Your search keyword '"Complement Inactivating Agents chemistry"' showing total 56 results

1. Structural characterization and immunomodulating assessment of ultra-purified water extracted fucoidans from Saccharina latissima, Alaria esculenta and Laminaria hyperborea.

Author

Birgersson PS, Chahal AS, Klau LJ, Holte HB, Arlov Ø, and Aachmann FL

Subjects

Humans, Complement Inactivating Agents chemistry, Complement Inactivating Agents isolation & purification, Complement Inactivating Agents pharmacology, Fucose chemistry, Immunologic Factors pharmacology, Immunologic Factors chemistry, Immunologic Factors isolation & purification, Water chemistry, Edible Seaweeds chemistry, Kelp chemistry, Laminaria chemistry, Phaeophyceae chemistry, Polysaccharides chemistry, Polysaccharides pharmacology, Polysaccharides isolation & purification

Abstract

Fucoidans, a group of high molecular weight polysaccharides derived mainly from brown algae, are characterized by their high fucose content, degree of sulfation (DS), and intra- and interspecific structural variation. Fucoidans are increasingly recognized due to various reported bioactivities, potentially beneficial for human health. To unlock their potential use within biomedical applications, a better understanding of their structure-functional relationship is needed. To achieve this, systematic bioactivity studies based on well-defined, pure fucoidans, and the establishment of standardized, satisfactory purification protocols are required. We performed a comprehensive compositional and structural characterization of crude and ultra-purified fucoidans from three kelps: Saccharina latissima (SL), Alaria esculenta (AE) and Laminaria hyperborea (LH). Further, the complement-inhibiting activity of the purified fucoidans was assessed in a human whole blood model. The purification process led to fucoidans with higher DS and fucose and lower concentrations of other monosaccharides. Fucoidans from SL and LH resembles homofucans, while AE is a heterofucan rich in galactose with comparably lower DS. Fucoidans from SL and LH showed complement-inhibiting activity in blood and blood plasma, while no inhibition was observed for AE under the same conditions. The results emphasize the importance of high DS and possibly fucose content for fucoidans' bioactive properties., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

2. Mechanism of complement inhibition by a mosquito protein revealed through cryo-EM.

Author

Andersen JF, Lei H, Strayer EC, Pham V, and Ribeiro JMC

Subjects

Cryoelectron Microscopy, Models, Chemical, Animals, Amino Acid Sequence, Humans, Complement Inactivating Agents chemistry, Complement Inactivating Agents metabolism, Salivary Proteins and Peptides chemistry, Salivary Proteins and Peptides metabolism, Complement C3b chemistry, Complement C3b metabolism, Insect Proteins chemistry, Insect Proteins metabolism, Anopheles chemistry, Anopheles classification

Abstract

Salivary complement inhibitors occur in many of the blood feeding arthropod species responsible for transmission of pathogens. During feeding, these inhibitors prevent the production of proinflammatory anaphylatoxins, which may interfere with feeding, and limit formation of the membrane attack complex which could damage arthropod gut tissues. Salivary inhibitors are, in many cases, novel proteins which may be pharmaceutically useful or display unusual mechanisms that could be exploited pharmaceutically. Albicin is a potent inhibitor of the alternative pathway of complement from the saliva of the malaria transmitting mosquito, Anopheles albimanus. Here we describe the cryo-EM structure of albicin bound to C3bBb, the alternative C3 convertase, a proteolytic complex that is responsible for cleavage of C3 and amplification of the complement response. Albicin is shown to induce dimerization of C3bBb, in a manner similar to the bacterial inhibitor SCIN, to form an inactive complex unable to bind the substrate C3. Size exclusion chromatography and structures determined after 30 minutes of incubation of C3b, factor B (FB), factor D (FD) and albicin indicate that FBb dissociates from the inhibited dimeric complex leaving a C3b-albicin dimeric complex which apparently decays more slowly., (© 2024. This is a U.S. Government work and not under copyright protection in the US; foreign copyright protection may apply.)

Published

2024

3. Design and Biological Evaluation of the Long-Acting C5-Inhibited Ornithodoros moubata Complement Inhibitor (OmCI) Modified with Fatty Acid.

Author

Shangguan W, Li X, Wang Y, Huang Z, Dong Y, Feng M, and Feng J

Subjects

Animals, Mice, Drug Design, Half-Life, Complement Inactivator Proteins pharmacology, Complement Inactivator Proteins chemistry, Complement Inactivating Agents pharmacology, Complement Inactivating Agents pharmacokinetics, Complement Inactivating Agents chemistry, Humans, Fatty Acids chemistry, Ornithodoros, Complement C5 antagonists & inhibitors

Abstract

Disorder of complement response is a significant pathogenic factor causing some autoimmune and inflammation diseases. The Ornithodoros moubata Complement Inhibitor (OmCI), a small 17 kDa natural protein, was initially extracted from soft tick salivary glands. The protein was found binding to complement C5 specifically, inhibiting the activation of the complement pathway, which is a successful therapeutic basis of complement-mediated diseases. However, a short half-life due to rapid renal clearance is a common limitation of small proteins for clinical application. In this study, we extended the half-life of OmCI by modifying it with fatty acid, which was a method used to improve the pharmacokinetics of native peptides and proteins. Five OmCI mutants were initially designed, and single-site cysteine mutation was introduced to each of them. After purification, four OmCI mutants were obtained that showed similar in vitro biological activities. Three mutants of them were subsequently coupled with different fatty acids by nucleophilic substitution. In total, 15 modified derivatives were screened and tested for anticomplement activity in vitro. The results showed that coupling with fatty acid would not significantly affect their complement-inhibitory activity (CH50 and AH50). OmCIT90C-CM02 and OmCIT90C-CM05 were validated as the applicable OmCI bioconjugates for further pharmacokinetic assessments, and both showed improved plasma half-life in mice compared with unmodified OmCI (15.86, 17.96 vs 2.57 h). In summary, our data demonstrated that OmCI conjugated with fatty acid could be developed as the potential long-acting C5 complement inhibitor in the clinic.

Published

2024

4. Structure and function of a family of tick-derived complement inhibitors targeting properdin.

Author

Braunger K, Ahn J, Jore MM, Johnson S, Tang TTL, Pedersen DV, Andersen GR, and Lea SM

Subjects

Amino Acid Sequence, Animals, Arthropod Proteins genetics, Complement Activation, Complement C3 chemistry, Complement C3 immunology, Complement Pathway, Alternative, Humans, Kinetics, Properdin chemistry, Properdin genetics, Rhipicephalus chemistry, Rhipicephalus genetics, Sequence Alignment, Arthropod Proteins chemistry, Arthropod Proteins immunology, Complement Inactivating Agents chemistry, Complement Inactivating Agents immunology, Properdin immunology, Rhipicephalus immunology

Abstract

Activation of the serum-resident complement system begins a cascade that leads to activation of membrane-resident complement receptors on immune cells, thus coordinating serum and cellular immune responses. Whilst many molecules act to control inappropriate activation, Properdin is the only known positive regulator of the human complement system. By stabilising the alternative pathway C3 convertase it promotes complement self-amplification and persistent activation boosting the magnitude of the serum complement response by all triggers. In this work, we identify a family of tick-derived alternative pathway complement inhibitors, hereafter termed CirpA. Functional and structural characterisation reveals that members of the CirpA family directly bind to properdin, inhibiting its ability to promote complement activation, and leading to potent inhibition of the complement response in a species specific manner. We provide a full functional and structural characterisation of a properdin inhibitor, opening avenues for future therapeutic approaches., (© 2022. The Author(s).)

Published

2022

5. Salivary complement inhibitors from mosquitoes: Structure and mechanism of action.

Author

Strayer EC, Lu S, Ribeiro J, and Andersen JF

Subjects

Animals, Anopheles, Complement C3-C5 Convertases genetics, Complement C3-C5 Convertases metabolism, Complement Pathway, Alternative genetics, Complement Pathway, Alternative physiology, Crystallography, X-Ray, Culicidae, Insect Proteins genetics, Insect Proteins metabolism, Properdin genetics, Surface Plasmon Resonance, Complement Inactivating Agents chemistry, Complement Inactivating Agents metabolism, Properdin metabolism, Saliva chemistry

Abstract

Inhibition of the alternative pathway (AP) of complement by saliva from Anopheles mosquitoes facilitates feeding by blocking production of the anaphylatoxins C3a and C5a, which activate mast cells leading to plasma extravasation, pain, and itching. We have previously shown that albicin, a member of the SG7 protein family from An. Albimanus, blocks the AP by binding to and inhibiting the function of the C3 convertase, C3bBb. Here we show that SG7.AF, the albicin homolog from An. freeborni, has a similar potency to albicin but is more active in the presence of properdin, a plasma protein that acts to stabilize C3bBb. Conversely, albicin is highly active in the absence or presence of properdin. Albicin and SG7.AF stabilize the C3bBb complex in a form that accumulates on surface plasmon resonance (SPR) surfaces coated with properdin, but SG7.AF binds with lower affinity than albicin. Albicin induces oligomerization of the complex in solution, suggesting that it is oligomerization that leads to stabilization on SPR surfaces. Anophensin, the albicin ortholog from An. stephensi, is only weakly active as an inhibitor of the AP, suggesting that the SG7 family may play a different functional role in this species and other species of the subgenus Cellia, containing the major malaria vectors in Africa and Asia. Crystal structures of albicin and SG7.AF reveal a novel four-helix bundle arrangement that is stabilized by an N-terminal hydrogen bonding network. These structures provide insight into the SG7 family and related mosquito salivary proteins including the platelet-inhibitory 30 kDa family., Competing Interests: Conflict of Interest The authors declare that they have no conflicts of interest with the contents of this article., (Copyright © 2020 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2021

6. Chemical synthesis and characterisation of the complement C5 inhibitory peptide zilucoplan.

Author

Gorman DM, Lee J, Payne CD, Woodruff TM, and Clark RJ

Subjects

Complement C5 chemical synthesis, Complement C5 chemistry, Complement C5 pharmacology, Complement Inactivating Agents chemistry, Complement Inactivating Agents pharmacology, Humans, Inhibitory Concentration 50, Lipopolysaccharides pharmacology, Molecular Structure, Peptides, Cyclic chemistry, Peptides, Cyclic pharmacology, Solid-Phase Synthesis Techniques, Complement C5 antagonists & inhibitors, Complement Inactivating Agents chemical synthesis, Peptides, Cyclic chemical synthesis

Abstract

The complement component C5 inhibitory peptide zilucoplan is currently in phase III clinical trials for myasthenia gravis (MG). Despite being at an advanced stage of clinical development, there have been no published reports in the literature detailing its chemical synthesis. In this work, we describe an approach for the chemical synthesis of zilucoplan and validate that the synthesised compound blocks LPS-induced C5a production from human blood.

Published

2021

7. Antimicrobial Peptide Arenicin-1 Derivative Ar-1-(C/A) as Complement System Modulator.

Author

Krenev IA, Umnyakova ES, Eliseev IE, Dubrovskii YA, Gorbunov NP, Pozolotin VA, Komlev AS, Panteleev PV, Balandin SV, Ovchinnikova TV, Shamova OV, and Berlov MN

Subjects

Animals, Anti-Bacterial Agents chemistry, Anti-Bacterial Agents pharmacology, Antimicrobial Cationic Peptides chemistry, Antimicrobial Cationic Peptides toxicity, Complement Inactivating Agents chemistry, Complement Inactivating Agents toxicity, Erythrocytes drug effects, Escherichia coli drug effects, Escherichia coli growth & development, Helminth Proteins chemistry, Helminth Proteins toxicity, Hemolysis drug effects, Humans, Listeria monocytogenes drug effects, Listeria monocytogenes growth & development, Protein Conformation, Rabbits, Sheep, Domestic, Structure-Activity Relationship, Antimicrobial Cationic Peptides pharmacology, Complement Activation drug effects, Complement Inactivating Agents pharmacology, Helminth Proteins pharmacology

Abstract

Antimicrobial peptides (AMPs) are not only cytotoxic towards host pathogens or cancer cells but also are able to act as immunomodulators. It was shown that some human and non-human AMPs can interact with complement proteins and thereby modulate complement activity. Thus, AMPs could be considered as the base for complement-targeted therapeutics development. Arenicins from the sea polychaete Arenicola marina , the classical example of peptides with a β-hairpin structure stabilized by a disulfide bond, were shown earlier to be among the most prospective regulators. Here, we investigate the link between arenicins' structure and their antimicrobial, hemolytic and complement-modulating activities using the derivative Ar-1-(C/A) without a disulfide bond. Despite the absence of this bond, the peptide retains all important functional activities and also appears less hemolytic in comparison with the natural forms. These findings could help to investigate new complement drugs for regulation using arenicin derivatives.

Published

2020

8. Anticomplement ent-labdane diterpenoids from the aerial parts of Andrographis paniculata.

Author

Wen Q, Jin X, Lu Y, and Chen DF

Subjects

Animals, Biotransformation, Complement Inactivating Agents chemistry, Diterpenes chemistry, Diterpenes metabolism, Guinea Pigs, Humans, Male, Structure-Activity Relationship, Young Adult, Andrographis chemistry, Complement Inactivating Agents isolation & purification, Diterpenes isolation & purification

Abstract

Bioactivity-guided fractionation resulted in the isolation of two new ent-labdane diterpenoids (1-2), along with eighteen known congeners (3-20) from the aerial parts of Andrographis paniculata. Except andrographolide (3) and isoandrographolide (4), eighteen diterpenoids (1-2, 5-20) exhibited potent anticomplement activity with the CH 50 and AP 50 values of 23.1-638.3 μg/mL and 54.2-603.9 μg/mL, respectively. The structure-activity relationships of the isolates showed that 14-dehydroxylation, glycosidation and the opening of lactone were essential for anticomplement activity. Although inactive, andrographolide (3) was successfully transformed to anticomplement compounds (5 and 10) in vitro by human fecal bacteria, indicating that this major ent-labdane diterpenoid of A. paniculata might also exhibit anticomplement activity in vivo through their potential active metabolites. The targets of several bioactive ent-labdane diterpenoids in complement activation cascade were identified as well., Competing Interests: Declaration of Competing Interest The authors declare no conflicts of interest., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

9. Structural characterization and anticomplement activities of three acidic homogeneous polysaccharides from Artemisia annua.

Author

Huo J, Lu Y, Xia L, and Chen D

Subjects

Animals, Biological Assay, Complement Inactivating Agents chemistry, Complement Inactivating Agents isolation & purification, Complement System Proteins, Drugs, Chinese Herbal chemistry, Drugs, Chinese Herbal isolation & purification, Guinea Pigs, Hemolysis drug effects, Hexuronic Acids chemistry, Hexuronic Acids isolation & purification, Hexuronic Acids pharmacology, Models, Animal, Molecular Structure, Plant Components, Aerial chemistry, Rabbits, Structure-Activity Relationship, Artemisia annua chemistry, Complement Activation drug effects, Complement Inactivating Agents pharmacology, Drugs, Chinese Herbal pharmacology, Polysaccharides pharmacology

Abstract

Ethnopharmacological Relevance: Artemisia annua L. is a heat-clearing Chinese medicine and well-known for its antimalarial constituent, artemisinin. It has gained increasing attention for its anti-inflammatory and immunoregulatory activities. Interestingly, the crude polysaccahrides of A. annua exhibited potent anticomplement activity. This study was to isolate and characterize its anticomplement homogeneous polysaccharides from A. annua, and reveal the relationship between structures and anticomplement activities of the isolated polysaccharides., Materials and Methods: Water-soluble crude polysaccharides from the aerial parts of A. annua were extracted and fractionated by DEAE-cellulose and Sephacryl S-300 gel permeation chromatography. Homogeneity, molecular weight, monosaccharide composition, methylation and NMR analysis were performed to characterize the structures of homogeneous polysaccharides. Their anticomplement activities and targeting components in the complement activation cascade were evaluated by hemolytic assays., Results: Three homogeneous polysaccharides (AAP01-1, AAP01-2 and AAP01-3) were obtained from A. annua. AAP01-1 was composed of seven monosaccharides, including mannose, rhamnose, glucuronic acid, galacturonic acid, glucose, galactose and arabinose. AAP01-2 and AAP01-3 had similar monosaccharides with AAP01-1, except the absence of glucuronic acid. They were all branched acidic heteropolysaccharides with different contents of galacturonic acid (8%, 28% and 15% for AAP01-1, AAP01-2 and AAP01-3, respectively). AAP01-2 showed potent anticomplement activity with CH 50 value of 0.360 ± 0.020 mg/mL through the classical pathway and AP 50 value of 0.547 ± 0.033 mg/mL through the alternative pathway. AAP01-3 exhibited slightly weaker activity (CH 50 : 1.120 ± 0.052 mg/mL, AP 50 : 1.283 ± 0.061 mg/mL), while AAP01-1 was inactive. Moreover, AAP01-2 acted on C1q, C3, C4, C5 and C9 components and AAP01-3 interacted with C3, C4 and C5 components in the activation cascade of complement system., Conclusion: These results indicated that the relatively high contents of galacturonic acid were important for anticomplement activities of the polysaccharides from A. annua. The anticomplement polysaccharides are another kind of bioactive constituents conferring heat-clearing effects of A. annua., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2020

10. Exploring the effective materials of flavonoids-enriched extract from Scutellaria baicalensis roots based on the metabolic activation in influenza A virus induced acute lung injury.

Author

Zhi H, Jin X, Zhu H, Li H, Zhang Y, Lu Y, and Chen D

Subjects

Activation, Metabolic, Acute Lung Injury metabolism, Acute Lung Injury virology, Animals, Complement Inactivating Agents administration & dosage, Complement Inactivating Agents chemistry, Disease Models, Animal, Drugs, Chinese Herbal administration & dosage, Drugs, Chinese Herbal chemistry, Flavonoids administration & dosage, Gastrointestinal Microbiome physiology, Glucuronidase metabolism, Humans, Influenza A virus immunology, Influenza A virus pathogenicity, Influenza, Human metabolism, Influenza, Human virology, Lung pathology, Mice, Plant Roots chemistry, Specific Pathogen-Free Organisms, Acute Lung Injury drug therapy, Complement Inactivating Agents pharmacokinetics, Drugs, Chinese Herbal pharmacokinetics, Flavonoids pharmacokinetics, Influenza, Human drug therapy, Scutellaria baicalensis chemistry

Abstract

Flavonoids-enriched extract from Scutellaria baicalensis roots (FESR) ameliorated influenza A virus (IAV) induced acute lung injury (ALI) in mice by inhibiting the excessive activation of complement system in vivo. However, FESR had no anti-complementary activity in vitro. In order to reveal the effective materials of FESR for the treatment of IAV-induced ALI, the present research explored the metabolic process of FESR both in nomal and IAV infected mice by the method of UHPLC-ESI-LTQ/MS, as well as the metabolic activating mechanism. The results showed that the inactive flavonoid glycosides of FESR were partly metabolized into anti-complementary aglycones in vivo, mainly including 5,7,4'-trihydroxy-8-methoxy-flavone, norwogonin, baicalein, wogonin, oroxylin A and chrysin. Moreover, compared with the normal mice, IAV-induced ALI mice exhibited more efficient on producing and absorbing these active metabolites, with AUC 0-t and C max in plasma and concentrations in lungs and intestines markedly elevated in the IAV treated groups (P <  0.05). Interestingly, the intestinal bacteria from IAV-induced ALI mice showed stronger β-glucuronidase activity and also had higher efficiency on transforming FESR to the flavonoid aglycones. These findings suggested that the anti-complementary aglycones produced by metabolic activation in vivo should be the potential effective materials of FESR against IAV infections, and intestinal bacteria might play an important role on the higher bioavailability of FESR in IAV infected mice. Additionally, the animals under the pathological state are more suitable for the metabolic study of traditional Chinese medicine., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2020

11. Inhibition of complement activation, myeloperoxidase, NET formation and oxidant activity by PIC1 peptide variants.

Author

Hair PS, Enos AI, Krishna NK, and Cunnion KM

Subjects

Amino Acid Sequence, Antioxidants chemistry, Complement Inactivating Agents chemistry, Humans, Oxidation-Reduction drug effects, Peptides chemistry, Sarcosine chemistry, Solubility, Water chemistry, Antioxidants pharmacology, Complement Activation drug effects, Complement Inactivating Agents pharmacology, Extracellular Traps drug effects, Peptides pharmacology, Peroxidase antagonists & inhibitors, Sarcosine pharmacology

Abstract

Background: A product of rational molecular design, PA-dPEG24 is the lead derivative of the PIC1 family of peptides with multiple functional abilities including classical complement pathway inhibition, myeloperoxidase inhibition, NET inhibition and antioxidant activity. PA-dPEG24 is composed of a sequence of 15 amino acid, IALILEPICCQERAA, and contains a monodisperse 24-mer PEGylated moiety at its C terminus to increase aqueous solubility. Here we explore a sarcosine substitution scan of the PA peptide to evaluate impacts on solubility in the absence of PEGylation and functional characteristics., Methods: Sixteen sarcosine substitution variants were synthesized and evaluated for solubility in water. Aqueous soluble variants were then tested in standard complement, myeloperoxidase, NET formation and antioxidant capacity assays., Results: Six sarcosine substitution variants were aqueous soluble without requiring PEGylation. Substitution with sarcosine of the isoleucine at position eight yielded a soluble peptide that surpassed the parent molecule for complement inhibition and myeloperoxidase inhibition. Substitution with sarcosine of the cysteine at position nine improved solubility, but did not otherwise change the functional characteristics compared with the parent compound. However, replacement of both vicinal cysteine residues at positions 9 and 10 with a single sarcosine residue reduced functional activity in most of the assays tested., Conclusions: Several of the sarcosine PIC1 variant substitutions synthesized yielded improved solubility as well as a number of unanticipated structure-function findings that provide new insights. Several sarcosine substitution variants demonstrate increased potency over the parent peptide suggesting enhanced therapeutic potential for inflammatory disease processes involving complement, myeloperoxidase, NETs or oxidant stress., Competing Interests: I have read the journal's policy and the authors of this manuscript have the following competing interests: Kerry Cunnion also serves as Chief Medical Officer for ReAlta Life Sciences. Neel Krishna also serves as Chief Science Officer for ReAlta Life Sciences. This does not alter our adherence to PLoS ONE policies on sharing data and materials.

Published

2019

12. Steroids from herbs of Reineckia carnea and their anticomplement activities.

Author

Xu X, Wu B, Zhan Y, Huang W, Yang S, Wen Q, and Feng Y

Subjects

Animals, Complement Inactivating Agents chemistry, Drug Evaluation, Preclinical methods, Erythrocytes cytology, Erythrocytes drug effects, Guinea Pigs, Magnetic Resonance Spectroscopy, Molecular Structure, Plant Extracts chemistry, Plant Extracts pharmacology, Pregnanes chemistry, Pregnanes pharmacology, Saponins chemistry, Saponins pharmacology, Sheep, Spectrometry, Mass, Electrospray Ionization, Asparagaceae chemistry, Complement Inactivating Agents pharmacology, Steroids chemistry, Steroids pharmacology

Abstract

A new polyhydroxylated pregnane, named lβ,2β,3β,4β,5β,6β-hexolhydroxy-pregn-16-en-20-one ( 1 ), along with nine known ( 2-10 ) steroidal saponins were isolated from the whole plant of Reineckia carnea.  Structure elucidations of all compounds were established by interpretation of their NMR spectral data, HR-ESI-MS and comparing with literatures. In addition, these compounds were evaluated with anticomplement activity. The result showed that compound 1 exhibited anticomplement effects with the CH 50 values of 0.043 mg/mL, but saponins ( 2 - 10 ) showed no inhibition. Interestingly, hydrolysis of steroidal saponins ( 2 - 10 ) resulted in its aglycones ( 2a - 10a ) correspondingly which showed anticomplement activity with the CH 50 values of 0.049-0.156 mg/mL.

Published

2019

13. Understanding the Role of Anti-PEG Antibodies in the Complement Activation by Doxil in Vitro.

Author

Neun BW, Barenholz Y, Szebeni J, and Dobrovolskaia MA

Subjects

Animals, Complement Factor H immunology, Complement Factor I immunology, Doxorubicin pharmacology, Drug Hypersensitivity immunology, Humans, Mice, Antibodies, Monoclonal chemistry, Antibodies, Monoclonal immunology, Complement Activation drug effects, Complement Activation immunology, Complement Inactivating Agents chemistry, Complement Inactivating Agents immunology, Doxorubicin analogs & derivatives, Polyethylene Glycols pharmacology

Abstract

Infusion reactions (IRs) are common immune-mediated side effects in patients treated with a variety of drug products, including, but not limited to, nanotechnology formulations. The mechanism of IRs is not fully understood. One of the best studied mechanisms of IRs to nanomedicines is the complement activation. However, it is largely unknown why some patients develop reactions to nanomedicines while others do not, and why some nanoparticles are more reactogenic than others. One of the theories is that the pre-existing anti-polyethylene glycol (PEG) antibodies initiate the complement activation and IRs in patients. In this study, we investigated this hypothesis in the case of PEGylated liposomal doxorubicin (Doxil), which, when used in a clinical setting, is known to induce IRs; referred to as complement activation-related pseudoallergy (CARPA) in sensitive individuals. We conducted the study in vitro using plasma derived from C57BL/6 mice and twenty human donor volunteers. We used mouse plasma to test a library of well-characterized mouse monoclonal antibodies with different specificity and affinity to PEG as it relates to the complement activation by Doxil. We determined the levels of pre-existing polyclonal antibodies that bind to PEG, methoxy-PEG, and PEGylated liposomes in human plasma, and we also assessed complement activation by Doxil and concentrations of complement inhibitory factors H and I in these human plasma specimens. The affinity, specificity, and other characteristics of the human polyclonal antibodies are not known at this time. Our data demonstrate that under in vitro conditions, some anti-PEG antibodies contribute to the complement activation by Doxil. Such contribution, however, needs to be considered in the context of other factors, including, but not limited to, antibody class, type, clonality, epitope specificity, affinity, and titer. In addition, our data contribute to the knowledge base used to understand and improve nanomedicine safety.

Published

2018

14. Oplopane Sesquiterpenes from Ligularia knorringiana and Their Anti-Complementary Activity.

Author

Dai W, Lu CQ, Wang Y, Lu Y, Chen DF, and Wang Q

Subjects

Animals, Complement Inactivating Agents chemistry, Complement Inactivating Agents isolation & purification, Dose-Response Relationship, Drug, Erythrocytes drug effects, Erythrocytes metabolism, Hemolysis drug effects, Molecular Structure, Plant Roots chemistry, Rhizome chemistry, Sesquiterpenes chemistry, Sesquiterpenes isolation & purification, Sheep, Structure-Activity Relationship, Asteraceae chemistry, Complement Activation drug effects, Complement Inactivating Agents pharmacology, Sesquiterpenes pharmacology

Abstract

Three new oplopane sesquiterpenes, knorringianalarins D - F (1 - 3, respectively), and five known analogues (4 - 8, respectively), were isolated from the roots and rhizomes of Ligularia knorringiana. The structures of three new compounds were identified as 4-acetoxy-11α,12-epoxy-2β-hydroxy-3β-(2-methylbutyryloxy)-9α-(4-methylsenecioyloxy)oplop-10(14)-ene (1), 3β,4-diacetoxy-9α-(4-acetoxy-4-methylsenecioyloxy)-11α,12-epoxy-8α-(2-methylbutyryloxy)oplop-10(14)-ene (2), and (1R,5R,6R,7R,9R)-5,9,11-trihydroxy-4,15-dinoroplop-10(14)-en-3-one (3) based on spectroscopic methods including 1D- and 2D-NMR, mass spectrometry, and CD spectroscopy techniques. All compounds were evaluated for their anti-complementary activity on the classical pathway of the complement system in vitro. Among which, three oplopane sesquiterpenes (3, 7, and 8) exhibited better anti-complementary effects with CH 50 values ranging from 0.33 to 0.89 mm, which are plausible candidates for developing potent anti-complementary agents., (© 2018 Wiley-VHCA AG, Zurich, Switzerland.)

Published

2018

15. A human monoclonal antibody that specifically binds and inhibits the staphylococcal complement inhibitor protein SCIN.

Author

Hoekstra H, Romero Pastrana F, Bonarius HPJ, van Kessel KPM, Elsinga GS, Kooi N, Groen H, van Dijl JM, and Buist G

Subjects

Animals, Antibodies, Bacterial chemistry, Antibodies, Monoclonal chemistry, Antigens, Bacterial chemistry, Catalytic Domain, Complement C3-C5 Convertases metabolism, Complement C3b metabolism, Complement Inactivating Agents chemistry, Fluorescent Dyes chemistry, Humans, Microscopy, Fluorescence, Protein Binding, Rabbits, Virulence Factors chemistry, Antibodies, Bacterial metabolism, Antibodies, Monoclonal metabolism, Antigens, Bacterial metabolism, Complement Inactivating Agents metabolism, Staphylococcal Infections immunology, Staphylococcus aureus pathogenicity, Virulence Factors metabolism

Abstract

Staphylococcus aureus is a serious public health burden causing a wide variety of infections. Earlier detection of such infections could result in faster and more directed therapies that also prevent resistance development. Human monoclonal antibodies (humAbs) are promising tools for diagnosis and therapy owing to their relatively straightforward synthesis, long history of safe clinical use and high target specificity. Here we show that the humAb 6D4, which was obtained from a random screen of B-cells producing antibodies that bind to whole cells of S. aureus, targets the staphylococcal complement inhibitor (SCIN). The epitope recognized by 6D4 was localized to residues 26 to 36 in the N-terminus of SCIN, which overlap with the active site. Accordingly, 6D4 can inhibit SCIN activity as demonstrated through the analysis of C3b deposition on S. aureus cells and complement-induced lysis of rabbit erythrocytes. Importantly, while SCIN is generally regarded as a secreted virulence factor, 6D4 allowed detection of strongly increased SCIN binding to S. aureus cells upon exposure to human serum, relating to the known binding of SCIN to C3 convertases deposited on the staphylococcal cell surface. Lastly, we show that labeling of humAb 6D4 with a near-infrared fluorophore allows one-step detection of SCIN-producing S. aureus cells. Together, our findings show that the newly described humAb 6D4 specifically recognizes S. aureus SCIN, which can potentially be used for detection of human serum-incubated S. aureus strains expressing SCIN.

Published

2018

16. The Structural Basis for Complement Inhibition by Gigastasin, a Protease Inhibitor from the Giant Amazon Leech.

Author

Pang SS, Wijeyewickrema LC, Hor L, Tan S, Lameignere E, Conway EM, Blom AM, Mohlin FC, Liu X, Payne RJ, Whisstock JC, and Pike RN

Subjects

Animals, Catalytic Domain drug effects, Cells, Cultured, Complement Inactivating Agents pharmacology, Endothelium, Vascular drug effects, Humans, Peptides pharmacology, Recombinant Proteins chemistry, Recombinant Proteins pharmacology, Serine Proteinase Inhibitors pharmacology, Complement Activation drug effects, Complement C1 antagonists & inhibitors, Complement Inactivating Agents chemistry, Complement Pathway, Classical drug effects, Complement Pathway, Mannose-Binding Lectin drug effects, Leeches chemistry, Mannose-Binding Protein-Associated Serine Proteases antagonists & inhibitors, Peptides chemistry, Serine Proteinase Inhibitors chemistry

Abstract

Complement is crucial to the immune response, but dysregulation of the system causes inflammatory disease. Complement is activated by three pathways: classical, lectin, and alternative. The classical and lectin pathways are initiated by the C1r/C1s (classical) and MASP-1/MASP-2 (lectin) proteases. Given the role of complement in disease, there is a requirement for inhibitors to control the initiating proteases. In this article, we show that a novel inhibitor, gigastasin, from the giant Amazon leech, potently inhibits C1s and MASP-2, whereas it is also a good inhibitor of MASP-1. Gigastasin is a poor inhibitor of C1r. The inhibitor blocks the active sites of C1s and MASP-2, as well as the anion-binding exosites of the enzymes via sulfotyrosine residues. Complement deposition assays revealed that gigastasin is an effective inhibitor of complement activation in vivo, especially for activation via the lectin pathway. These data suggest that the cumulative effects of inhibiting both MASP-2 and MASP-1 have a greater effect on the lectin pathway than the more potent inhibition of only C1s of the classical pathway., (Copyright © 2017 by The American Association of Immunologists, Inc.)

Published

2017

17. Method development and validation for the quantitation of the complement inhibitor Cp40 in human and cynomolgus monkey plasma by UPLC-ESI-MS.

Author

Primikyri A, Papanastasiou M, Sarigiannis Y, Koutsogiannaki S, Reis ES, Tuplano JV, Resuello RR, Nilsson B, Ricklin D, and Lambris JD

Subjects

Animals, Complement Inactivating Agents chemistry, Complement Inactivating Agents pharmacokinetics, Female, Humans, Linear Models, Macaca fascicularis, Male, Peptides, Cyclic chemistry, Peptides, Cyclic pharmacokinetics, Reproducibility of Results, Sensitivity and Specificity, Solid Phase Extraction, Chromatography, High Pressure Liquid methods, Complement Inactivating Agents blood, Peptides, Cyclic blood, Spectrometry, Mass, Electrospray Ionization methods

Abstract

Cp40 is a 14-amino acid cyclic analog of the peptidic complement inhibitor compstatin that binds with sub-nanomolar affinity to complement component C3 and has already shown promise in various models of complement-related diseases. The preclinical and clinical development of this compound requires a robust, accurate, and sensitive method for quantitatively monitoring Cp40 in biological samples. In this study, we describe the development and validation of an ultra-high performance liquid chromatography electrospray mass spectrometry method for the quantitation of Cp40 in human and non-human primate (NHP) plasma. Isotope-labeled Cp40 was used as an internal standard, allowing for the accurate and absolute quantitation of Cp40. Labeled and non-labeled Cp40 were extracted from plasma using reversed phase-solid phase extraction, with recovery rates exceeding 80%, indicating minor matrix effects. The triply charged states of Cp40 and isotope-labeled Cp40 were detected at m/z 596.60 and 600.34, respectively, via a Q-TOF mass spectrometer and were used for quantitation. The method was linear in the range of 0.18-3.58μg/mL (r 2 ≥0.99), with precision values below 0.71% in NHP and 0.77% in human plasma. The accuracy of the method ranged from -2.17% to 17.99% in NHP and from -0.26% to 15.75% in human plasma. The method was successfully applied to the quantitation of Cp40 in cynomolgus monkey plasma after an initial intravenous bolus of 2mg/kg followed by repetitive subcutaneous administration at 1mg/kg. The high reproducibility, accuracy, and robustness of the method developed here render it suitable for drug monitoring of Cp40, and potentially other compstatin analogs, in both human and NHP plasma samples during pharmacokinetic and pharmacodynamic studies., Competing Interests: Conflict-of-interest disclosure D.R. and J.D.L. are the inventors of patents and/or patent applications that describe the use of complement inhibitors for therapeutic purposes. J.D.L. is the founder of Amyndas Pharmaceuticals, which is developing complement inhibitors for clinical applications. The remaining authors declare no competing financial interests., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2017

18. PASylated Coversin, a C5-Specific Complement Inhibitor with Extended Pharmacokinetics, Shows Enhanced Anti-Hemolytic Activity in Vitro.

Author

Kuhn N, Schmidt CQ, Schlapschy M, and Skerra A

Subjects

Animals, Circular Dichroism, Complement C5 antagonists & inhibitors, Complement Inactivating Agents pharmacokinetics, Erythrocytes drug effects, Female, Hemoglobinuria, Paroxysmal drug therapy, Hemolysis drug effects, Humans, Mice, Inbred BALB C, Mice, Inbred C57BL, Protein Engineering methods, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins pharmacology, Surface Plasmon Resonance, Complement Inactivating Agents chemistry, Complement Inactivating Agents pharmacology

Abstract

The Ornithodoros moubata Complement Inhibitor (OmCI) binds complement component 5 (C5) with high affinity and, thus, selectively prevents proteolytic activation of the terminal lytic complement pathway. A recombinant version of OmCI (also known as Coversin and rEV576) has proven efficacious in several animal models of complement-mediated diseases and successfully completed a phase Ia clinical trial. Coversin is a small 17 kDa lipocalin protein which has a very short plasma half-life if not bound to C5; therefore, the drug requires frequent dosing. We have improved the pharmacokinetics of Coversin by N-terminal translational conjugation with a 600 residue polypeptide composed of Pro, Ala, and Ser (PAS) residues. To this end, PAS-Coversin as well as the unmodified Coversin were functionally expressed in the cytoplasm of E. coli and purified to homogeneity. Both versions showed identical affinity to human C5, as determined by surface plasmon resonance measurements, and revealed similar complement inhibitory activity, as measured in ELISAs with human serum. In line with the PEG-like biophysical properties, PASylation dramatically prolonged the plasma half-life of uncomplexed Coversin by a factor ≥50 in mice. In a clinically relevant in vitro model of the complement-mediated disease paroxysmal nocturnal hemoglobinuria (PNH) both versions of Coversin effectively reduced erythrocyte lysis. Unexpectedly, while the IC 50 values were comparable, PAS-Coversin reached a substantially lower plateau of residual lysis at saturating inhibitor concentrations. Taken together, our data demonstrate two clinically relevant improvements of PASylated Coversin: markedly increased plasma half-life and considerably reduced background hemolysis of erythrocytes with PNH-induced phenotype.

Published

2016

19. Structural basis for therapeutic inhibition of complement C5.

Author

Jore MM, Johnson S, Sheppard D, Barber NM, Li YI, Nunn MA, Elmlund H, and Lea SM

Subjects

Amino Acid Sequence, Animals, Arthropod Proteins chemistry, Binding Sites, Complement C5 chemistry, Conserved Sequence, Humans, Models, Molecular, Protein Binding, Protein Conformation, alpha-Helical, Protein Interaction Domains and Motifs, Protein Structure, Quaternary, Rhipicephalus, Antibodies, Monoclonal, Humanized chemistry, Complement C5 antagonists & inhibitors, Complement Inactivating Agents chemistry

Abstract

Activation of complement C5 generates the potent anaphylatoxin C5a and leads to pathogen lysis, inflammation and cell damage. The therapeutic potential of C5 inhibition has been demonstrated by eculizumab, one of the world's most expensive drugs. However, the mechanism of C5 activation by C5 convertases remains elusive, thus limiting development of therapeutics. Here we identify and characterize a new protein family of tick-derived C5 inhibitors. Structures of C5 in complex with the new inhibitors, the phase I and phase II inhibitor OmCI, or an eculizumab Fab reveal three distinct binding sites on C5 that all prevent activation of C5. The positions of the inhibitor-binding sites and the ability of all three C5-inhibitor complexes to competitively inhibit the C5 convertase conflict with earlier steric-inhibition models, thus suggesting that a priming event is needed for activation.

Published

2016

20. Creating functional sophistication from simple protein building blocks, exemplified by factor H and the regulators of complement activation.

Author

Makou E, Herbert AP, and Barlow PN

Subjects

Animals, Binding Sites, Complement Activating Enzymes genetics, Complement Activating Enzymes metabolism, Complement Factor H chemistry, Complement Factor H genetics, Complement Factor H metabolism, Complement Inactivating Agents chemistry, Complement Inactivating Agents metabolism, Complement Inactivating Agents pharmacology, Complement Inactivator Proteins genetics, Complement Inactivator Proteins metabolism, Humans, Peptide Fragments chemistry, Peptide Fragments genetics, Peptide Fragments metabolism, Protein Conformation, Protein Interaction Domains and Motifs, Recombinant Fusion Proteins chemistry, Recombinant Fusion Proteins metabolism, Recombinant Fusion Proteins pharmacology, Complement Activating Enzymes chemistry, Complement Activation, Complement Inactivator Proteins chemistry, Drug Design, Models, Molecular, Protein Engineering

Abstract

Complement control protein modules (CCPs) occur in numerous functionally diverse extracellular proteins. Also known as short consensus repeats (SCRs) or sushi domains each CCP contains approximately 60 amino acid residues, including four consensus cysteines participating in two disulfide bonds. Varying in length and sequence, CCPs adopt a β-sandwich type fold and have an overall prolate spheroidal shape with N- and C-termini lying close to opposite poles of the long axis. CCP-containing proteins are important as cytokine receptors and in neurotransmission, cell adhesion, blood clotting, extracellular matrix formation, haemoglobin metabolism and development, but CCPs are particularly well represented in the vertebrate complement system. For example, factor H (FH), a key soluble regulator of the alternative pathway of complement activation, is made up entirely from a chain of 20 CCPs joined by short linkers. Collectively, therefore, the 20 CCPs of FH must mediate all its functional capabilities. This is achieved via collaboration and division of labour among these modules. Structural studies have illuminated the dynamic architectures that allow FH and other CCP-rich proteins to perform their biological functions. These are largely the products of a highly varied set of intramolecular interactions between CCPs. The CCP can act as building block, spacer, highly versatile recognition site or dimerization mediator. Tandem CCPs may form composite binding sites or contribute to flexible, rigid or conformationally 'switchable' segments of the parent proteins., (© 2015 Authors; published by Portland Press Limited.)

Published

2015

21. Hematopoietic stem cell transplantation-associated thrombotic microangiopathy accompanied by renal arteriolar C4d deposition.

Author

Sakamoto K, Imamura T, Osone S, Nishimura A, Nishida M, Ishida H, and Hosoi H

Subjects

Antibodies, Monoclonal, Humanized therapeutic use, Biomarkers, Biopsy, Child, Complement Inactivating Agents chemistry, Humans, Kidney immunology, Leukemia, Myeloid, Acute etiology, Male, Precursor B-Cell Lymphoblastic Leukemia-Lymphoma therapy, Prognosis, Remission Induction, Thrombotic Microangiopathies immunology, Treatment Outcome, Complement C4b chemistry, Hematopoietic Stem Cell Transplantation adverse effects, Peptide Fragments chemistry, Renal Artery metabolism, Thrombotic Microangiopathies etiology

Abstract

HSCT-associated thrombotic microangiopathy (TA-TMA) is a severe complication with a poor prognosis. Recently, it has been reported that complement system dysregulation, such as CFH autoantibodies and deletions CFH-related genes 3 and 1, induced TA-TMA. In addition, C4d-positive renal arterioles are both a good marker of complement system activation and a useful diagnostic tool for TA-TMA. Because dysregulation of the complement system is associated with TA-TMA, the complement system might be a therapeutic target, such as eculizumab, a terminal complement inhibitor. Herein, we describe an eight-yr-old boy who developed TA-TMA accompanied by severe renal dysfunction. His renal specimen showed diffuse C4d deposition in the renal arterioles, which is consistent with TA-TMA. Although the patient gradually improved without eculizumab, renal arteriolar C4d staining in sample with TA-TMA shows the complement system activation and may guide the target therapy using the eculizumab., (© 2015 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2015

22. Adeno-associated virus mediated delivery of an engineered protein that combines the complement inhibitory properties of CD46, CD55 and CD59.

Author

Leaderer D, Cashman SM, and Kumar-Singh R

Subjects

Animals, CD55 Antigens chemistry, CD59 Antigens chemistry, Dependovirus, Genetic Vectors, Humans, Membrane Cofactor Protein chemistry, Mice, Protein Structure, Tertiary genetics, CD55 Antigens genetics, CD59 Antigens genetics, Complement Activation genetics, Complement Inactivating Agents administration & dosage, Complement Inactivating Agents chemistry, Membrane Cofactor Protein genetics, Transgenes

Abstract

Background: A variety of disorders are associated with the activation of complement. CD46, CD55 and CD59 are the major membrane associated regulators of complement on human cells. Previously, we have found that independent expression of CD55, CD46 or CD59 through gene transfer protects murine tissues against human complement mediated attack. In the present study, we investigated the potential of combining the complement regulatory properties of CD46, CD55 and CD59 into single gene products expressed from an adeno-associated virus (AAV) vector in a soluble non-membrane anchored form., Methods: Minigenes encoding the complement regulatory domains from CD46, CD55 and CD59 (SACT) or CD55 and CD59 (DTAC) were cloned into an AAV vector. The specific regulatory activity of each component of SACT and DTAC was measured in vitro. The recombinant AAV vectors were injected into the peritoneum of mice and the efficacy of the transgene products for being able to protect murine liver vasculature against human complement, specifically the membrane attack complex (MAC), was measured., Results: SACT and DTAC exhibited properties similar to CD46, CD55 and CD59 or CD55 and CD59, respectively, in vitro. AAV mediated delivery of SACT or DTAC protected murine liver vasculature from human MAC deposition by 63.2% and 56.7%, respectively., Conclusions: When delivered to mice in vivo via an AAV vector, SACT and DTAC are capable of limiting human complement mediated damage. SACT and DTAC merit further study as potential therapies for complement mediated disorders when delivered via a gene therapy approach., (Copyright © 2015 John Wiley & Sons, Ltd.)

Published

2015

23. Anti-complement sesquiterpenes from Viola yedoensis.

Author

Du D, Cheng Z, and Chen D

Subjects

Adult, Animals, Complement Inactivating Agents isolation & purification, Guinea Pigs, Humans, Molecular Structure, Rabbits, Sesquiterpenes isolation & purification, Complement Activation drug effects, Complement Inactivating Agents chemistry, Sesquiterpenes chemistry, Viola chemistry

Abstract

Two new germacrane sesquiterpenes, yedoensins A (1) and B (2), together with 8 known ones (3-10) were isolated from the herb of Viola yedoensis. The structures of the new compounds were established by extensive spectroscopic means including 1D ((1)H and (13)C) and 2D NMR experiments (HSQC, HMBC, and NOESY) as well as HR-ESI-MS analysis. The absolute configurations of the known sesquiterpenes versicolactone B (3) and madolin W (6) were determined by a modified Mosher's method for the first time. The sesquiterpenes 1-3, and 5-9 exhibited anti-complement activity against the classical pathway (CP) and the alternative pathway (AP) with the CH50 and AP50 values ranging from 0.14 to 0.37mg/mL and 0.32 to 0.54mg/mL, respectively. Preliminary mechanism study using complement-depleted sera showed that yedoensin A (1) and versicolactone B (3) acted on C1q, C3 and C9, while madolin W (6), aristoyunnolin E (7) and madolin Y (9) interacted with C1q, C3, C5 and C9 components in the complement activation cascade., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2015

24. [Anti-complementary phenolic acids from Lonicera japonica].

Author

Ni FY, Liu L, Song YL, Wang XJ, Zhao YW, Huang WZ, Wang ZZ, and Xiao W

Subjects

Complement Inactivating Agents chemistry, Complement Inactivating Agents pharmacology, Hydroxybenzoates chemistry, Hydroxybenzoates pharmacology, Complement Inactivating Agents isolation & purification, Hydroxybenzoates isolation & purification, Lonicera chemistry

Abstract

Objective: To study the anti-complementary phenolic acids from Lonicera japonica., Method: The anti-complementary activity-directed isolation was carried out with the hemolysis test as guide. All isolation was evaluated for their in vitro anti-complementary activities. The structures were identified by various spectroscopic data including ESI-MS, 1H-NMR, 13C-NMR data., Result: Fourteen compounds were isolated from the EtOAc fraction of L. japonica extracts, including 8 phenolic acids: 5-O-caffeoylquinic acid (1), chlorogenic (2), 4-O-caffeoylquinic acid (3), 3,5-di-O-caffeoylquinic acid (4), 4,5-di-O-caffeoylquinic acid (5), 3,4-di-O-caffeoylquinic acid (6), caffeic acid (7) and methyl caffeate acid (8); 3 iridoids: secologanoside (9), sweroside (10) and secoxyloganin (11); and 3 flavonoids: luteolin (12), quercetin (13) and kaempferol (14). Compounds 1-9 and 11-14 showed anti-complementary activity in different extents and 3,5-di-O-caffeoylquinic acid (4) exhibited the most significant activity against the classical pathway., Conclusion: Compound 14 is obtained from this plant for the first time, phenolic acids are the main anti-complementary constituents of L. japonica and 3,5-di-O-caffeoylquinic acid(4) is a potential complement inhibitor with strong activity, which worthy to be studied further in the future.

Published

2015

25. CD59: A long-known complement inhibitor has advanced to a blood group system.

Author

Weinstock C, Anliker M, and von Zabern I

Subjects

Humans, Blood Group Antigens chemistry, Blood Group Antigens immunology, CD59 Antigens chemistry, CD59 Antigens immunology, Complement Inactivating Agents chemistry, Complement Inactivating Agents immunology

Abstract

The blood group system number 35 is based on CD59, a 20-kDa membrane glycoprotein present on a large number of different cells, including erythrocytes. The major function of CD59 is to protect cells from complement attack. CD59 binds to complement components CS and C9 and prevents the polymerization of C9, which is required for the formation of the membrane attack complex (MAC). Other functions of CD59 in cellular immunity are less well defined. CD59 is inserted into the membrane by a glycosylphosphatidylinositol (GPI) anchor. A defect of this anchor causes lack of this protein from the cell membrane, which leads to an enhanced sensitivity towards complement attack. Patients with paroxysmal nocturnal hemoglobinuria (PNH) harbor a varying percentage of red blood cell clones with a defect in GPI-anchored proteins, including CD59. The most characteristic symptoms of this disease are episodes of hemolysis and thromboses. Although CD59 has been classified as a membrane protein for more than 25 years, an alloantibody directed against CD59 was found only recently. So far, the first and sole alloantibody described was detected in a CD59-deficient child. In 2014, CD59 received the status of a blood group system by the International Society for Blood Transfusion Red Cell Immunogenetics and Blood Group Terminology Working Party. Among a variety of almost 20 synonyms, the designation CD59 was chosen for the blood group system and CD59.l for the wild-type protein. The only three alleles published to date are null alleles. All CD59-deficient individuals recognized so far were severely ill, two of whom have died. Most of the reported cases present with a typical clinical picture within the first year of life that includes neuropathy, strokes, and mild Coombs-negative hemolysis. In one published case, the application of the complement inhibitor eculizumab caused a pronounced improvement of the clinical situation.

Published

2015

26. In vitro human fecal microbial metabolism of Forsythoside A and biological activities of its metabolites.

Author

Xing S, Peng Y, Wang M, Chen D, and Li X

Subjects

Adult, Animals, Anti-Infective Agents chemistry, Chromatography, High Pressure Liquid, Complement Inactivating Agents chemistry, Female, Guinea Pigs, Humans, Male, Mass Spectrometry, Microbiota, Middle Aged, Molecular Structure, Phenylethyl Alcohol chemistry, Young Adult, Caffeic Acids chemistry, Feces microbiology, Glycosides metabolism, Phenylethyl Alcohol analogs & derivatives

Abstract

The present study aimed to investigate the metabolism of Forsythoside A (FTA) by human fecal bacteria to clarify the relationship between its intestinal metabolism and its pharmacological activities. FTA was incubated with human fecal microflora in vitro to investigate its metabolic process, and highly sensitive and specific ultra-performance liquid chromatography/quadrupole time-of-flight mass spectrometry (UPLC-Q-TOF/MS) was performed using MetaboLynx software for metabolite analysis. Caffeic acid (CA) and hydroxytyrosol (HT) were obtained by hydrolysis of FTA, and CA was further hydrogenated to form 3,4-dihydroxybenzenepropionic acid (DCA). The anticomplementary, antimicrobial and antiendotoxin activities of FTA and its metabolites by human fecal microflora were evaluated in vitro with a hemolysis assay, the agar disc-diffusion method, the MIC value and the gel clot LAL assay, respectively. The metabolites showed higher biological activity than FTA, especially HT and DCA. Orally administered FTA may be metabolized to HT and DCA, and the pharmacological effects of FTA may be dependent on intestinal bacterial metabolism., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2014

27. Humanized cobra venom factor: structure, activity, and therapeutic efficacy in preclinical disease models.

Author

Vogel CW, Finnegan PW, and Fritzinger DC

Subjects

Animals, Complement Inactivating Agents chemistry, Complement Inactivating Agents pharmacology, Complement Inactivating Agents therapeutic use, Drug Evaluation, Preclinical, Elapid Venoms therapeutic use, Humans, Elapid Venoms chemistry, Elapid Venoms pharmacology, Recombinant Fusion Proteins

Abstract

The complement system is an integral component of both innate and adaptive immunity. However, complement is also a pathogenetic factor in many diseases. The development of agents for therapeutic complement inhibition is the topic of intense investigations by many investigators. We have developed a distinctly different therapeutic approach: complement depletion rather than inhibition. This approach is based on cobra venom factor (CVF), a C3 analog known to be able to safely deplete complement. This manuscript will briefly review the structure and activity of CVF, along with its similarities and differences to C3. Exploiting the knowledge of the structure/function relationship of CVF and C3, we created derivatives of human C3 which display the CVF-like activity of depleting complement, referred to as humanized CVF (hCVF). This review describes the structure and activity of hCVF, including the important property of not cleaving C5. The efficacy of hCVF for therapeutic complement depletion in nine preclinical models diseases with complement pathology is reviewed, including reperfusion injury, age-related macular degeneration (AMD), paroxysmal nocturnal hemoglobinuria (PNH), and immunogenicity of Factor VIII in hemophilia A. Complement depletion is characterized by the absence of toxicity, even after intra-arterial injection into the pulmonary artery of primates. No immunogenicity has been observed., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

28. Cycloartane-type triterpene glycosides from Beesia calthaefolia and their anticomplement activity.

Author

Mu LH, Li HJ, Guo DH, Zhao JY, and Liu P

Subjects

Complement Inactivating Agents pharmacology, Complement Inactivating Agents chemistry, Glycosides chemistry, Glycosides pharmacology, Ranunculaceae chemistry, Triterpenes chemistry, Triterpenes pharmacology

Abstract

Two new 9,19-cycloartane triterpenes (1, 2), together with three known compounds (3-5), were isolated from the whole plant of Beesia calthaefolia. Their structures were determined by the application of spectroscopic analyses and chemical methods. Compound 1 showed moderate anticomplement activity similar to that of the positive control (rosmarinic acid), while compounds 3 and 4 showed weak activity. The results suggest that 6'-O-(4″-hydroxy-3″-methoxy-benzoyl)-β-D-glucosyl of 9,19-cycloartane-type triterpenoids could be a structure that is essential for anticomplement activity.

Published

2014

29. Two new phenolic glycosides from Gnaphalium affine D. Don and their anti-complementary activity.

Author

Li J, Huang D, Chen W, Xi Z, Chen C, Huang G, and Sun L

Subjects

Complement Inactivating Agents chemistry, Glycosides analysis, Glycosides isolation & purification, Medicine, Chinese Traditional, Phenols analysis, Phenols chemistry, Plant Preparations analysis, Plant Preparations chemistry, Plant Preparations pharmacology, Spectrometry, Mass, Electrospray Ionization, Complement Inactivating Agents pharmacology, Complement System Proteins drug effects, Glycosides pharmacology, Gnaphalium metabolism, Phenols pharmacology

Abstract

Two new phenolic glycosides, named gnaphaffine A and B (compounds 1 and 2), were isolated from Gnaphalium affine. together with six known compounds, including caffeic acid (3), everlastoside L (4), isorhamnetin-7-O-β-D-glucopyranoside (5), quercetin- 3-O-β-D-glucopyranoside (6), scutellarein-7-O-β-D-glucoside (7) and api-genin-7-O-β-D- glucopyranoside (8). Their structures were elucidated by spectroscopic methods, including ESI-MS and 2D NMR spectroscopy (HMQC and HMBC). All compounds were evaluated for their anti-complementary activity on the classical pathway of the complement system in vitro.

Published

2013

30. [Anti-complementary constituents of Pogostemon cablin].

Author

Ruan SN, Lu Y, and Chen DF

Subjects

Complement Inactivating Agents chemistry, Complement Inactivating Agents pharmacology, Complement Inactivating Agents isolation & purification, Lamiaceae chemistry

Abstract

Guided by anti-complementary activity, silica gel, Sephadex LH-20 and reversed-phase column chromatographies were used for fractionation and isolation of the ethyl acetate and n-butanol soluble fractions of Pogostemon cablin. Eighteen compounds were obtained, including 15 flavonoids: 5-hydroxy-3,7,3',4'-tetramethoxyflavone (1), 5-hydroxy-7,3',4'-trimethoxyflavanone (2), 5,4'-dihydroxy-3,7,3'-trimethoxyflavone (3), 5-hydroxy-3,7,4'-trimethoxyflavone (4), 5,4'-dihydroxy-7,3'-dimethoxyflavone (5), luteolin (6), quercetin-7,3', 4'-trimethyl ether (7), ermanine (8), 3,5,7- trihydroxy-3', 4'-dimethoxyflavone (9), quercetin (10), apigenin (11), kaempferol (12), 5-hydroxy-7,3',4'-trimethoxyflavone (13), kaempferol-7-O-beta-D-glucopyranoside (14) and kaempferol-3-O-beta-D-glucopyranoside-7-O-alpha-L-rhamnoside (15); one triterpenoid: oleanic acid (16); and 2 phenolic acids: vanillic acid (17) and benzylalcohol (18). The isolation of 5, 7, 8, 12-15 and 18 from the Pogostemon genus is reported for the first time. All isolates were evaluated for their in vitro anti-complementary activities on the classical pathway and alternative pathway. And the targets of the most potent constituent in complement activation cascade were identified using complement-depleted sera. Compounds 3, 7, 10, 12 and 16 exhibited anti-complementary activities toward the classical pathway and alternative pathway (CH50 0.072-1.08 g x L(-1), AP50 0.39-0.49 g x L(-1)), while 5 and 6 showed inhibitory effect on the classical pathway only. Mechanism study indicated that 7 interacted with C1q, C2, C5 and C9 components.

Published

2013

31. Isolation of an anti-complementary polysaccharide from the root of Bupleurum chinense and identification of its targets in complement activation cascade.

Author

DI HY, Zhang YY, and Chen DF

Subjects

Adult, Carbohydrate Sequence, Complement Inactivating Agents chemistry, Complement Inactivating Agents isolation & purification, Hemolysis drug effects, Humans, Male, Molecular Weight, Plant Extracts chemistry, Plant Extracts isolation & purification, Polysaccharides chemistry, Polysaccharides isolation & purification, Bupleurum chemistry, Complement Activation drug effects, Complement Inactivating Agents pharmacology, Plant Extracts pharmacology, Plant Roots chemistry, Polysaccharides pharmacology

Abstract

Aim: To isolate and characterize the anti-complementary polysaccharide from the root of Bupleurum chinense., Methods: Bioactivity-guided fractionation and purification was used to obtain the anti-complementary polysaccharide from the hot-water extract of the root of Bupleurum chinense. The polysaccharide was characterized by various chemical and spectral analyses. The anti-complementary activities were evaluated by hemolytic assay in vitro. The action targets were identified in the system with individual complement-depleted sera., Results: A homogeneous polysaccharide BC-PS2 was isolated as an anti-complementary agent. It was identified as a branched polysaccharide with an average molecular weight about 2 000 KDa, composed of Glc, Ara, Gal, and Man in the ratio 3.5 : 2.4 : 2.0 : 1.0, respectively, along with a trace of Rha and Xyl, and only 1.11% of protein. The main linkages of the residues of BC-PS2 include terminal, 1, 6-linked, 1, 3-linked and 1, 3, 6-linked Glcp, terminal and 1, 5-linked Araf, terminal, 1, 4-linked, 1, 6-linked and 1, 4, 6-linked Galp, terminal, and, 1, 4-linked and 1, 4, 6-linked Manp. The bioassay experiments revealed that BC-PS2 inhibited complement activation on both the classical and alternative pathways, with CH50 and AP50 of (0.222 ± 0.013) and (0.356 ± 0.032) mg·mL(-1), respectively. Preliminary mechanism studies indicated that BC-PS2 interacted with C1q, C2, and C9 components., Conclusion: The results demonstrated that BC-PS2 is an anti-complementary polysaccharide, and should be important constituent of the root of Bupleurum chinense for its application in the treatment of diseases associated with the excessive activation of complement system., (Copyright © 2013 China Pharmaceutical University. Published by Elsevier B.V. All rights reserved.)

Published

2013

32. [Chemical constituents of Rabdosia japonica var. glaucocalyx and their anti-complementary activity].

Author

Yao S, Xu NY, Chu CJ, Zhang J, and Chen DF

Subjects

Animals, Chromatography, Chromatography, High Pressure Liquid, Complement Inactivating Agents chemistry, Cricetinae, Drugs, Chinese Herbal isolation & purification, Erythrocytes drug effects, Esters, Ethylenes pharmacology, Female, Magnetic Resonance Spectroscopy, Male, Plant Components, Aerial chemistry, Plant Growth Regulators pharmacology, Sheep, Spectrometry, Mass, Electrospray Ionization, Antioxidants pharmacology, Caffeic Acids pharmacology, Complement Hemolytic Activity Assay methods, Complement Inactivating Agents pharmacology, Drugs, Chinese Herbal chemistry, Isodon chemistry

Abstract

To study the chemical constituents of Rabdosia japonica var. glaucocalyx and their anti-complementary activity on the basis of preliminary studies. Target isolation guided by anti-complementary activity test, compounds in the chloroform and n-butanol fractions were isolated and purified by silica gel and Sephadex LH-20 column chromatographies, and preparative HPLC. The structures were identified by various spectroscopic data including ESI-MS, 1H-NMR and 13C-NMR data. The compounds were evaluated for anti-complementary activity in vitro. Eleven compounds were isolated from the chloroform and n-butanol soluble fractions and identified as stigmasterol (1), stigmas-9 (11) -en-3-ol (2), glaucocalyxin D (3), kamebakaurin (4), maslinic acid (5), corosolic acid (6), minheryins I (7), diosmetin (8), caffeic acid ethylene ester (9), caffeic acid (10) and vitexin (11). Isoquercetrin, rutin, quercetin, 3-methylquercetin, luteolin, 7-methylluteolin, and apigenin which were isolated from the preliminary studies together with compounds 9 and 10 showed inhibition of the complement system by the classical pathway. Compounds 2, 4, 6-9 and 11 were obtained from this plant for the first time. Caffeic acid (10) showed the strongest activity in vitro with a CH50 value of 0.041 g x L(-1).

Published

2013

33. Retrieving novel C5aR antagonists using a hybrid ligand-based virtual screening protocol based on SVM classification and pharmacophore models.

Author

Qing XY, Zhang CH, Li LL, Ji P, Ma S, Wan HL, Wang ZR, Zou J, and Yang SY

Subjects

Drug Evaluation, Preclinical methods, Humans, Inhibitory Concentration 50, Ligands, Models, Chemical, Receptor, Anaphylatoxin C5a, Receptors, Complement chemistry, Small Molecule Libraries, Structural Homology, Protein, Support Vector Machine, Complement Inactivating Agents chemistry, Molecular Docking Simulation, Receptors, Complement antagonists & inhibitors

Abstract

C5aR antagonists have been thought as potential immune mediators in various inflammatory and autoimmune diseases, and discovery of C5aR antagonists has attracted much attention in recent years. The discovery of C5aR antagonists was usually achieved through high-throughput screening, which usually suffered a high cost and a low success rate. Currently, the fast developing computer-aided virtual screening (VS) methods provide economic and rapid approaches to the lead discovery. In this account, we proposed a hybrid ligand-based VS protocol that is based on support vector machine (SVM) classification and pharmacophore models for retrieving novel C5aR antagonists. Performance evaluation of this hybrid VS protocol in virtual screening against a large independent test set, T-CHEM, showed that the hybrid VS approach significantly increased the hit rate and enrichment factor compared with the individual SVM classification model-based VS and pharmacophore model-based VS, as well as molecular docking-based VS in that the receptor structure was created by homology modeling. The hybrid VS approach was then used to screen several large chemical libraries including PubChem, Specs, and Enamine. Finally, a total of 20 compounds were selected from the top ranking hits, and shifted to the subsequent in vitro and in vivo studies, which results will be reported in the near future.

Published

2013

34. Flavone C-glycosides from the flowers of Trollius chinensis and their anti-complementary activity.

Author

Liu JY, Li SY, Feng JY, Sun Y, Cai JN, Sun XF, and Yang SL

Subjects

Complement Inactivating Agents chemistry, Drugs, Chinese Herbal chemistry, Flavones chemistry, Flowers chemistry, Glycosides chemistry, Molecular Structure, Nuclear Magnetic Resonance, Biomolecular, Complement Inactivating Agents isolation & purification, Complement Inactivating Agents pharmacology, Drugs, Chinese Herbal isolation & purification, Drugs, Chinese Herbal pharmacology, Flavones isolation & purification, Flavones pharmacology, Glycosides isolation & purification, Glycosides pharmacology, Ranunculaceae chemistry

Abstract

Phytochemical investigation of ethanol extract from the flowers of Trollius chinensis Bunge resulted in the isolation of two new flavone C-glycosides (1-2), along with 10 known compounds (3-12). The structures of the new compounds were established as 6‴-(3-hydroxy-3-methylglutaroyl)-2″-O-β-d-galactopyranosyl orientin (1) and 6‴-(3-hydroxy-3-methylglutaroyl)-2″-O-β-d-galactopyranosyl vitexin (2) on the basis of various spectroscopic analysis (including different 1D and 2D NMR spectroscopies, high-resolution electrospray ionization mass spectrometry) and chemical evidences. Bioassay showed that eight flavonoids inhibited complement activation on the classic pathway in vitro, with their IC50 values ranging from 0.88 to 4.02 mM, which may contribute to the applications of the herb in treatment of acute respiratory distress syndrome, etc.

Published

2013

35. Molecular cloning and characterization of a complement-depleting factor from king cobra, Ophiophagus hannah.

Author

Zeng L, Sun QY, Jin Y, Zhang Y, Lee WH, and Zhang Y

Subjects

Amino Acid Sequence, Animals, Base Sequence, China, Complement Inactivating Agents isolation & purification, Complement Inactivating Agents metabolism, Cysteine analysis, Elapid Venoms genetics, Elapid Venoms metabolism, Elapid Venoms pharmacology, Erythrocytes drug effects, Humans, Lectins, C-Type genetics, Lectins, C-Type metabolism, Molecular Sequence Data, Molecular Weight, Oxidation-Reduction, Phylogeny, Protein Subunits chemistry, Protein Subunits genetics, Protein Subunits isolation & purification, Protein Subunits metabolism, Recombinant Proteins chemistry, Recombinant Proteins isolation & purification, Recombinant Proteins metabolism, Recombinant Proteins pharmacology, Reptilian Proteins genetics, Reptilian Proteins metabolism, Sequence Alignment, Sequence Homology, Amino Acid, Sheep, Domestic, Complement Inactivating Agents chemistry, Complement Inactivating Agents pharmacology, Elapid Venoms chemistry, Elapidae metabolism, Lectins, C-Type chemistry, Reptilian Proteins chemistry, Reptilian Proteins pharmacology

Abstract

Cobra venom factor (CVF) is an anti-complement factor existing in cobra venom. CVF proteins have been purified from the venoms of Naja haje, Naja siamensis, Naja atra, Naja kaouthia, Naja naja, Naja melanoleuca and Austrelaps superbus, but only three full-length cDNA sequences of CVF are available. In the present work, a cobra venom factor termed OVF was purified from the crude venom of Ophiophagus hannah by successive gel filtration, ion-exchange and heparin affinity chromatography steps. The purified OVF was homogenous on the SDS-PAGE gel with an apparent molecular weight of 140 kDa under non-reducing conditions. Under reducing conditions, OVF was divided into three bands with apparent molecular weight of 72 kDa (α chain), 45 kDa (β chain) and 32 kDa (γ chain), respectively. OVF consumed complement components with anti-complement activity of 154 units per mg. By using Reverse transcription-PCR and 5'-RACE assay, the open reading frame of OVF was obtained. MALDI-TOF and protein sequencing assays confirmed the cloned cDNA coding for OVF protein. The cDNA sequence of OVF is conservative when aligned with that of other CVFs. Phylogenetic analysis revealed OVF is closer to CVF from N. kaouthia than to AVF-1 and AVF-2 from A. superbus. Our results demonstrated that OVF has its unique features as following: 1) The N-terminal amino acid sequence of OVF γ chain is different from that of other known CVFs, suggesting that the OVF γ chain might be further processed; 2) Unlike N. kaouthia CVF and A. superbus AVF-1, which have potential N-linked glycosylation sites located in both α and β chain, OVF only has N-linked glycosylation site in its α chain as revealed by Schiff's reagent staining and protein sequence analysis; 3) In addition to the 27 well conserved cysteine residues in all known CVFs, OVF have an additional cysteine residue in its γ chain. Understanding the importance of above mentioned specific characteristics might provide useful information on structure-function relationship between CVF and complement system., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2012

36. Structural characterization of a homogalacturonan from Capparis spinosa L. fruits and anti-complement activity of its sulfated derivative.

Author

Wang H, Wang H, Shi S, Duan J, and Wang S

Subjects

Animals, Anticoagulants chemistry, Blood Coagulation, Chromatography, Complement Inactivating Agents isolation & purification, Complement System Proteins metabolism, Erythrocytes chemistry, Heparin chemistry, Magnetic Resonance Spectroscopy, Pectins isolation & purification, Plant Extracts chemistry, Rabbits, Sheep, Capparis chemistry, Complement Inactivating Agents chemistry, Complement System Proteins chemistry, Fruit chemistry, Pectins chemistry, Sulfuric Acid Esters chemistry

Abstract

A water-soluble polysaccharide CSPS-2B-2 with a molecular mass of 8.8 kDa, was obtained from the fruits of Capparis spinosa L. Chemical and NMR spectral analysis verified CSPS-2B-2 was a linear poly-(1-4)-α-D-galactopyranosyluronic acid in which 12.9±0.4% of carboxyl groups existed as methyl ester and 2.6±0.1% of D-GalpA residues were acetylated. A sulfated derivative Sul-2B-2 with a sulfation degree of 0.88±0.02 was prepared via the substitution of C-2 and/or C-3 of GalpA residues in CSPS-2B-2. Bioassay on the complement and coagulation system demonstrated that Sul-2B-2 (CH(50): 3.5±0.2 μg/mL) had a stronger inhibitory effect on the activation of complement system through the classic pathway than that of heparin (CH(50): 8.9±0.3 μg/mL). Interestingly, Sul-2B-2 at low dose even middle dose (for example 52 μg/mL) had no effect on coagulation system, which was totally different from heparin. Thus, our observation indicated that Sul-2B-2 was more efficient than heparin in inhibiting the activation of the complement system through classical pathway and exhibiting a relatively less anti-coagulant activity. These results suggested that the sulfated derivative Sul-2B-2 prepared from the homogalacturonan in the fruits of Capparis spinosa L, might be a promising drug candidate in case of necessary therapeutic complement inhibition.

Published

2012

37. A targeted complement-dependent strategy to improve the outcome of mAb therapy, and characterization in a murine model of metastatic cancer.

Author

Elvington M, Huang Y, Morgan BP, Qiao F, van Rooijen N, Atkinson C, and Tomlinson S

Subjects

Animals, Antibodies, Monoclonal chemistry, Complement Inactivating Agents chemistry, Complement System Proteins metabolism, Complement System Proteins physiology, Disease Models, Animal, Immunoconjugates chemistry, Immunoconjugates therapeutic use, Immunoglobulin G administration & dosage, Immunoglobulin G chemistry, Immunotherapy methods, Lymphoma drug therapy, Lymphoma pathology, Lymphoma therapy, Male, Melanoma, Experimental drug therapy, Melanoma, Experimental pathology, Melanoma, Experimental therapy, Mice, Mice, Inbred C57BL, Mice, Transgenic, Molecular Targeted Therapy, Neoplasm Metastasis, Neoplasms pathology, Receptors, Complement 3d administration & dosage, Receptors, Complement 3d chemistry, Recombinant Fusion Proteins administration & dosage, Recombinant Fusion Proteins chemistry, Recombinant Fusion Proteins therapeutic use, Signal Transduction drug effects, Treatment Outcome, Antibodies, Monoclonal administration & dosage, Complement Inactivating Agents administration & dosage, Neoplasms therapy

Abstract

Complement inhibitors expressed on tumor cells provide an evasion mechanism against mAb therapy and may modulate the development of an acquired antitumor immune response. Here we investigate a strategy to amplify mAb-targeted complement activation on a tumor cell, independent of a requirement to target and block complement inhibitor expression or function, which is difficult to achieve in vivo. We constructed a murine fusion protein, CR2Fc, and demonstrated that the protein targets to C3 activation products deposited on a tumor cell by a specific mAb, and amplifies mAb-dependent complement activation and tumor cell lysis in vitro. In syngeneic models of metastatic lymphoma (EL4) and melanoma (B16), CR2Fc significantly enhanced the outcome of mAb therapy. Subsequent studies using the EL4 model with various genetically modified mice and macrophage-depleted mice revealed that CR2Fc enhanced the therapeutic effect of mAb therapy via both macrophage-dependent FcγR-mediated antibody-dependent cellular cytotoxicity, and by direct complement-mediated lysis. Complement activation products can also modulate adaptive immunity, but we found no evidence that either mAb or CR2Fc treatment had any effect on an antitumor humoral or cellular immune response. CR2Fc represents a potential adjuvant treatment to increase the effectiveness of mAb therapy of cancer.

Published

2012

38. Inhibition effects of isolated compounds from Artemisia rubripes Nakai of the classical pathway on the complement system.

Author

Jung S, Lee JH, Lee YC, and Moon HI

Subjects

Animals, Chloroform chemistry, Chromatography, High Pressure Liquid, Chromatography, Thin Layer, Cinnamates pharmacology, Complement Inactivating Agents chemistry, Complement Inactivating Agents isolation & purification, Depsides pharmacology, Flavonoids pharmacology, Hemolysis immunology, Inhibitory Concentration 50, Molecular Structure, Plant Extracts chemistry, Rabbits, Scopoletin chemistry, Scopoletin isolation & purification, Sesquiterpenes chemistry, Sesquiterpenes isolation & purification, Sesquiterpenes, Eudesmane chemistry, Sesquiterpenes, Eudesmane isolation & purification, Sesquiterpenes, Eudesmane pharmacology, Sheep, Rosmarinic Acid, Artemisia chemistry, Complement Inactivating Agents pharmacology, Complement Pathway, Classical drug effects, Scopoletin pharmacology, Sesquiterpenes pharmacology

Abstract

The study evaluated the anticomplement activity from isolated compounds from Artemisia rubripes Nakai from South Korea on the classical pathway. In the previous works, Artemisia rubripes chloroform extracts showed inhibitory activity against complement system. The chromatographic separation of a chloroform chloride extract of Artemisia rubripes led to the isolation of three compounds. Their structures were characterized to be scopoletin (1), 11,(13)-triene-6,12-olide (2), and 1β,6α-dihydroxy-4(15)-eudesmene (3) by spectroscopic data. This is the first report of anticomplement activity of isolated compounds from Artemisia rubripes.

Published

2012

39. Anticomplement activity of polyacetylenes from leaves of Dendropanax morbifera Leveille.

Author

Chung IM, Song HK, Kim SJ, and Moon HI

Subjects

Animals, Cinnamates chemistry, Cinnamates pharmacology, Complement Inactivating Agents chemistry, Complement Inactivator Proteins chemistry, Complement Pathway, Classical drug effects, Depsides chemistry, Depsides pharmacology, Diynes chemistry, Diynes pharmacology, Erythrocytes drug effects, Fatty Alcohols chemistry, Fatty Alcohols pharmacology, Flavonoids chemistry, Flavonoids pharmacology, Hemolysis drug effects, Humans, Inhibitory Concentration 50, Male, Plant Extracts chemistry, Plant Leaves chemistry, Polyynes chemistry, Rabbits, Sheep, Young Adult, Rosmarinic Acid, Araliaceae chemistry, Complement Inactivating Agents pharmacology, Complement Inactivator Proteins pharmacology, Plant Extracts pharmacology, Polyynes pharmacology

Abstract

The present study evaluated the anticomplement effect of polyacetylenes from Dendropanax morbifera (Araliaceae) in the classical pathway complement system. The leaves of D. morbifera were evaluated with regard to its anticomplement activity, and its active principles identified following activity-guided isolation. An aqueous CCl(4) fraction of the leaves of D. morbifera exhibited significant anticomplement activity on the classical pathway complement system, which was expressed as total hemolytic activity. Three polyacetylenes isolated from the leaves of D. morbifera, namely (3S)-falcarinol (1), (3S,8S)-falcarindiol (2) and (3S)-diynene (3). Compounds 1, 2 and 3 showed inhibitory activity against complement system with 50% inhibitory concentrations (IC(50)) values of 87.3 µM, 15.2 µM and 39.8 µM. Among the compounds tested, 2 showed the most potent anticomplement activity (IC(50), 15.2 µM)., (Copyright © 2010 John Wiley & Sons, Ltd.)

Published

2011

40. Interactions between Bordetella pertussis and the complement inhibitor factor H.

Author

Amdahl H, Jarva H, Haanperä M, Mertsola J, He Q, Jokiranta TS, and Meri S

Subjects

Binding Sites, Blood Proteins metabolism, Bordetella parapertussis cytology, Bordetella parapertussis immunology, Bordetella pertussis cytology, Complement C4b-Binding Protein, Complement Factor H chemistry, Complement Inactivating Agents chemistry, Histocompatibility Antigens metabolism, Humans, Microbial Viability, Protein Binding, Bordetella pertussis immunology, Complement Factor H immunology, Complement Inactivating Agents immunology

Abstract

Bordetella pertussis causes whooping cough in humans, a highly contagious disease of the upper respiratory tract. An increase in cases of whooping cough in adolescents and adults in many countries has been reported, despite high immunization rates in children. To efficiently colonize the host the bacteria have to resist complement, the first defence line of innate immunity. B. pertussis has previously been shown to bind the classical pathway inhibitors C4b-binding protein and C1-inhibitor being thereby able to escape the classical pathway of complement. In this study recent clinical isolates of B. pertussis and B. parapertussis were found to survive alternative pathway attack in fresh non-immune serum better than the reference B. pertussis strain, Tohama I. By using adsorption assays, flow cytometry and a radioligand binding assay we observed that both B. pertussis and B. parapertussis bound the alternative pathway inhibitor factor H (FH) from normal human serum. The surface attached FH maintained its complement regulatory activity and promoted factor I-mediated cleavage of C3b. The main binding region was located to the C-terminal part of FH, into short consensus repeat domains 19-20. In contrast, the avian pathogen B. avium did not bind FH and was sensitive to the alternative pathway of human complement. In conclusion, the human pathogens B. pertussis and B. parapertussis are able to evade the alternative complement pathway by surface acquisition of the host complement regulator FH., (Copyright © 2010 Elsevier Ltd. All rights reserved.)

Published

2011

41. Cobra venom factor: Structure, function, and humanization for therapeutic complement depletion.

Author

Vogel CW and Fritzinger DC

Subjects

Animals, Arthritis drug therapy, Arthritis pathology, Complement C3 physiology, Complement Inactivating Agents immunology, Elapid Venoms genetics, Elapid Venoms immunology, Hemoglobinuria, Paroxysmal drug therapy, Humans, Macular Degeneration drug therapy, Mice, Mice, Transgenic, Models, Molecular, Myocardial Reperfusion Injury drug therapy, Protein Engineering, Recombinant Fusion Proteins adverse effects, Recombinant Fusion Proteins chemistry, Recombinant Fusion Proteins therapeutic use, Sequence Homology, Amino Acid, Complement C3 chemistry, Complement Inactivating Agents chemistry, Elapid Venoms chemistry

Abstract

Cobra venom factor (CVF) is the complement-activating protein in cobra venom. This manuscript reviews the structure and function of CVF, how it interacts with the complement system, the structural and functional homology to complement component C3, and the use of CVF as an experimental tool to decomplement laboratory animals to study the functions of complement in host defense and immune response as well as in the pathogenesis of diseases. This manuscript also reviews the recent progress in using the homology between CVF and C3 to study C3 structure and function, and to develop human C3 derivatives with the complement-depleting function of CVF. These human C3 derivatives represent humanized CVF, and are a conceptually different concept for pharmacological intervention of the complement system, therapeutic complement depletion. The use of humanized CVF for therapeutic complement depletion in several pre-clinical models of human diseases is also reviewed., (Copyright © 2010 Elsevier Ltd. All rights reserved.)

Published

2010

42. Purification, cloning and characterization of a metalloproteinase from Naja atra venom.

Author

Sun QY and Bao J

Subjects

Amino Acid Motifs, Amino Acid Sequence, Animals, Base Sequence, Binding Sites, Cloning, Molecular, Complement Inactivating Agents isolation & purification, Complement Inactivating Agents toxicity, Complement System Proteins metabolism, Humans, Metalloproteases isolation & purification, Metalloproteases toxicity, Molecular Sequence Data, Toxicity Tests, Complement Inactivating Agents chemistry, Elapid Venoms enzymology, Elapidae metabolism, Metalloproteases chemistry

Abstract

The complement system is a very important part of the immune system. Many snake venoms possess activities that influence the complement. A new metalloproteinase (termed atrase B) with anticomplementary activity was purified from Naja atra venom. Atrase B is a single chain glycoprotein with a molecular mass of 49.4 kDa and an isoelectric point of 9.7. Its N-terminal sequence shows high homology to those of metalloproteinases from cobra venoms. The cDNA sequence reveals that atrase B is a PIII class metalloproteinase. Atrase B slowly cleaves the Aα chain of fibrinogen. It also exhibits edema-inducing activity, but has no hemorrhagic activity and proteolytic activity against fibrin, azocasein, and N-benzoyl-l-arginine ethyl ester. Interestingly, atrase B inhibits activation of the complement classical and alternative pathways in a dose- and time-dependent manner. Complement components factor B and C6 are major targets for atrase B to cleave. Atrase B is the first identified SVMP that cleaves complement components factor B, C6, C7, and C8., (Copyright © 2010 Elsevier Ltd. All rights reserved.)

Published

2010

43. Xanthone constituents of the fruits of Garcinia mangostana with anticomplement activity.

Author

Quan GH, Oh SR, Kim JH, Lee HK, Kinghorn AD, and Chin YW

Subjects

Complement Inactivating Agents isolation & purification, Fruit chemistry, Molecular Structure, Xanthenes isolation & purification, Xanthones isolation & purification, Complement Inactivating Agents chemistry, Garcinia mangostana chemistry, Xanthenes chemistry, Xanthones chemistry

Abstract

Phytochemical investigation of a chloroform-soluble fraction of the freeze-dried fruits of Garcinia mangostana (Clusiaceace) with anticomplement activity in the classical pathway led to the identification of five known xanthones. The structures of these compounds were confirmed by interpretation of NMR and MS spectroscopic data. Of the isolates obtained, 1-isomangostin and garcinone E were found to be active constituents in the anticomplement assay used., (Copyright © 2010 John Wiley & Sons, Ltd.)

Published

2010

44. Inhibition of direct and indirect TLR-mediated activation of human NK cells by low molecular weight dextran sulfate.

Author

Millard AL, Spirig R, Mueller NJ, Seebach JD, and Rieben R

Subjects

Cell Degranulation drug effects, Cell Survival drug effects, Complement Inactivating Agents chemistry, Complement Inactivating Agents pharmacology, Culture Media, Conditioned, Dendritic Cells drug effects, Dendritic Cells immunology, Dextran Sulfate chemistry, Humans, Immunity, Innate drug effects, In Vitro Techniques, Interferon-gamma biosynthesis, Killer Cells, Natural cytology, Lymphocyte Activation drug effects, Lymphocyte Activation immunology, Molecular Weight, Toll-Like Receptor 2 agonists, Toll-Like Receptor 2 antagonists & inhibitors, Toll-Like Receptor 4 agonists, Toll-Like Receptor 4 antagonists & inhibitors, Dextran Sulfate pharmacology, Killer Cells, Natural drug effects, Killer Cells, Natural immunology, Toll-Like Receptors antagonists & inhibitors

Abstract

NK cells express toll-like receptors (TLR) that recognize conserved pathogen or damage associated molecular patterns and play a fundamental role in innate immunity. Low molecular weight dextran sulfate (DXS), known to inhibit the complement system, has recently been reported by us to inhibit TLR4-induced maturation of human monocyte-derived dendritic cells (MoDC). In this study, we investigated the capability of DXS to interfere with human NK cell activation triggered directly by TLR2 agonists or indirectly by supernatants of TLR4-activated MoDC. Both TLR2 agonists and supernatants of TLR4-activated MoDC activated NK cells phenotypically, as demonstrated by the analysis of NK cell activation markers (CD56, CD25, CD69, NKp30, NKp44, NKp46, DNAM-1 and NKG2D), and functionally as shown by increased NK cell degranulation (CD107a surface expression) and IFN-gamma secretion. DXS prevented the up-regulation of NK cell activation markers triggered by TLR2 ligands or supernatants of TLR4-activated MoDC and dose-dependently abrogated NK cell degranulation and IFN-gamma secretion. In summary our results suggest that DXS may be a useful reagent to inhibit the direct and indirect TLR-mediated activation of NK cells., ((c) 2010 Elsevier Ltd. All rights reserved.)

Published

2010

45. New inhibitors of the complement system inspired in K76-COOH. A SAR study of filifolinol derivatives through modifications of the C3' position.

Author

Larghi EL, Operto MA, Torres R, and Kaufman TS

Subjects

Complement Inactivating Agents chemical synthesis, Complement Inactivating Agents pharmacology, Complement System Proteins metabolism, Sesquiterpenes chemical synthesis, Sesquiterpenes pharmacology, Structure-Activity Relationship, Complement Inactivating Agents chemistry, Complement System Proteins chemistry, Sesquiterpenes chemistry

Abstract

A new series of tricyclic carboxylic acids with a 3H-spiro[benzofuran-2,10-cyclohexane] skeleton were synthesized from filifolinol, as analogs of the natural complement inhibitor K76-COOH. Their complement inhibitory activity was determined aiming to probe the importance of structural characteristics of the alicyclic part of K76-COOH. The presence and stereochemistry of O- and N-functionalities on C3' of the filifolinol derivatives are relevant for biological activity. The IC50 values of the most potent compounds were comparable or surpassed the activity of K76-COOH. The results also suggest that the diol moiety of the natural product may be useful for improving compound solubility.

Published

2009

46. Phytochemical investigation of Tiarella polyphylla.

Author

Shen G, Oh SR, Min BS, Lee J, Ahn KS, Kim YH, and Lee HK

Subjects

Chemical Phenomena, Chemistry, Physical, Complement Inactivating Agents chemistry, Complement Inactivating Agents isolation & purification, Complement Inactivating Agents pharmacology, Complement Pathway, Classical drug effects, Flavonoids chemistry, Flavonoids isolation & purification, Flavonoids pharmacology, Hemolysis drug effects, Humans, Magnetic Resonance Spectroscopy, Plant Extracts chemistry, Saponins chemistry, Saponins isolation & purification, Saponins pharmacology, Spectrometry, Mass, Electrospray Ionization, Structure-Activity Relationship, Triterpenes chemistry, Triterpenes isolation & purification, Triterpenes pharmacology, Saxifragaceae chemistry

Abstract

Seven flavonoids (1-7), two triterpenoids (8 and 9) and four steroids (10, 11, 12 and 13) were isolated from the whole plant of Tiarella polyphylla. Based on the physicochemical and spectroscopic analyses, their structures were identified as myricetin (1), astragalin (2), afzelin (3), quercitrin (4), myricitin (5), nicotiflorin (6), isoquercitrin (7), tiarellic acid (8), 3beta-hydroxy-20(29)lupen-27-oic acid (9), beta-sitosterol-3-O-beta-D-glucoside (10), stigmasterol-3-O-beta-D-glucoside (11), beta-sitosterol (12) and ergosterol endoperoxide (13). All 13 compounds, with the exception of tiarellic acid were isolated for the first time from T. polyphylla. In the anti-complementary assay, the steroids (12 and 13) exhibited potent activities; whereas, the flavonoids (1 to 7) showed weak or no activities, but even the triterpenoids (8 and 9) and steroidal saponins (10 and 11) evoked hemolysis.

Published

2008

47. Discovery and development of the complement inhibitor eculizumab for the treatment of paroxysmal nocturnal hemoglobinuria.

Author

Rother RP, Rollins SA, Mojcik CF, Brodsky RA, and Bell L

Subjects

Animals, Antibodies, Monoclonal therapeutic use, Antibodies, Monoclonal, Humanized, Clinical Trials as Topic, Complement C5 physiology, Complement Inactivating Agents therapeutic use, Drug Approval, Drug Evaluation, Preclinical, Hemoglobinuria, Paroxysmal immunology, Humans, Mice, Protein Engineering, Antibodies, Monoclonal genetics, Antibodies, Monoclonal pharmacology, Complement C5 antagonists & inhibitors, Complement Inactivating Agents chemistry, Complement Inactivating Agents pharmacology, Drug Design, Hemoglobinuria, Paroxysmal drug therapy

Abstract

The complement system provides critical immunoprotective and immunoregulatory functions but uncontrolled complement activation can lead to severe pathology. In the rare hemolytic disease paroxysmal nocturnal hemoglobinuria (PNH), somatic mutations result in a deficiency of glycosylphosphatidylinositol-linked surface proteins, including the terminal complement inhibitor CD59, on hematopoietic stem cells. In a dysfunctional bone marrow background, these mutated progenitor blood cells expand and populate the periphery. Deficiency of CD59 on PNH red blood cells results in chronic complement-mediated intravascular hemolysis, a process central to the morbidity and mortality of PNH. A recently developed, humanized monoclonal antibody directed against complement component C5, eculizumab (Soliris; Alexion Pharmaceuticals Inc., Cheshire, CT, USA), blocks the proinflammatory and cytolytic effects of terminal complement activation. The recent approval of eculizumab as a first-in-class complement inhibitor for the treatment of PNH validates the concept of complement inhibition as an effective therapy and provides rationale for investigation of other indications in which complement plays a role.

Published

2007

48. [Artificial inhibition of the complement system].

Author

Kozlov LV, Burdelev OO, Bureeva SV, and Kaplun AP

Subjects

Animals, Complement Inactivating Agents chemistry, Drug Evaluation, Preclinical methods, Humans, Complement Inactivating Agents classification, Complement Inactivating Agents pharmacology, Complement System Proteins drug effects

Abstract

A great number of natural substances affect the complement system in addition to its natural regulators. Among the complement effectors, the most important are inhibitors of the activation cascade. The necessity of searching for preparations capable of a purposeful effect on complement by inhibition of single stages of the activation cascade and without influence on its other functions is connected with the current importance of use in medicine of novel therapeutic regulators of the complement system. Important directions are the search for complement inhibitors that (a) interfere with the rejection of transplants; (b) can replace C1 inhibitor in hereditary angioedema, and (c) have a high anti-inflammatory activity in the therapy of rheumatic diseases, diabetes, and other autoimmune disorders. It is expedient to use the available techniques for the directed detection of the action of medicinal substances on complement, which allow the determination of their action on the complement system at various stages of the cascade of its activation.

Published

2007

49. New cycloartane-type triterpene arabinosides from the roots of Actaea podocarpa and their biological study.

Author

Ali Z, Khan SI, and Khan IA

Subjects

Complement Inactivating Agents administration & dosage, Complement Inactivating Agents chemistry, Complement Inactivating Agents therapeutic use, Complement System Proteins drug effects, Humans, Inhibitory Concentration 50, Plant Extracts administration & dosage, Plant Extracts chemistry, Plant Extracts therapeutic use, Plant Roots, Triterpenes administration & dosage, Triterpenes chemistry, Triterpenes pharmacology, Triterpenes therapeutic use, Actaea, Complement Inactivating Agents pharmacology, Phytotherapy, Plant Extracts pharmacology

Abstract

Three new cycloartane-type triterpene arabinosides, podocarpasides H - J (1 - 3) were isolated from the roots of Actaea podocarpa (Ranunculaceae). Their structures were determined by spectroscopic and chemical methods. The isolates were tested for cytotoxic, estrogenic, antioxidant, and anticomplement activities. They were found inactive in the tested assays, except for podocarpaside I (2), which showed moderate anticomplement activity with an IC(50) value of 250 microM.

Published

2007

50. Candidate inhibitors of porcine complement.

Author

Thorgersen EB, Ghebremariam YT, Thurman JM, Fung M, Nielsen EW, Holers VM, Kotwal GJ, and Mollnes TE

Subjects

Animals, Complement Inactivating Agents chemistry, Dose-Response Relationship, Drug, Rodentia, Swine, Complement Activation drug effects, Complement Inactivating Agents pharmacology, Complement Membrane Attack Complex chemistry

Abstract

Therapeutic complement inhibition is a promising strategy for treatment of a number of diseases as judged from rodent studies. The species distance from rodents to humans may limit the clinical relevance of these studies. The pig is an alternative animal for studies of human diseases like sepsis and ischemia/reperfusion injury. However, available complement inhibitors for use in pigs are scarce. The aim of the present study was to investigate and compare the efficacy of selected candidate inhibitors of porcine complement in vitro for possible future application in vivo. Sera from three different pigs were each incubated with three different activators of the complement system (zymosan, heat-aggregated immunoglobulin G (HAIGG) and Escherichia coli). Three groups of complement inhibitor candidates were tested: serine protease inhibitors (FUT-175 and C1-inhibitor), monoclonal antibodies (anti-factor B (fB) and anti-factor D (fD)) and a recombinant regulatory protein (vaccinia virus complement control protein (VCP)). Read-out was the terminal C5b-9 complement complex (TCC). The serine protease inhibitors FUT-175 and C1-inhibitor dose-dependently inhibited TCC formation in zymosan-, HAIGG- and E. coli-activated porcine sera, but with different efficacy. Complete inhibition of TCC was obtained using 0.2 mg/mL FUT-175, but required 16 mg/mL of C1-inhibitor. The monoclonal anti-fB and -fD antibodies both inhibited TCC formation dose-dependently, but in different ways. Anti-fB at high dose (1 mg/mL) completely inhibited TCC formation in sera activated with zymosan and virtually completely in sera activated with HAIGG, but not in sera activated with E. coli. Anti-fD inhibited all three activators at low dose (0.05 mg/mL), and approximately 50% TCC reduction was obtained. The recombinant complement regulatory protein VCP efficiently and dose-dependently inhibited TCC formation with a complete inhibition found at 0.05 mg/mL for all three activators. All candidates tested inhibited porcine complement activation, but in different ways and to different degrees. Of the complement-specific candidates, VCP inhibited all activators completely at low doses.

Published

2007