Y Zhang scite author profile

Mannan-binding lectin (MBL) is an acute phase protein which activates the classical complement pathway at the level of C4 and C2 via two novel serine proteases homologous to C1r and C1s. We recently reported that haemolysis via this lectin pathway requires alternative pathway amplification. The present experiments sought to establish the basis for this requirement, and hence focused on the activity and regulation of the C3 convertases. Complement activation was normalized between the lectin and classical pathways such that identical amounts of bound C4 and of haemolytically active C4,2 sites were present on the indicator cells. Under these conditions, there was markedly less haemolysis, associated with markedly less C3 and C5 deposited, via the lectin pathway than via the classical pathway, particularly when alternative pathway recruitment was blocked by depletion of factor D. Lectin pathway activation was associated with enhanced binding in the presence of MBL of complement control proteins C4bp and factor H to C4b and C3b, respectively, with decreased stability of the C3-converting enzyme C4b,2a attributable to C4bp. Immunodepletion of C4bp and/or factor H increased lectin pathway haemolysis and allowed lysis to occur in absence of the alternative pathway. Thus, the lectin pathway of humans is particularly susceptible to the regulatory effects of C4bp and factor H, due at least in part to MBL enhancement of C4bp binding to C4b and factor H binding to C3b.

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Complement regulation in innate immunity and the acute-phase response: inhibition of mannan-binding lectin-initiated complement cytolysis by C-reactive protein (CRP)

Suankratay

Mold

Zhang

et al. 1998

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Mannan-binding lectin (MBL) is an acute-phase protein which activates complement at the level of C4 and C2. We recently reported that the alternative pathway also is required for haemolysis via this 'lectin pathway' in human serum. CRP is another acute-phase reactant which activates the classical pathway, but CRP also inhibits the alternative pathway on surfaces to which it binds. Since serum levels of both proteins generally increase with inflammation and tissue necrosis, it was of interest to determine the effect of CRP on cytolysis via the lectin pathway. We report here that although CRP increases binding of C4 to MBL-sensitized erythrocytes, which in turn enhances lectin pathway haemolysis, it inhibits MBL-initiated cytolysis by its ability to inhibit the alternative pathway. This inhibition is characterized by increased binding of complement control protein H and decreased binding of C3 and C5 to the indicator cells, which in turn is attributable to the presence of CRP. Immunodepletion of H leads to greatly enhanced cytolysis via the lectin pathway, and this cytolysis is no longer inhibited by CRP. These results indicate that CRP regulates MBL-initiated cytolysis on surfaces to which both proteins bind by modulating alternative pathway recruitment through H, pointing to CRP as a complement regulatory protein, and suggesting a co-ordinated role for these proteins in complement activation in innate immunity and the acute-phase response.

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Enhancement of lectin pathway haemolysis by immunoglobulins

Suankratay

Zhang

Jones

et al. 1999

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We recently reported that indicator sheep erythrocytes (E) coated with mannan and sensitized with mannan-binding lectin (MBL) (E-M-MBL) are lysed by human serum in the absence of calcium via the lectin pathway of complement activation by a process which requires alternative pathway amplification and is associated with increased binding of and control by complement regulatory proteins C4 bp and factor H. In the present study, we investigated the effect of immunoglobulin (Ig) on this haemolysis. Co-sensitization of indicator E with anti-E haemolysin led to threefold enhancement of lectin pathway haemolysis in the absence of calcium, associated with increased binding of C3 and C5. Lysis was enhanced approximately twofold when E-M-MBL were chemically or immunologically coated with IgM or IgA, and fourfold when coated with IgG, prior to lysis in human serum-Mg-ethyleneglycol tetraacetic acid. The presence of haemolysin did not reduce the binding or inhibitory activity of C4 bp, and the enhancing activity of haemolysin was retained in serum depleted of C4 bp. By contrast, binding of factor H was greatly reduced in the presence of haemolysin, which had no enhancing effect in serum depleted of factor H. These experiments demonstrate the ability of IgG, IgM and IgA to enhance lectin pathway cytolysis, and that this enhancement occurs by neutralization of the inhibitory activity of factor H. Immunoglobulin enhancement of lectin pathway cytolysis represents another interaction between the innate and adaptive systems of immunity.

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SU‐FF‐J‐101: Evaluation of Two Image Registration Systems

et al. 2005

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Purpose: We compare the performance of image registration algorithms adopted by BrainSCan and Philips Syntegra and give a general guide when using these systems. Method and Materials: BrainLab BrainScan System and Philips Syntegra System apply volume‐based automatic rigid image registration algorithms. Philips Syntegra provides Cross Correlation (CC), Local Correlation (LC) and Normalized Mutual Information (NMI) as optimization metrics and BrainScan applies Mutual Information as an optimization metric. These algorithms are compared for: 1) synthesis images, i.e., the images obtained by applying known transformations to a set of original images, 2) phantom images and 3) patient images. Results: For synthesis images, sub‐voxel accuracy is achieved. The maximum discrepancies between the registration results of translations and rotations and the known values are less than 0.5 mm and 0.5° for all algorithms. For phantom images, manual registration based on external markers is served as a gold standard to compare with the registration results. The discrepancies are at the order of 2 mm and 2°. For patient images, two radiation oncologists manually registered images independently and compared their results with the results by an automatic image registration system. The discrepancies become much larger due to the complexity of patient setups and density distributions. The capture regions and speeds of these algorithms are compared. Conclusion: The algorithms themselves can reach the accuracy of sub‐millimeter in translation and sub‐degree in rotation. But for clinical uses, the accuracy is reduced because of many errors introduced by positioning and patient motion. Preprocess is important to avoid being trapped in a narrow capture region. Final visual assessment is essential to guarantee reasonable and desired results.

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Y Zhang

OPC-compounds prevent oxidant-induced carbonylation and depolymerization of the F-actin cytoskeleton and intestinal barrier hyperpermeability

Mechanism of complement-dependent haemolysis via the lectin pathway: role of the complement regulatory proteins

Complement regulation in innate immunity and the acute-phase response: inhibition of mannan-binding lectin-initiated complement cytolysis by C-reactive protein (CRP)

Enhancement of lectin pathway haemolysis by immunoglobulins

SU‐FF‐J‐101: Evaluation of Two Image Registration Systems

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