Chimeric Peptides as Implant Functionalization Agents for Titanium Alloy Implants with Antimicrobial Properties
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- 作者:Deniz T. Yucesoy (1)
Marketa Hnilova (1)
Kyle Boone (2)
Paul M. Arnold (3)
Malcolm L. Snead (4)
Candan Tamerler (5)
1. Department of Materials Science and Engineering ; GEMSEC ; Genetically Engineered Materials Science and Engineering Center ; University of Washington ; Seattle ; WA ; 98195 ; USA
2. Bioengineering Program and Bioengineering Research Center ; University of Kansas ; Lawrence ; KS ; 66045 ; USA
3. Department of Neurosurgery ; School of Medicine ; Spinal Cord Injury Center ; University of Kansas ; Kansas City ; KS ; 66160 ; USA
4. Ostrow School of Dentistry of USC ; Center for Craniofacial Molecular Biology ; University of Southern California ; Los Angeles ; CA ; 90032 ; USA
5. Department of Mechanical Engineering & Bioengineering Research Center ; University of Kansas ; Lawrence ; KS ; 66045 ; USA - 刊名:JOM Journal of the Minerals, Metals and Materials Society
- 出版年:2015
- 出版时间:April 2015
- 年:2015
- 卷:67
- 期:4
- 页码:754-766
- 全文大小:1,725 KB
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- 刊物主题:Chemistry
Materials Science
Metallic Materials
Nanotechnology
Crystallography - 出版者:Springer Boston
- ISSN:1543-1851
文摘
Implant-associated infections can have severe effects on the longevity of implant devices and they also represent a major cause of implant failures. Treating these infections associated with implants by antibiotics is not always an effective strategy due to poor penetration rates of antibiotics into biofilms. Additionally, emerging antibiotic resistance poses serious concerns. There is an urge to develop effective antibacterial surfaces that prevent bacterial adhesion and proliferation. A novel class of bacterial therapeutic agents, known as antimicrobial peptides (AMPs), are receiving increasing attention as an unconventional option to treat septic infection, partly due to their capacity to stimulate innate immune responses and for the difficulty of microorganisms to develop resistance towards them. While host and bacterial cells compete in determining the ultimate fate of the implant, functionalization of implant surfaces with AMPs can shift the balance and prevent implant infections. In the present study, we developed a novel chimeric peptide to functionalize the implant material surface. The chimeric peptide simultaneously presents two functionalities, with one domain binding to a titanium alloy implant surface through a titanium-binding domain while the other domain displays an antimicrobial property. This approach gains strength through control over the bio-material interfaces, a property built upon molecular recognition and self-assembly through a titanium alloy binding domain in the chimeric peptide. The efficiency of chimeric peptide both in-solution and absorbed onto titanium alloy surface was evaluated in vitro against three common human host infectious bacteria, Streptococcus mutans, Staphylococcus epidermidis, and Escherichia coli. In biological interactions such as occur on implants, it is the surface and the interface that dictate the ultimate outcome. Controlling the implant surface by creating an interface composed chimeric peptides may therefore open up new possibilities to modify the implant site and tailor it to a desirable bioactivity.