Identification of Acidic pH-dependent Ligands of Pentameric C-reactive Protein

Hammond, David J.; Singh, Sanjay K.; Thompson, Jill C.; Beeler, Bradley W.; Rusiñol, Antonio E.; Pangburn, Michael K.; Potempa, Lawrence A.; Agrawal, Alok

doi:10.1074/jbc.m110.142026

Cited by 72 publications

(94 citation statements)

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“…Interestingly, the acidic pH frequently found in inflamed tissues can also boost the binding capacity of CRP even in the absence of pentamer dissociation [83]; however, after binding to immobilized ligands at a low pH, a prominent exposure of the mCRP epitope has been observed [83]. These results further support the idea that interactions of CRP with the inflammatory microenvironment are critical for the expression of enhanced bioactivities.…”

Section: Dissociation Of Crp Localizes the Enhanced Bioactivitiessupporting

confidence: 75%

Regulated conformation changes in C-reactive protein orchestrate its role in atherogenesis

2012

Chin. Sci. Bull.

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C-reactive protein (CRP) is a prototypic human acute phase reactant composed of five identical subunits. Emerging evidence indicates that CRP is not merely a predictor of cardiovascular disease, but may also be a direct mediator. However, the diverse and sometimes contradictory activities of CRP have considerably hampered the attempts to define the exact role of CRP in atherogenesis. Here, we review the multiple layers of regulation of CRP's structure and function, highlighting how local inflammation conditions, such as the abundance of damaged cell membranes and redox homeostasis, can tip the balance of the pro-and antiinflammatory activities of CRP. We propose that the highly controlled interplay between different structural conformations of CRP underlies its intrinsic property as a fine modulator of inflammation and atherogenesis. C-reactive protein, inflammation, atherosclerosis, redox Citation:Ma X, Ji S R, Wu Y. Regulated conformation changes in C-reactive protein orchestrate its role in atherogenesis.

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Section: Dissociation Of Crp Localizes the Enhanced Bioactivitiessupporting

confidence: 75%

Regulated conformation changes in C-reactive protein orchestrate its role in atherogenesis

2012

Chin. Sci. Bull.

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“…Alternatively, 25 g of CRP double mutant might not have been protective as opposed to 150 g. Because administering a higher dose of CRP allows CRP to stay longer in the host, we hypothesize that CRP mutants, when given at the beginning of the experiment, undergo remodeling to gain other ligand binding properties, as yet undefined, during their stay in the host, and that may be responsible for the protection of mice from infection independent of the PCh binding activity of CRP. This hypothesis also provides insight into why CRP does not protect mice from infection if administered later and how CRP can be engineered so that it can protect mice from infection even if administered during the late stages of infection (33,51). However, this is just a hypothesis because we have no data.…”

Section: Discussionmentioning

confidence: 99%

“…PCh Binding Assay-Binding activity of CRP for PCh was evaluated by using PCh-conjugated BSA and PnC (Statens Serum Institut) as the ligands, as described previously (7,33). Microtiter wells (96-well plates) were coated with 10 g/ml PCh-BSA or PnC in TBS, overnight at 4°C.…”

Section: Construction and Expression Of The Crp Triple Mutantmentioning

confidence: 99%

“…Purification of Native WT CRP-WT CRP was purified from discarded human pleural fluid by affinity chromatography on a PCh-Sepharose column (Pierce) followed by ion-exchange chromatography on a MonoQ column (GE Healthcare) and gel filtration chromatography on a Superose 12 column (GE Healthcare), as described previously (33), and stored frozen. On The PDB coordinates of mutant CRP were generated from the PDB file 1B09 using SYBYL (Tripos, Inc.).…”

Section: Construction and Expression Of The Crp Triple Mutantmentioning

confidence: 99%

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The Phosphocholine-binding Pocket on C-reactive Protein Is Necessary for Initial Protection of Mice against Pneumococcal Infection

Gang

Hammond

Singh

et al. 2012

Journal of Biological Chemistry

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Background: CRP exerts antipneumococcal function in mice if administered during the early stages of pneumococcal infection. Results: CRP loses such antipneumococcal function when its phosphocholine-binding pocket is blocked. Conclusion:The phosphocholine-binding pocket on CRP participates in antipneumococcal function of CRP during the early stages of infection. Significance: Remodeling of CRP may be required for successful treatment of mice during the late stages of infection.

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“…CRP, in a Ca 2+ -dependent interaction, also binds to phosphoethanolamine (PEt) (Agrawal et al, 2002;Mikolajek et al, 2011). In its alternate pentameric structural conformation, CRP binds to deposited, aggregated and immobilized proteins including amyloid β peptide, oxidized low-density lipoprotein and complement regulator factor H, in a Ca 2+ -independent manner (Agrawal, 2013;Agrawal et al, 2014;Hakobyan et al, 2008;Hammond et al, 2010;Singh et al, 2012;Suresh et al, 2004). The significance of the recognition function of CRP in its alternate structural pentameric conformation in host defense is unknown.…”

Section: Introductionmentioning

confidence: 99%