Abstract
ApoE is a well-known lipid-binding protein that plays a main role in the metabolism and transport of lipids. More recently, apoE-derived peptides have been shown to exert antimicrobial effects. Here, we investigated the antibacterial activity of apoE using in vitro assays, advanced imaging techniques, and in vivo mouse models. The formation of macromolecular complexes of apoE and endotoxins from Gram-negative bacteria was explored using gel shift assays, transmission electron microscopy, and CD spectroscopy followed by calculation of the α-helical content. The binding affinity of apoE to endotoxins was also confirmed by fluorescent spectroscopy detecting the quenching and shifting of tryptophan intrinsic fluorescence. We showed that apoE exhibits antibacterial activity particularly against Gram-negative bacteria such as Pseudomonas aeruginosa and Escherichia coli. ApoE protein folding was affected by binding of bacterial endotoxin components such as lipopolysaccharide (LPS) and lipid A, yielding similar increases in the apoE α-helical content. Moreover, high-molecular-weight complexes of apoE were formed in the presence of LPS, but not to the same extent as with lipid A. Together, our results demonstrate the ability of apoE to kill Gram-negative bacteria, interact with their endotoxins, which leads to the structural changes in apoE and the formation of aggregate-like complexes.
Highlights
Supplementary key words antimicrobial peptides bacteria host defense innate immunity infection aggregation lipopolysaccharide lipid A CD
Samples were incubated for 30 min at 37◦C before mixing with the loading buffer (4× loading buffer native gel, cat#BN2003, Life Technologies), and subsequent 28 μl was loaded onto 4–16% Bis-Tris Native Gels
Full-length apoE that was derived from human plasma was analyzed for its potential antimicrobial effects against the two Gram-negative strains (E. coli and P. aeruginosa) and one Gram-positive strain (S. aureus) using the viable count assay (VCA) (Fig. 1A)
Summary
Various peptides from the receptorbinding region of apoE (amino acid residues 130–150), which is essential for its biological function in lipid metabolism, have been shown to exert both antiviral and antibacterial activity [14,15,16,17]. This region is responsible for the binding of apoE to the LDL receptor family, and within this sequence, residues 142–147 (the heparin-binding domain) mediate attachment of apoE to cell surfaces [18].
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