Selective inhibition of the interaction of C1q with immunoglobulins and the classical pathway of complement activation by steroids and triterpenoids sulfates

Since undesirable activation of the complement system through the classical pathway is associated with tissue damage and other pathologic proinflammatory consequences at ischemia/reperfusion injury, autoimmune diseases, and rejection of allo- and xenografts, creation of selective inhibitors of the c...

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Bibliographic Details
Published in:Bioorganic & medicinal chemistry 2007-05, Vol.15 (10), p.3489-3498
Main Authors: Bureeva, Svetlana, Andia-Pravdivy, Julian, Symon, Andrey, Bichucher, Anna, Moskaleva, Vera, Popenko, Vladimir, Shpak, Alexey, Shvets, Vitaly, Kozlov, Leonid, Kaplun, Alexander
Format: Article
Language:English
Subjects:
Animals
Betulin
Complement C1q - antagonists & inhibitors
Complement Pathway, Classical - drug effects
Complement system
Guinea Pigs
Hemolysis - drug effects
Humans
Immunoglobulins - pharmacology
In Vitro Techniques
Indicators and Reagents
Inhibitors
Magnetic Resonance Spectroscopy
Microscopy, Electron
Molecular Conformation
Sheep
Steroid
Steroids - pharmacology
Sulfate
Triterpenes - chemistry
Triterpenes - pharmacology
Triterpenoid
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Summary:Since undesirable activation of the complement system through the classical pathway is associated with tissue damage and other pathologic proinflammatory consequences at ischemia/reperfusion injury, autoimmune diseases, and rejection of allo- and xenografts, creation of selective inhibitors of the classical pathway leaving the alternative pathway intact is of great importance. Classical pathway is triggered by binding of its recognizing unit, protein C1q, to a number of targets like antibodies, pentraxins, apoptotic cells, and others. In order to obtain inhibitors blocking the first step of the classical cascade, synthesis of sulfates of steroids (Δ 5-3β-hydroxycholenic, Δ 5-3β-hydroxyetiocholenic, deoxycholic, and cholic acids) and triterpenoids (betulin, 20,29-dihydro-20,29-dichloromethylenbetulin, betulinic, ursolic, and oleanolic acids) has been performed. Testing of the compounds in classical pathway inhibition assay has displayed derivatives of triterpenoid betulin (betulin disulfate and betulinic acid sulfate) to be the most potent inhibitors. Further studies of the two compounds established that their activity to inhibit the classical pathway had been due to their capability to block the interaction of C1q with antibodies. Betulin disulfate and betulinic acid sulfate have shown weak inhibition of the alternative route of activation, what makes them promising inhibitors for the selective suppression of the classical complement pathway at the earliest possible level as well as perspective agents for blocking the interaction of C1q with its other targets.
ISSN:0968-0896
1464-3391
DOI:10.1016/j.bmc.2007.03.002