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Complement activation by phospholipids: the interplay of factor H and C1q 被引量:3
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作者 Lee Aun Tan Bingbin Yu +2 位作者 Francis CJ Sim Uday Kishore Robert B Sim 《Protein & Cell》 SCIE CSCD 2010年第11期1033-1049,共17页
Complement proteins in blood recognize charged particles.The anionic phospholipid(aPL)cardiolipin binds both complement proteins C1q and factor H.C1q is an activator of the complement classical pathway,while factor H ... Complement proteins in blood recognize charged particles.The anionic phospholipid(aPL)cardiolipin binds both complement proteins C1q and factor H.C1q is an activator of the complement classical pathway,while factor H is an inhibitor of the alternative pathway.To examine opposing effects of C1q and factor H on complement activation by aPL,we surveyed C1q and factor H binding,and complement activation by aPL,either coated on microtitre plates or in liposomes.Both C1q and factor H bound to all aPL tested,and competed directly with each other for binding.All the aPL activated the complement classical pathway,but negligibly the alternative pathway,consistent with accepted roles of C1q and factor H.However,in this system,factor H,by competing directly with C1q for binding to aPL,acts as a direct regulator of the complement classical pathway.This regulatory mechanism is distinct from its action on the alternative pathway.Regulation of classical pathway activation by factor H was confirmed by measuring C4 activation by aPL in human sera in which the C1q:factor H molar ratio was adjusted over a wide range.Thus factor H,which is regarded as a down-regulator only of the alternative pathway,has a distinct role in downregulating activation of the classical complement pathway by aPL.A factor H homologue,β2-glycoprotein-1,also strongly inhibits C1q binding to cardiolipin.Recombinant globular domains of C1q A,B and C chains bound aPL similarly to native C1q,confirming that C1q binds aPL via its globular heads. 展开更多
关键词 COMPLEMENT REGULATION classical pathway C1Q factor H anionic phospholipid
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Interactions of complement proteins C1q and factor H with lipid A and Escherichia coli:further evidence that factor H regulates the classical complement pathway 被引量:2
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作者 Lee Aun Tan Andrew C.Yang +1 位作者 Uday Kishore Robert B.Sim 《Protein & Cell》 SCIE CSCD 2011年第4期320-332,共13页
Proteins of the complement system are known to interact with many charged substances.We recently characterized binding of C1q and factor H to immobilized and liposomal anionic phospholipids.Factor H inhibited C1q bind... Proteins of the complement system are known to interact with many charged substances.We recently characterized binding of C1q and factor H to immobilized and liposomal anionic phospholipids.Factor H inhibited C1q binding to anionic phospholipids,suggesting a role for factor H in regulating activation of the complement classical pathway by anionic phospholipids.To extend this finding,we examined interactions of C1q and factor H with lipid A,a well-characterized activator of the classical pathway.We report that C1q and factor H both bind to immobilized lipid A,lipid A liposomes and intact Escherichia coli TG1.Factor H competes with C1q for binding to these targets.Furthermore,increasing the factor H:C1q molar ratio in serum diminished C4b fixation,indicating that factor H diminishes classical pathway activation.The recombinant forms of the Cterminal,globular heads of C1q A,B and C chains bound to lipid A and E.coli in a manner qualitatively similar to native C1q,confirming that C1q interacts with these targets via its globular head region.These observations reinforce our proposal that factor H has an additional complement regulatory role of down-regulating classical pathway activation in response to certain targets.This is distinct from its role as an alternative pathway downregulator.We suggest that under physiological conditions,factor H may serve as a downregulator of bacterially-driven inflammatory responses,thereby finetuning and balancing the inflammatory response in infections with Gram-negative bacteria. 展开更多
关键词 COMPLEMENT lipid A BACTERIA factor H C1Q
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