Purification of chicken C3 and a structural and functional characterization

Proteinuria is accompanied by intratubular complement activation and apical membrane deposition of C3dg and C5b-9 in kidney transplant recipients

Proteinuria predicts accelerated decline in kidney function in kidney transplant recipients (KTRs). We hypothesized that aberrant filtration of complement factors causes intraluminal activation, apical membrane attack on tubular cells, and progressive injury. Biobanked samples from two previous studies in albuminuric KTRs were used. The complement-activation split products C3c, C3dg, and soluble C5b-9-associated C9 neoantigen were analyzed by ELISA in urine and plasma using neoepitope-specific antibodies. Urinary extracellular vesicles (uEVs) were enriched by lectin and immunoaffinity isolation and analyzed by immunoblot analysis. Urine complement excretion increased significantly in KTRs with an albumin-to-creatinine ratio of ≥300 mg/g compared with <30 mg/g. Urine C3dg and C9 neoantigen excretion correlated significantly to changes in albumin excretion from 3 to 12 mo after transplantation. Fractional excretion of C9 neoantigen was significantly higher than for albumin, indicating postfiltration generation. C9 neoantigen was detected in uEVs in six of the nine albuminuric KTRs but was absent in non-albuminuric controls (n = 8). In C9 neoantigen-positive KTRs, lectin affinity enrichment of uEVs from the proximal tubules yielded signal for iC3b, C3dg, C9 neoantigen, and Na⁺-glucose transporter 2 but only weakly for aquaporin 2. Coisolation of podocyte markers and Tamm–Horsfall protein was minimal. Our findings show that albuminuria is associated with aberrant filtration and intratubular activation of complement with deposition of C3 activation split products and C5b-9-associated C9 neoantigen on uEVs from the proximal tubular apical membrane. Intratubular complement activation may contribute to progressive kidney injury in proteinuric kidney grafts.

NEW & NOTEWORTHY The present study proposes a mechanistic coupling between proteinuria and aberrant filtration of complement precursors, intratubular complement activation, and apical membrane attack in kidney transplant recipients. C3dg and C5b-9-associated C9 neoantigen associate with proximal tubular apical membranes as demonstrated in urine extracellular vesicles. The discovery suggests intratubular complement as a mediator between proteinuria and progressive kidney damage. Inhibitors of soluble and/or luminal complement activation with access to the tubular lumen may be beneficial.

Haemolytic complement activity, C3 and Factor B consumption in serum from chickens divergently selected for antibody responses to sheep red blood cells

Antibody responses, serum complement haemolytic activity, and complement component C3 and Factor B consumption were studied in chickens divergently selected for high and low antibody responses to sheep red blood cells, and in a randombred control line. Significantly higher total and IgG antibody responses to SRBC were found after intramuscular immunisation in the high antibody responder (H) line versus the low antibody responder (L) line and the control (C) line. Also significantly higher antibody titres were found in the C line as compared to the L line. Ca-dependent (classical) and Ca-independent (alternative) complement haemolytic activity was significantly higher in the H line than in the L line. Also initial complement haemolytic activity and C3 levels prior to immunisation with SRBC were significantly higher in the H than in the L line. The L line, on the other hand, showed numerically higher Factor B levels. Immunisation with SRBC was followed by a different consumption of C3 in serum of the H line than the L line. The results indicated that divergent selection of chickens for specific antibody responses to SRBC affected complement levels and C3 consumption in these chickens. This suggests a genetic linkage between these two immune traits.

A novel chicken membrane-associated complement regulatory protein: molecular cloning and functional characterization

A cDNA encoding a membrane-associated complement (C) regulatory protein was identified here for the first time in an oviparous vertebrate, chicken. This protein, named Cremp, possessed five short consensus repeats (SCRs) and one SCR-like domain followed by a transmembrane domain and a cytoplasmic tail. SCR1/SCR2 of Cremp were 43.6% identical with SCR2/SCR3 of human decay-accelerating factor (CD55), and SCR3/SCR4 were 45.3% identical with those of human membrane cofactor protein (CD46). Cremp is likely to be an ancestral hybrid protein of human decay-accelerating factor and membrane cofactor protein rather than a homolog of rodent C receptor 1-related protein y, which structurally resembles human CR1 (CD35). Chinese hamster ovary cells transfected with Cremp were efficiently protected from chicken C but not from human or rabbit C in both classical and alternative pathways. Thus, chicken Cremp is a membrane C regulator for cell protection against homologous C. Cremp mRNA was seen as a doublet comprised of a faint band of 2.2 kb and a thick band of 3.0 kb on RNA blotting analysis. An Ab against chicken Cremp recognized a single band of 46.8 kDa on immunoblotting. mRNA and protein of Cremp were ubiquitously expressed in all chicken organs tested. Minute amounts of dimer were present in some tissues. Surface expression of Cremp was confirmed by flow cytometry and immunofluorescence analysis. These results suggested that even in nonmammals a C regulatory membrane protein with ubiquitous tissue distribution should be a prerequisite for protection of host cells from homologous C attack.

Inadequate anti-polysaccharide antibody responses in the chicken

Chickens are notorious for the fact that they carry bacteria such as Salmonellae and Campylobacter, which can cause zoonoses by contamination of the end product, without hampering growth and development of the chicken itself. This carrier status can only been explained by the inability of the chickens immune system to eliminate the pathogen, this in turn being due to insufficient humoral responses towards the polysaccharides of the bacterial capsule. In a previous study, we demonstrated that in chickens a model thymus-independent type 2 (TI-2) polysaccharide antigen, trinitrophenylated Ficoll (TNP-Ficoll), hardly evokes a humoral immune response. Furthermore this TI-2 antigen was shown to exhibit a very specific initial localization pattern after intravenous injection, i.e. in the periellipsoidal lymphocyte sheaths (PELS) and the surrounding ring of macrophages. The functional equivalent of these macrophages in mammals, the marginal zone macrophages, were shown to suppress the humoral responses against TI-2 antigens. Therefore we investigated whether other standard TI-2 antigen models also induce low antibody responses, whether this low response is dose-dependent, and whether macrophages are responsible for this low response. It was found that other TI-2 antigens, such as hydroxyethyl starch and detoxified lipopolysaccharides, also induced very low IgM and IgG responses, indicating a general phenomenon that could not be overcome by using a higher dose of antigen. In addition, selective depletion of splenic macrophages with liposomes containing dichloromethylene diphosphonate prior to immunization increased the specific humoral response to TD and TI-1 antigens, but failed to do so for TI-2 antigen. This result indicates that the low humoral responses are not (only) due to a macrophage suppressive activity but also to other yet unknown mechanisms, for example the lack of responsive B cells in the splenic PELS.

Purification and characterization of equine complement factor C3

A rapid method for purifying equine C3 which yields milligram quantities of pure C3 is described. Protein from equine plasma was selectively precipitated with polyethylene glycol, and the C3 was purified by anionic and cationic exchange HPLC. The yield from this procedure was 12%. The purified C3 was composed of an alpha chain (118 kD) and a beta chain (68 kD) linked by at least one disulfide bond, and it had an isoelectric point of 4.7. Amino acid analysis indicated a strong conservation of amino acid usage between equine and human C3. The N-terminal sequences of the alpha and beta chains were homologous to human, mouse, and rat C3, and activation of C3 produced breakdown products similar in molecular weight to C3b and iC3b of other species. Equine C3 appeared to be functionally dependent upon a reactive thiolester as treatment of fresh equine serum with methylamine abrogated its hemolytic activity.

Evolution of the complement system

The ancestral form of the alternative pathway of complement activation probably originated as a primitive independent immune system. Subsequent evolution of an adaptive immune response drove the specialization of the classical pathway to connect antibody-mediated nonself recognition to the complement-dependent effector mechanisms. In this article Timothy Farries and John Atkinson consider how the contemporary complexity arose by a succession of credible alterations at the genetic level, and the selective advantages provided at each step.