collagen, thrombin, or aggregated IgG to induce aggregation, the complement components were released into the supernatant. The rank order of hemolytic activity of C9, C8, C7, C6, and C5 detected in the supernatants of activated platelets was quite different from that found in serum from the same donors, in the same assays. In particular, the serum C7 hemolytic titer was more than twice the serum C9 hemolytic titer, whereas the activity of C9 detected from platelets was more than twice that of C7. This argues against a purely nonspecific uptake of these proteins by platelets from plasma. The functional role of terminal complement components released from platelets during activation is unknown, but it is tempting to speculate that these proteins may have a role in platelet-dependent immunological tissue injury. Because the C5b-9 membrane attack complex activates platelets, it is possible that release of terminal complement proteins serves to amplify platelet activation and may also play a role in diseases in which complement membrane attack complexes have been implicated.

Amastigotes of Trypanosoma cruzi escape destruction by the terminal complement components.

We studied the effect of complement on two life cycle stages of the protozoan parasite Trypanosoma cruzi: epimastigotes, found in the insect vector, and amastigotes, found in the mammalian host. We found that while both stages activate vigorously the alternative pathway, only epimastigotes are destroyed. The amounts of C3 and C5b-7 deposited on the amastigotes were similar to those bound to the much larger epimastigotes. Binding of C9 to amastigotes was four to six times less than binding to epimastigotes, resulting in a lower C9/C5b-7 ratio. Although a fairly large amount of C9 bound stably to amastigotes, no functional channels were formed as measured by release of incorporated 86Rb. The bound C9 had the characteristic properties of poly-C9, that is, it expressed a neo-antigen unique to poly-C9, and migrated in SDS-PAGE with an apparent Mr greater than 10(5). The poly-C9 was removed from the surface of amastigotes by treatment with trypsin, indicating that it was not inserted in the lipid bilayer. Modification of amastigote surface by pronase treatment rendered the parasites susceptible to complement attack. These results suggest that amastigotes have a surface protein that binds to the C5b-9 complex and inhibits membrane insertion, thus protecting the parasites from complement-mediated lysis.

Biochemical and Functional Characterization of a Membrane-associated Pore-forming Protein from the Pathogenic Ameboflagellate Naegleria fowleri

A membrane-bound cytolytic pore-forming protein (N-PFP) produced by the pathogenic ameboflagellate Naegleria fowleri was characterized. N-PFP was solubilized from ameba membranes by detergent and enriched 300-fold by gel filtration chromatography. When analyzed by gel electrophoresis, N-PFP migrates with a molecular mass of 66 kDa and 50-54 kDa, under reducing and non-reducing conditions, respectively. In addition to lysing erythrocytes, N-PFP is cytotoxic to several tumor cell lines tested. Its hemolytic activity is not dependent on the presence of divalent cations. N-PFP rapidly depolarizes the membrane potential of microelectrode-impaled chicken embryo myocytes, suggesting that functional channel formation may represent the mode of membrane damage. In planar bilayers, N-PFP forms ion channels with heterogeneous unit conductances ranging between 150 and 400 picosiemens in 0.1 M NaCl and that are relatively resistant to closing by high voltages. Upon heat treatment (75 degrees C, 30 min), N-PFP forms channels with unit conductances that are on average larger than those formed by untreated N-PFP. N-PFP channels are slightly more permeable to cations than to anions. Using a liposome swelling-shrinkage assay, the functional diameter of N-PFP channels is estimated to range between 3.6 and 5.2 nm. N-PFP is immunologically distinct from the PFP/perforin produced by lymphocytes, the terminal components of complement and a PFP from the ameba Entamoeba histolytica, all of which produce pores on target membranes. This protein may have a direct lytic role during target cell killing mediated by N. fowleri.

Immunoelectron microscopic localization of membrane attack complex and hepatitis B e antigen in membranous nephropathy

Immunoelectron microscopy was used to localize membrane attack complex (MAC) and hepatitis B e (HBe) antigen in renal tissue specimens from a total of 9 patients with membranous nephropathy (MN); 6 with MN associated with a hepatitis B virus (HBV) infection, 2 with idiopathic MN, and 1 with lupus nephritis. All the patients were proteinuric, and 2 patients were classified as stage I-II, 6 as stage II, and 1 as stage IV. MAC, along with IgG and C3, was distributed within the subepithelial electron dense deposits in all the stages. MAC was also stained in the striated membranous structures within the glomerular basement membrane and mesangial matrix of some patients. In HBV-associated MN, HBe antigen was localized in the subepithelial electron dense deposits of 5 patients, while it was absent from the subepithelial deposits in a patient that was sero-positive for hepatitis B s antigen but negative for HBe antigen. This patient also lacked MAC deposition in these loci. These results suggest that MAC is associated with the formation of subepithelial deposits and proteinuria in MN. In HBV-associated MN, HBe antigen-antibody immune complex makes up the subepithelial deposits and is likely to activate the terminal components of complement in situ.

Localization of terminal complement components, S-protein and SP-40,40 in renal biopsies

The terminal complement complex has been implicated in the development of glomerular injury in both experimental and, indirectly, in human glomerulonephritis. Recent data suggests that the terminal complement complex in human glomerulonephritis may be in the cytolytically inactive SC5b-9 form which also contains S-protein and a recently identified protein, SP-40,40. In this study renal biopsies were examined by immunofluorescence to determine the incidence and inter-relation of deposition of the SC5b-9 components C6, C9, S-protein and SP-40,40. All components of SC5b-9 were found in arteries and arterioles, along the tubular basement membrane and in areas of glomerulosclerosis in all biopsies. This deposition was sometimes associated with C3 but never immunoglobulin deposition and correlated with the degree of renal injury. In addition, in biopsies with glomerular deposition of immunoglobulin and C3, the SC5b-9, components co-localized with the immune deposits. Glomeruli without immune deposits or glomerulosclerosis contained none of the SC5b-9 components. The incidence and pattern of distribution of SP-40,40 was similar to that of S-protein, C6 and C9 in all of cases. These data confirm that the terminal complement complex in the kidney is, at least partly, in the SC5b-9 form both in the specific immune glomerular deposition and in the "non-specific" deposition in areas of renal injury. SP-40,40 is also found in the SC5b-9 complex in all forms of renal disease.

Effect of the Late Complement Components C5b-9 and of Platelet-Derived Growth Factor on the Prostaglandin Release of Human Synovial Fibroblast-Like Cells

We examined the prostaglandin E (PGE) synthesis of cultured adherent synovial fibroblast-like cells (SFC) from patients with osteoarthritis (OA) in the noninflammatory state as well as with rheumatoid arthritis (RA). In cells from RA patients the spontaneous PGE release was generally higher compared to that of OA patients, but decreased fast with time in culture. After cell passage, similar PGE baseline levels were seen in cells of the two patient groups. The cells could then be stimulated by the terminal complement components C5b-9 or C5b-8. PGE synthesis was also stimulated by the platelet-derived growth factor (PDGF), interleukin-1 (IL-1), or lipopolysaccharide (LPS). The amount of PGE synthesis after incubation with PDGF, LPS and IL-1 was comparable to that released after C5b-9. Thus, like other inflammatory mediators C5b-9 and PDGF trigger the increased PGE production by SFC and thus may participate in the development of synovial inflammation and contribute to the pathogenesis of RA.

Interactions of a nonneutralizing IgM antibody and complement in parainfluenza virus neutralization

While many viruses activate the complement cascade directly, this is generally not a neutralizing event in the absence of antibody. We used a nonneutralizing IgM monoclonal antibody to parainfluenza virus type 3 (PIV3) hemagglutinin-neuraminidase (HN) to explore the role of antibody in complement-dependent neutralization of PIV3. Neither the antibody nor nonimmune guinea pig serum (GPS) neutralized PIV3 significantly, but a more than 100-fold reduction in titer was found when antibody and GPS were combined. Heat-inactivated GPS or GPS lacking either of two different complement proteins were all inactive with or without antibody. Specific repletion of the deficient sera with highly purified complement proteins restored neutralizing activity, indicating an absolute requirement for the classical pathway of complement activation and lytic terminal complement components, and viral lysis was confirmed by electron microscopy. The presence of antibody before complement activation was essential; later addition had no effect. Spontaneous complement activation by PIV3 occurred via the classical pathway in the absence of antibody. Addition of antibody did not alter the overall rate or extent of complement component C3 binding to PIV3 in these experiments. We conclude that certain nonneutralizing antibodies may support complement-dependent PIV3 neutralization by facilitating viral lysis. This process does not, however, involve enhanced activation through the C3 step. Lysis may require antibody-dependent localization of the membrane attack complex or reorganization of the viral envelope structures to facilitate attack complex insertion and lysis.

Complement fixation by pemphigus antibody. V. Assembly of the membrane attack complex on cultured human keratinocytes.

Previous studies have shown that pemphigus vulgaris (PV) IgG will fix early complement components (C1q, C4, and C3) to cultured murine epidermal cell surfaces and that PV IgG and complement alter epidermal cell membrane integrity. The present study was undertaken to determine if assembly of terminal complement components (C5, C6, C7, C8, and C9) and expression of C5b-9 neoantigens occur when PV IgG interacts with human keratinocyte (HuK) cell surface antigens in the presence of a source of complement. Monoclonal antibodies specific for C5, C6, C7, C8, C9, and C5b-9 neoantigens were screened for reactivity to the individual complement components in an assembled complex of human C5b-9 on rabbit red blood cell ghosts. Monoclonal antibodies (tissue culture supernatants) that bound to antigenic determinants accessible in the C5b-9 complex were selected for this study using immunofluorescence methods. HuK treated with PV IgG fixed C5, C6, C7, C8, C9, and C5b-9 neoantigens in a characteristic speckled pattern, while normal IgG did not. Heat inactivation or EDTA treatment of the complement source, or substitution of C2-depleted serum abolished C5, C6, C7, C8, C9, and C5b-9 neoantigen staining. PV IgG and complement also resulted in significant cytotoxicity to cell membranes as assessed using an ethidium bromide-fluorescein diacetate assay. These results suggest that PV IgG will activate the membrane attack complex of the complement system on HuK cell surfaces, resulting in cytotoxicity to cell membranes, further implicating complement in the pathogenesis of pemphigus.

The Immunohistology of IgA Nephropathy

The glomerular immunohistologic characteristics of 180 patients with IgA nephropathy (IgAN), defined by 2+ or greater (out of 0 to 4+) mesangial IgA-dominant or codominant immunostaining and no evidence for systemic lupus erythematosus, were compared with those of 84 patients with proliferative lupus glomerulonephritis and 254 patients with other forms of proliferative glomerulonephritis. The IgAN population increased in number by only 5% if the IgA immunostaining criterion was lowered to 1+, and it decreased by only 2% if IgA codominant staining was disallowed. A distinctive immunohistologic feature of IgAN in comparison with other immune complex-mediated glomerulopathies, in addition to the predominance of IgA immunostaining, was a high frequency (67%) of patients with greater lambda- than kappa-immunoglobulin light chain immunostaining. There was no correlation between the absolute or relative intensities or frequencies of IgA, IgG, or IgM immunostaining and the severity of glomerular disease; however, the presence of capillary wall immune deposits correlated with more severe disease. Terminal complement components were consistently present and were more conspicuous in more severely injured glomeruli. Immunostaining for the early classical complement activation pathway component C1q was absent or scanty in IgAN. This finding was particularly useful in the immunohistologic differentiation of IgAN from proliferative lupus glomerulonephritis, which was the form of glomerulonephritis with the greatest overlap with IgAN with respect to IgA immunostaining. When the diagnostic criteria for IgAN were 2+ or greater, dominant or codominant mesangial IgA immunostaining and less than 2+ C1q immunostaining, an immunohistologic diagnosis of IgAN was made with 98% accuracy.

Complement induces a transient increase in membrane permeability in unlysed erythrocytes.

The effects of low concentrations of human serum on antibody-sensitized sheep erythrocytes (EA) were studied. We report that exposure to low concentrations of serum induced a large but transient increase in the membrane permeability of those EA that do not lyse. This change in the permeability of the erythrocyte membrane resulted in net uptake of Na+ and decrease in cell K+, without affecting the total internal cation content. Although exposure to serum also allowed for net uptake of larger molecules like L-glucose, it did not lead to cell swelling. Experiments with sera genetically deficient in one of the terminal complement components showed that C8, but not C9, was required to produce the observed change in membrane permeability. Therefore, we propose that the C5b-8 complex can mediate the transient increase in permeability observed in unlysed erythrocytes during complement activation by whole serum.

SP-40,40, a newly identified normal human serum protein found in the SC5b-9 complex of complement and in the immune deposits in glomerulonephritis.

We report herein the isolation and initial characterization of a novel protein, termed SP-40,40, which is present at moderate levels (35-105 micrograms/ml) in normal human serum. SP-40,40 is deposited in the renal glomeruli of patients with glomerulonephritis but is not found in normal glomeruli. The protein is a heterodimeric structure of relative molecular mass 80 kD, both chains of which are of a similar size (40 kD). The amino-terminal sequences of both chains are unrelated to one another and possess no significant homology to any known protein sequence. The tissue distribution of SP-40,40 closely resembles that of the terminal complement components and its physicochemical properties are similar to, but distinct from, those of the S protein of complement. We have identified SP-40,40 in the SC5b-9 complex of complement and have demonstrated incorporation of labeled SP-40,40 into this complex. These data suggest that SP-40,40 is an additional component of SC5b-9.