Abstract
C-reactive protein (CRP), a component of the innate immune system, is an antipneumococcal plasma protein. Human CRP has been shown to protect mice against infection with lethal doses of Streptococcus pneumoniae by decreasing bacteremia. in vitro, CRP binds to phosphocholine-containing substances, such as pneumococcal C-polysaccharide, in a Ca2+-dependent manner. Phosphocholine-complexed human CRP activates the complement system in both human and murine sera. The mechanism of antipneumococcal action of CRP in vivo, however, has not been defined yet. In this study, we tested a decades-old hypothesis that the complement-activating property of phosphocholine-complexed CRP contributes to protection of mice against pneumococcal infection. Our approach was to investigate a CRP mutant, incapable of activating murine complement, in mouse protection experiments. We employed site-directed mutagenesis of CRP, guided by its three-dimensional structure, and identified a mutant H38R which, unlike wild-type CRP, did not activate complement in murine serum. Substitution of His38 with Arg in CRP did not affect the pentameric structure of CRP, did not affect the binding of CRP to pneumococci, and did not decrease the stability of CRP in mouse circulation. Employing a murine model of pneumococcal infection, we found that passively administered H38R CRP failed to protect mice against infection. Infected mice injected with H38R CRP showed no reduction in bacteremia and did not survive longer, as opposed to infected mice treated with wild-type CRP. Thus, the hypothesis that complement activation by phosphocholine-complexed CRP is an antipneumococcal effector function was supported. We can conclude now that complement activation by phosphocholine-complexed CRP is indeed essential for CRP-mediated protection of mice against pneumococcal infection.
Highlights
C-reactive protein (CRP) is a multifunctional component of the acute phase response and innate host defense machinery [1, 2]
The inability of H38R CRP to protect mice against pneumococcal infection was solely due to its inability to activate the complement system since the H38R mutation did not reduce the stability of CRP; H38R CRP was more stable than WT CRP in vivo
Our findings confirm that complement activation by CRP-PCh complexes constitute the mechanism of CRP-mediated protection of mice against lethal pneumococcal infection
Summary
C-reactive protein (CRP) is a multifunctional component of the acute phase response and innate host defense machinery [1, 2]. Each subunit has a phosphocholine (PCh)-binding site through which CRP binds to PCh-containing substances such as C-polysaccharide (PnC) of the cell wall of Streptococcus. Complement Activation by CRP in Infection pneumoniae, in a Ca2+-dependent manner [3,4,5,6]. After complexing with a ligand such as PnC, CRP activates the complement system [7, 8]. Human CRP activates complement in both human and murine sera [9, 10]. CRP binds to C1q and activates the classical pathway of complement [7]. Since human CRP does not interact with murine C1q, it is not known which pathway is utilized by human CRP to activate murine complement [9]
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