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The Journal of Immunology 03/2013; 190(6):2477-2478. · 5.79 Impact Factor
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ABSTRACT: Mitochondria, the powerhouses of our cells, are remnants of a eubacterial endosymbiont. Notwithstanding the evolutionary time that has passed since the initial endosymbiotic event, mitochondria have retained many hallmarks of their eubacterial origin. Recent studies have indicated that during perturbations of normal homeostasis, such as following acute trauma leading to massive necrosis and release of mitochondria, the immune system might mistake symbiont for enemy and initiate an inappropriate immune response. The innate immune system is the first line of defense against invading microbial pathogens, and as such is the primary suspect in the recognition of mitochondria-derived danger-associated molecular patterns (DAMPs) and initiation of an aberrant response. Conversely, innate immune mechanisms are also central to non-inflammatory clearance of innocuous agents. Here we investigated the role of a central humoral component of innate immunity, the lectin pathway of complement, in recognition of mitochondria in vitro and in vivo. We found that the soluble pattern-recognition molecules (PRMs), mannan-binding lectin (MBL), L-ficolin and M-ficolin were able to recognize mitochondria. Furthermore, MBL in complex with MBL-associated serine protease 2 (MASP-2) was able to activate the lectin pathway and deposit C4 onto mitochondria, suggesting that these molecules are either involved in homeostatic clearance of mitochondria or induction of untoward inflammatory reactions. We found that following mitochondrial challenge, C3 was consumed in vivo in the absence of overt inflammation, indicating a potential role of complement in non-inflammatory clearance of mitochondria. Thus, we report here the first indication of involvement of the lectin pathway in mitochondrial immune handling.
Journal of Biological Chemistry 02/2013; · 4.77 Impact Factor
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ABSTRACT: MASP-1 is a protease of the lectin pathway of complement. It is homologous with MASP-2, previously thought both necessary and sufficient for lectin pathway activation. Recently MASP-1 has taken centre stage with the observation that it is crucial to the activation of MASP-2 and thus central to complement activation. Numerous additional functions have been suggested for MASP-1 and its importance is obvious. Yet, thorough analyses of proteolytic activities and physiological roles in the human scenario have been hampered by difficulties in purifying or producing full-length human MASP-1. We present the successful expression of full-length recombinant human MASP-1 entirely in the zymogen form in a mammalian expression system. We found that the catalytic activity of MASP-1 suppresses its expression through rapid auto-activation and auto-degradation. This auto-degradation was not inhibited by the addition of inhibitors to the culture medium, and it was subsequently found to occur intracellularly. Numerous mutations aimed at attenuating auto-activation or preventing auto-degradation failed to rescue expression, as did also attempts at stabilizing the protease by co-expression with MBL or ficolins or expression in hepatocyte cell lines, representing the natural site of synthesis. The active protease was finally produced through co-expression with the serine protease inhibitor C1 inhibitor. We demonstrate that the expressed protease is capable of binding MBL and auto-activating, and is catalytically active. We have generalized the concept to the expression also of MASP-2 entirely in its zymogen form and with improved yields. We suggest a general advantage of expressing aggressive, autocatalytic proteases with their cognate inhibitors.
Protein Expression and Purification 01/2013; · 1.59 Impact Factor
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ABSTRACT: The three human ficolins (H-, L- and M-ficolin) and mannan-binding lectin are pattern recognition molecules of the innate immune system mediating activation of the lectin pathway of the complement system. These four human proteins bind to some microorganisms and may be involved in the resolution of infections. We investigated the binding selectivity by examining the binding of M-ficolin to a panel of more than 100 different streptococcal strains (Streptococcus pneumoniae and Streptococcus mitis) each expressing distinct polysaccharide structures. M-ficolin binding was observed for three strains only, the pneumococcal serotypes 19B and 19C and a single mitis strain expressing a similar polysaccharide structure. The bound M-ficolin, in association with MASP-2, mediated complement factor C4 cleavage. Binding to the bacteria was inhibitable by N-acetyl glucosamine indicating that the interaction with the bacterial surface takes place via the fibrinogen-like domain. The common N-acetyl mannosamine residue present in the structures of the four capsular polysaccharides of group 19 is linked via a phosphodiester bond. This residue is apparently not a ligand for M-ficolin since the lectin binds to two of the group 19 polysaccharides only. M-ficolin bound strongly to serotype 19B and 19C polysaccharides. In contrast to the serotypes 19A and 19F these two serotypes contain an extra N-acetyl mannosamine residue linked via glycoside linkage only. Thus, this extra residue seems to be the M-ficolin ligand.In conclusion, we were able to demonstrate specific binding of M-ficolin to some capsular polysaccharides of the opportunistic pathogen S. pneumoniae and of the commensal bacterium S. mitis.
Infection and immunity 11/2012; · 4.21 Impact Factor
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ABSTRACT: The lectin pathway of complement is an important component of innate immunity. Its activation has been thought to occur via recognition of pathogens by mannan-binding lectin (MBL) or ficolins in complex with MBL-associated serine protease (MASP)-2, followed by MASP-2 autoactivation and cleavage of C4 and C2 generating the C3 convertase. MASP-1 and MASP-3 are related proteases found in similar complexes. MASP-1 has been shown to aid MASP-2 convertase generation by auxiliary C2 cleavage. In mice, MASP-1 and MASP-3 have been reported to be central also to alternative pathway function through activation of profactor D and factor B. In this study, we present functional studies based on a patient harboring a nonsense mutation in the common part of the MASP1 gene and hence deficient in both MASP-1 and MASP-3. Surprisingly, we find that the alternative pathway in this patient functions normally, and is unaffected by reconstitution with MASP-1 and MASP-3. Conversely, we find that the patient has a nonfunctional lectin pathway, which can be restored by MASP-1, implying that this component is crucial for complement activation. We show that, although MASP-2 is able to autoactivate under artificial conditions, MASP-1 dramatically increases lectin pathway activity at physiological conditions through direct activation of MASP-2. We further demonstrate that MASP-1 and MASP-2 can associate in the same MBL complex, and that such cocomplexes are found in serum, providing a scenario for transactivation of MASP-2. Hence, in functional terms, it appears that MASP-1 and MASP-2 act in a manner analogous to that of C1r and C1s of the classical pathway.
The Journal of Immunology 09/2012; 189(8):3957-69. · 5.79 Impact Factor
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Critical care medicine 09/2012; 40(9):2735-6; author reply 2736-7. · 6.37 Impact Factor
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Anamika Verma,
Mitchell White,
Vinod Vathipadiekal,
Shweta Tripathi,
Julvet Mbianda,
Micheal Ieong,
Li Qi,
Jeffery K Taubenberger,
Kazue Takahashi, Jens C Jensenius,
Steffen Thiel,
Kevan L Hartshorn
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ABSTRACT: The collectins have been shown to have a role in host defense against influenza A virus (IAV) and other significant viral pathogens (e.g., HIV). The ficolins are a related group of innate immune proteins that are present at relatively high concentrations in serum, but also in respiratory secretions; however, there has been little study of the role of ficolins in viral infection. In this study, we demonstrate that purified recombinant human H-ficolin and H-ficolin in human serum and bronchoalveolar lavage fluid bind to IAV and inhibit viral infectivity and hemagglutination activity in vitro. Removal of ficolins from human serum or bronchoalveolar lavage fluid reduces their antiviral activity. Inhibition of IAV did not involve the calcium-dependent lectin activity of H-ficolin. We demonstrate that H-ficolin is sialylated and that removal of sialic acid abrogates IAV inhibition, while addition of the neuraminidase inhibitor oseltamivir potentiates neutralization, hemagglutinin inhibition, and viral aggregation caused by H-ficolin. Pandemic and mouse-adapted strains of IAV are generally not inhibited by the collectins surfactant protein D or mannose binding lectin because of a paucity of glycan attachments on the hemagglutinin of these strains. In contrast, H-ficolin inhibited both the mouse-adapted PR-8 H1N1 strain and a pandemic H1N1 strain from 2009. H-ficolin also fixed complement to a surface coated with IAV. These findings suggest that H-ficolin contributes to host defense against IAV.
The Journal of Immunology 07/2012; 189(5):2478-87. · 5.79 Impact Factor
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ABSTRACT: BACKGROUND: The lectin pathway of complement activation, in particular mannose-binding lectin (MBL), has been extensively investigated over recent years. So far, studies were exclusively based on venous samples. The aim of this study was to investigate whether measurements of lectin pathway proteins obtained by capillary sampling are in agreement with venous samples. METHODS: Prospective study including 31 infants that were admitted with suspected early-onset sepsis. Lectin pathway proteins were measured in simultaneously obtained capillary and venous samples. Bland-Altman plots of logarithmized results were constructed, and the mean capillary to venous ratios (ratio(cap/ven)) were calculated with their 95% confidence intervals (CI). RESULTS: The agreement between capillary and venous sampling was very high for MBL (meanratio(cap/ven), 1.01; 95% CI, 0.85-1.19). Similarly, high agreement was observed for H-ficolin (meanratio(cap/ven), 1.02; 95% CI, 0.72-1.44), MASP-2 (1.04; 0.59-1.84), MASP-3 (0.96; 0.71-1.28), and MAp44 (1.01; 0.82-1.25), while the agreement was moderate for M-ficolin (meanratio(cap/ven), 0.78; 95% CI, 0.27-2.28). CONCLUSIONS: The results of this study show an excellent agreement between capillary and venous samples for most lectin pathway proteins. Except for M-ficolin, small volume capillary samples can thus be used when assessing lectin pathway proteins in neonates and young children.
Immunobiology 06/2012; · 3.20 Impact Factor
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ABSTRACT: The pattern-recognition molecule M-ficolin is synthesized by monocytes and neutrophils. M-ficolin activates the complement system in a manner similar to mannan-binding lectin (MBL), but little is known about its role in host defense. Neonates are highly vulnerable to bacterial sepsis, in particular, due to their decreased phagocytic function.
M-ficolin cord blood concentration was positively correlated with the absolute phagocyte count (ρ 0.51, P < 0.001) and with immature/total neutrophil ratio (ρ 0.34, P < 0.001). When comparing infants with sepsis and controls, a high M-ficolin cord blood concentration (>1,000 ng/ml) was associated with early-onset sepsis (EOS) (multivariate odds ratio 10.92, 95% confidence interval 2.21-54.02, P = 0.003). Experimental exposure of phagocytes isolated from adult donors to Escherichia coli resulted in a significant time- and dose-dependent release of M-ficolin.
In conclusion, M-ficolin concentrations were related to circulating phagocytes and EOS. Our results indicate that bacterial sepsis can trigger M-ficolin release by phagocytes. Future studies should investigate whether M-ficolin may be used as a marker of neutrophil activation during invasive infections.
We investigated M-ficolin in 47 infants with culture-positive sepsis during the first 30 days of life (13 with EOS and in 94 matched controls. M-ficolin was measured in cord blood using time-resolved immunofluorometric assay (TRIFMA). Multivariate logistic regression was performed.
Pediatric Research 04/2012; 71(4 Pt 1):368-74. · 2.70 Impact Factor
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ABSTRACT: Ficolins and mannan-binding lectin recognize pathogen-associated molecular patterns and initiate the lectin pathway of complement activation via the associated serine proteases. In contrast to human ficolins and mouse ficolin-A, mouse ficolin-B has been considered incapable of complement activation. Dose-dependent binding of recombinant ficolin-B to immobilized GlcNAc, acetylated BSA, acetylated LDL, and fetuin was detected with ficolin-B-specific monoclonal antibodies. Recombinant ficolin-B bound to immobilized acetylated bovine serum albumin interacted with recombinant human mannan-binding lectin-associated serine protease-2, which led to C4 cleavage, thus demonstrating the capability of ficolin-B to activate the lectin pathway. Ficolin-B-specific monoclonal antibodies identified natural ficolin-B protein in lysates of mouse granulocytes isolated from the bone marrow. These results identify mouse ficolin-B as a functional member of the ficolin family activating complement via the lectin pathway.
Immunobiology 01/2012; 217(10):982-5. · 3.20 Impact Factor
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ABSTRACT: Ficolins are pattern recognition molecules of the innate immune system. H-ficolin is found in plasma associated with mannan-binding lectin-associated serine proteases (MASPs). When H-ficolin binds to microorganisms the MASPs are activated, which in turn activate the complement system. H-ficolin is the most abundant ficolin in humans, yet its ligand binding characteristics and biological role remain obscure. We examined the binding of H-ficolin to Aerococcus viridans as well as to a more defined artificial target, i.e. acetylated bovine serum albumin. A strict dependence for calcium ions and inhibition at high NaCl concentration was found. The binding to acetylated bovine serum albumin was inhibited by acetylsalicylic acid and sodium acetate as well as by N-acetylated glucosamine and galactosamine (GlcNAc and GalNAc) and glycine (GlyNAc). The binding to A. viridans was sensitive to the same compounds, but, importantly, higher concentrations were needed for inhibition. N-Acetylated cysteine was also inhibitory, but this inhibition was parallel with reduction in the oligomerization of H-ficolin and thus represents structural changes of the molecule. Based on our findings, we developed a procedure for the purification of H-ficolin from serum, involving PEG precipitation, affinity chromatography on Sepharose derivatized with acetylated serum albumin, ion exchange chromatography, and gel permeation chromatography. The purified H-ficolin was observed to elute at 700 kDa, similar to what we find for H-ficolin in whole serum. MASP-2 was co-purified with H-ficolin, and the purified H-ficolin·MASP-2 complex could activate complement as measured by cleavage of complement factor C4. This study extends our knowledge of the specificity of this pattern recognition molecule, and the purified product will enable further studies.
Journal of Biological Chemistry 01/2012; 287(11):8071-81. · 4.77 Impact Factor
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ABSTRACT: The lectin pathway of complement is a central part of innate immunity, but as a powerful inducer of inflammation it needs to be tightly controlled. The MASP2 gene encodes two proteins, MASP-2 and MAp19. MASP-2 is the serine protease responsible for lectin pathway activation. The smaller alternative splice product, MAp19, lacks a catalytic domain but retains two of three domains involved in association with the pattern-recognition molecules (PRMs): mannan-binding lectin (MBL), H-ficolin, L-ficolin and M-ficolin. MAp19 reportedly acts as a competitive inhibitor of MASP-2-mediated complement activation. In light of a ten times lower affinity of MAp19, versus MASP-2, for association with the PRMs, much higher serum concentrations of MAp19 than MASP-2 would be required for MAp19 to exert such an inhibitory activity. Just four amino acid residues distinguish MAp19 from MASP-2, and these are conserved between man, mouse and rat. Nonetheless we generated monoclonal rat anti-MAp19 antibodies and established a quantitative assay. We found the concentration of MAp19 in serum to be 217 ng/ml, i.e., 11nM, comparable to the 7 nM of MASP-2. In serum all MASP-2, but only a minor fraction of MAp19, was associated with PRMs. In contrast to previous reports we found that MAp19 could not compete with MASP-2 for binding to MBL, nor could it inhibit MASP-2-mediated complement activation. Immunohistochemical analyses combined with qRT-PCR revealed that both MAp19 and MASP-2 were mainly expressed in hepatocytes. High levels of MAp19 were found in urine, where MASP-2 was absent.
Journal of immunological methods 08/2011; 373(1-2):89-101. · 2.35 Impact Factor
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ABSTRACT: The enzyme-linked immunosorbent assay (ELISA) and its derivatives are powerful tools used in research, in the clinic, and in many other analytical and quality control settings. In general, ELISAs are robust, reproducible and reliable. However, a number of pitfalls of ELISAs have been described over the years. The issue of rheumatoid factor (RF), autoantibodies against the Fc portion of IgG, is well recognized (yet often forgotten), as are problems arising from heterophilic antibodies induced by external antigens that cross-react with self-antigens. A few years ago focus was on human anti-mouse antibodies (HAMA) concomitant with the increased use of mouse monoclonal antibody therapy, a problem that is now diminishing due to development of humanized antibodies. Issues pertaining to food antigens or environmentally encountered antigens are less recognized. We report a recently encountered example of the latter resulting in interference in a solid-phase sandwich assay. Due to the set-up employing a monoclonal rat IgG for capture and a monoclonal rat IgM for development the interference had to be human antibodies reacting with rat light-chain. Out of 102 Danish Caucasian blood donors we found a prevalence of anti-rat kappa light chain antibodies of close to 40% (39/102, defined as at least 2-fold elevated measurements), with around 6% (6/102) having very high levels (defined as at least 4-fold elevated measurements), yielding significantly higher measurements in the assay designed to measure the complement component MAp19 in serum samples. The interference could be blocked by the addition of rat immunoglobulin to the sample buffer. An individual, who had been followed over time, demonstrated a periodic increase of interfering antibodies, highlighting that it is an independently varying parameter and thereby a variable interference in assays. Our results highlight a major pitfall of potential relevance to many sandwich-type assays, as well as an approach to rectify such problems.
Journal of immunological methods 07/2011; 372(1-2):204-8. · 2.35 Impact Factor
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ABSTRACT: M-ficolin is a PRM of the innate immune system, found in serum and associated with leukocytes. We used the soluble form to study specificity toward Gram-positive bacteria and characterized and quantified cell-associated M-ficolin. The binding of M-ficolin to capsulated and noncapsulated strains of Streptococcus agalactiae (GBS) and Staphylococcus aureus was investigated. We did not observe binding of M-ficolin to any of 13 serotypes of S. aureus. Dose-dependent binding of M-ficolin was demonstrated for all of the capsulated GBS strains. The binding was abolished by prior treatment of the bacteria with sialidase, indicating that sialic acid is the ligand for M-ficolin on these bacteria. GlcNAc could inhibit the binding, suggesting that M-ficolin binds via its FBG. M-ficolin was found associated with the complement-activating enzyme in serum, and M-ficolin bound to GBS mediated activation of the complement system. M-ficolin expression on leukocytes was evaluated by flow cytometry with anti-M-ficolin mAb. Total M-ficolin of different leukocytes was quantified in detergent extracts. Monocytes and granulocytes showed similar M-ficolin surface expression, 1.1 × 10(5) and 0.7 × 10(5) M-ficolin molecules/cell, respectively. The total M-ficolin content of the cells was 1.5 × 10(6) molecules/monocyte and approximately one-third of this for granulocytes. Lymphocytes contained <1.5% of the amount estimated for monocytes, and none was revealed on the surface of lymphocytes by flow cytometry. Immunohistochemical analysis of the distribution of M-ficolin in 25 tissues revealed staining of only granulocytes and monocytes. Reported M-ficolin expression by type II pneumocytes could not be verified. We demonstrate the specific binding of M-ficolin to sialic acids in the capsule of GBS and give quantitative aspects of the cell-associated M-ficolin.
Journal of leukocyte biology 07/2011; 90(3):425-37. · 4.99 Impact Factor
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ABSTRACT: Recent studies have revealed profound developmental consequences of mutations in genes encoding proteins of the lectin pathway of complement activation, a central component of the innate immune system. Apart from impairment of immunity against microorganisms, it is known that hereditary deficiencies of this system predispose one to autoimmune conditions. Polymorphisms in complement genes are linked to, for example, atypical hemolytic uremia and age-dependent macular degeneration. The complement system comprises three convergent pathways of activation: the classical, the alternative, and the lectin pathway. The recently discovered lectin pathway is less studied, but polymorphisms in the plasma pattern-recognition molecule mannan-binding lectin (MBL) are known to impact its level, and polymorphisms in the MBL-associated serine protease-2 (MASP-2) result in defects of complement activation. Recent studies have described roles outside complement and immunity of another MBL-associated serine protease, MASP-3, in the etiology of 3MC syndrome, an autosomal-recessive disorder involving a spectrum of developmental features, including characteristic facial dysmorphism. Syndrome-causing mutations were identified in MASP1, encoding MASP-3 and two additional proteins, MASP-1 and MAp44. Furthermore, an association was discovered between 3MC syndrome and mutations in COLEC11, encoding CL-K1, another molecule of the lectin pathway. The findings were confirmed in zebrafish, indicating that MASP-3 and CL-K1 underlie an evolutionarily conserved pathway of embryonic development. Along with the discovery of a role of C1q in pruning synapses in mice, these recent advances point toward a broader role of complement in development. Here, we compare the functional immunologic consequences of "conventional" complement deficiencies with these newly described developmental roles.
The American Journal of Human Genetics 06/2011; 88(6):689-705. · 10.60 Impact Factor
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ABSTRACT: This study aimed to measure serum concentrations of five lectin-pathway components, mannan-binding lectin (MBL), M-ficolin, L-ficolin, H-ficolin, and MBL-associated serine protease-2 (MASP-2), in healthy neonates and children, to determine if they change with age and to compare them with serum concentrations in healthy adults. Concentrations were measured in 141 preterm and 30 term neonates, in 120 children including infants and adolescents, and in 350 adults (97 for L-ficolin) by inhouse time-resolved immunofluorometric assays or commercially available enzyme-linked immunosorbent assays. The adjacent categories method applying Wilcoxon-Mann-Whitney tests was used to determine age categories where concentrations differed significantly. Displaying serum concentration vs. age, an inverted-U shape (higher concentrations in children than in neonates and adults) was found for MBL and the ficolins, and an S-shape for MASP-2. Serum concentrations of all five lectin-pathway components were significantly lower in preterm neonates <32-wk gestational age compared to older neonates, infants, and children. Only M-ficolin in children >1 yr and H-ficolin in term neonates and in children were found to be comparable with adult values. MBL, M-, L-, and H-ficolin, and MASP-2 serum concentrations show important changes with age. The respective normal ranges for adults should not be used in the pediatric population. The age-specific pediatric ranges established here may be used instead.
Pediatric Allergy and Immunology 01/2011; 22(4):424-30. · 2.46 Impact Factor
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ABSTRACT: PURPOSE OF REVIEW: To give a comprehensive overview of the recently published studies on the role of the lectin pathway in coagulation, infections and auto-immunity. RECENT FINDINGS: We present the status quo picture of the lectin pathway, including the newly discovered member, MAp44 (a.k.a. MAP-1), which may act as a specific regulator of activation. On the functional side the focus is on the important discoveries of the connections between the coagulation system and mannose-binding lectin-associated serine proteases, newly discovered associations between the lectin pathway and infectious diseases, especially among neonates, the recent findings of the involvement of mannan-binding lectin and ficolins in auto-immune disorders, and novel therapeutic avenues. The involvement of the lectin pathway in ischemia-reperfusion injuries and transplantations is discussed elsewhere in this issue. SUMMARY: The emerging picture of the lectin pathway is that it may play a role in the case of concomitant impairments of cellular and adaptive immunity, as seen in the case of premature infants, neonates, neutropenic cancer patients and the like. Considering the near-exponential increase in interest for the lectin pathway and its intricacies in recent years, the future of the field seems promising.
Current opinion in organ transplantation 12/2010; · 1.22 Impact Factor
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Gut 10/2010; 60(10):1438-9. · 10.11 Impact Factor
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ABSTRACT: The lectin pathway of complement is part of the innate immune system. The complement-activating pattern-recognition molecules (for which we suggest the abbreviation CAPREMs) mannan-binding lectin (MBL) and the three ficolins (H-, L- and M-ficolin) circulate in complexes with MBL-associated serine proteases (MASP-1, -2 and -3) and two additional proteins (MAp19 and MAp44, also termed sMAP and MAP-1, respectively). When MBL or ficolins recognize a microorganism or altered self components, activation of the MASPs ensues, leading to the activation of the complement system. MASP-1, MASP-3 and MAp44 are all three encoded by the MASP1 gene. MASP-1 and -3 share five domains (constituting the so-called A-chain), but have unique protease domains (B-chains). MAp44 shares the first four domains with MASP-1 and MASP-3, followed by 17 unique C-terminal amino acid residues. Thus, assays for the protease domain of MASP-3 and for the 17 C-terminal amino acids of MAp44 are required to measure these proteins specifically and here we present such assays for MASP-3 and MAp44. MASP-3 was captured with a monoclonal antibody (5F5) reacting with a common domain of the three proteins (CCP1) and the assay was developed with a monoclonal antibody (38.12.3) specific for the C-terminal part of the MASP-3 protease domain. MAp44 was captured with a monoclonal antibody (2D5) reacting with the C-terminus of MAp44 followed by assay development with a monoclonal anti-CCP1 antibody (4H2). Using Superose 6 gel permeation chromatography of serum, MASP-3 and MAp44 were found in complexes, which eluted in positions corresponding to 600-800 kDa and 500-700 kDa, respectively. The level of MASP-3 in donor sera (N=200) was log-normally distributed with a median value of 5.0 μg/ml (range: 1.8-10.6 μg/ml), and the corresponding value for MAp44, also log-normally distributed, was 1.7 μg/ml (range: 0.8-3.2 μg/ml). For MASP-3, the inter-assay coefficients of variation of low, intermediate and high level internal controls were 4.9%, 6.9% and 3.9% (N=12). For MAp44, the corresponding inter-assay CVs were 7.6%, 6.2%, and 7.0% (N=12). MASP-3 levels were low at birth and reached adult levels within the first 6 months, whereas MAp44 levels fell slightly during the first 6 months. Concomitant with the acute phase response in patients undergoing major surgery, levels of both proteins fell slightly over 1-2 days, but whereas MASP-3 recovered to baseline values over another 2 days, MAp44 only reached baseline values at around day 30. Thus, neither of the two proteins behaves as a classical acute phase protein.
Journal of immunological methods 09/2010; 361(1-2):37-50. · 2.35 Impact Factor
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ABSTRACT: M-ficolin (ficolin-1) is a complement-activating pattern-recognition molecule structurally related to mannan-binding lectin. It is produced by monocytes and neutrophils, and is found in serum. Its biological role is largely unknown. We assessed M-ficolin concentration in serum from pediatric cancer patients. The aim of this study was to explore association of M-ficolin with clinical and hematological parameters, and to investigate whether the risk of chemotherapy-related infections was related to M-ficolin concentrations in serum.
M-ficolin was measured by time-resolved immunofluorometric assay in serum taken at cancer diagnosis and was correlated with peripheral blood counts and bone marrow examinations performed at the same time.
Median M-ficolin concentration in 94 children with cancer was 1.6 μg/mL (interquartile range, 0.57-2.7; range, 0.055-25.8), and was not different from age-matched controls (median, 1.7 μg/mL; p=0.92). M-ficolin was strongly associated with absolute counts of neutrophils (Spearman's rho, 0.45; 95%-CI, 0.26-0.65; p<0.001), monocytes (0.34; 0.12-0.55; p<0.001), and thus phagocytes (0.42; 0.20-0.63; p<0.001) in peripheral blood. Similarly, M-ficolin correlated strongly with neutrophils (0.36; 0.14-0.59; p=0.002) and phagocytes (0.31; 0.08-0.54; p=0.009) in bone marrow. Low serum M-ficolin (≤0.5 μg/mL) was not associated with an increased incidence of fever in neutropenia during chemotherapy (multivariate Poisson rate ratio, 1.04; 95%-CI, 0.68-1.60; p=0.85).
The concentration of M-ficolin in serum from children with cancer was strongly associated with neutrophil and monocyte counts in blood and bone marrow. These results suggest that M-ficolin concentrations in serum reflect the pool of phagocytes.
Immunobiology 09/2010; 216(5):633-8. · 3.20 Impact Factor
