2016
DOI: 10.1142/s2251237316400050
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Controlling the Biomimetic Implant Interface: Modulating Antimicrobial Activity by Spacer Design

Abstract: Surgical site infection is a common cause of post-operative morbidity, often leading to implant loosening, ultimately requiring revision surgery, increased costs and worse surgical outcomes. Since implant failure starts at the implant surface, creating and controlling the bio-material interface will play a critical role in reducing infection while improving host cell-to-implant interaction. Here, we engineered a biomimetic interface based upon a chimeric peptide that incorporates a titanium binding peptide (Ti… Show more

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Cited by 27 publications
(33 citation statements)
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“… 23 , 25 , 41 Similarly, we have previously established the importance of engineering the design of the spacer to optimize the function of the antimicrobial peptide domain in the bifunctional peptide construct. 41 The spacer serves as a link between the two functional domains and is designed to preserve the secondary structure of each individual domain, a parameter that is tightly linked to antimicrobial function. Here, a novel AMP domain obtained from literature was linked to the TiBP through a “spacer5” to create a bifunctional peptide, as previously studied.…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“… 23 , 25 , 41 Similarly, we have previously established the importance of engineering the design of the spacer to optimize the function of the antimicrobial peptide domain in the bifunctional peptide construct. 41 The spacer serves as a link between the two functional domains and is designed to preserve the secondary structure of each individual domain, a parameter that is tightly linked to antimicrobial function. Here, a novel AMP domain obtained from literature was linked to the TiBP through a “spacer5” to create a bifunctional peptide, as previously studied.…”
Section: Discussionmentioning
confidence: 99%
“…Here, a novel AMP domain obtained from literature was linked to the TiBP through a “spacer5” to create a bifunctional peptide, as previously studied. 41 The antimicrobial peptide (AMP domain) and the bifunctional peptide was selected through a rational design process based on previously determined antimicrobial “rules”. 23 The minimum inhibitory concentration for the TiBP-spacer5-AMP bifunctional peptide was established at 64 iM for an ATCC line of S. mutans ( Fig.…”
Section: Discussionmentioning
confidence: 99%
“…Previous research compared a classic amino acid spacer (GGG) and a novel spacer (GSGGG) with a “backbone bend” to separate an antimicrobial peptide domain from the surface. This novel GSGGG spacer showed enhanced antimicrobial activity compared to the classic spacer we used here [ 57 , 58 ]. Other work has compared a rigid spacer [(EAAAK) 4 ] against a flexible spacer [(GGGGS) 4 ]; the flexible spacer design showed more effective eukaryotic cell signaling but less effective antimicrobial activity [ 36 , 59 ].…”
Section: Discussionmentioning
confidence: 99%
“…With the emergence of bacterial resistance, antimicrobial peptides, which are naturally integrated in the oral fluids, are getting high attention as a promising solution to prevent bacterial infections at the a/d interface . Building upon the strength of our research team in antimicrobial peptide design and application at biomaterial interfaces, we modified an antimicrobial peptide sequence to integrate into a dental adhesive system. The antimicrobial peptide coupled adhesive formulations demonstrated significant antimicrobial activity with the resin, when applied to the discs .…”
Section: Peptide Engineering and Dentin Adhesivesmentioning
confidence: 99%