Office: Foege N310C
Nucleic acid vaccine delivery
Anti-biofilm based biomaterials technologies
This NIH/NIBIB supported research seeks to develop polymer biomaterials that prevent bacterial colonization and subsequent biofilm formation by using novel small molecules that do not kill bacteria but rather negate biofilm formation. Biomaterials will release a variety of novel “anti-biofilm” therapies rather than employing a toxic compound such as an anti-biotic or disinfectant. Such therapies include: gallium-siderophore complexes that interfere with iron metabolism, DNAse enzymes that disrupt the biofilm exopolymer matrix, specific species adhesion blockers.
Engineering Infection Immunity
This group of NIH funded research projects seeks to generate biomaterials that self-vaccinate the host in order to prevent medical device based infections. Biomaterial scaffolds will be created that can control dendritic cell (DCs) activation and efficiently transfect DCs with either pDNA or mRNA nucleic acid vaccines.
Healing by Controlling Macrophage Plasticity
Can certain macrophage phenotypes continue to differentiate in desired tissue cells, exhibiting stem-cell like behavior? If so, can biomaterials be designed to engineer macrophage phenotype and affect such plasticity?
BS, Chemical Engineering, University of Houston, 1969
1996 Hunter Distinguished Visiting Professor, Department of Bioengineering, Clemson University
1996 Speaker, Biofilm Infections, Gordon Conference on Biomaterials
1994-present Member Board of Review Editors, Biotechnology & Bioengineering, J. Wiley Publ
1997 Session Chair, Infection and Inflammation, Gordon Conference on Biomaterials
1992-1997 J. Monod Visiting Professorship, Institute Pasteur, Paris France
BIOEN 498/599: Biofilm Engineering
Garty S, Shirakawa R, Warsen A, Anderson EM, Noble ML, Bryers JD, Ratner BD, Shen. TT. Sustained antibiotic release from an intraocular lens-hydrogel assembly for cataract surgery, Invest Ophthalmol Vis Sci. 52(9):6109-6116 (2011). PMID: 21447687.
Valdes, TI, Ciridon, W, Ratner, BD, Bryers, J.D. Modulation of fibroblast inflammatory response by surface modification of a perfluorinated ionomer, Biointerphases 6(2):43-53, (2011). PMID: 21721839.
Manganiello, MJ, Cheng, C, Convertine, AJ, Bryers, JD, Stayton, PS. Diblock copolymers with tunable pH transitions for gene delivery, Biomaterials 33: 2301-2309 (2012). PMID: 22169826.
Ruckh TT, Oldinski RA, Carroll DA, Mikhova K, Bryers JD, Popat KC. Antimicrobial effects of nanofiber poly(caprolactone) tissue scaffolds releasing rifampicin. J Mater Sci Mater Med., 23(6):1411-20. (2012). PMID: 22407002.
Park KR, Bryers JD. Effect of macrophage classical (M1) activation on implant-adherent macrophage interactions with Staphylococcus epidermidis: A murine in vitro model system. J Biomed Mater Res A. (2012) 100(8):2045-2053. PMID: 22581669.
Linnes JC, Mikhova K, Bryers JD. Adhesion of Staphylococcus epidermidis to biomaterials is inhibited by fibronectin and albumin. J Biomed Mater Res A. 100(8):1990-1997 (2012) PMID: 22566405.
Bryers JD, Giachelli CM, Ratner BD. Engineering biomaterials to integrate and heal: The biocompatibility paradigm shifts. Biotechnol Bioeng. 2012 109(8):1898-1911. PMID: 22592568.
Ma H, Bryers JD. Non-invasive determination of conjugative transfer of plasmids bearing antibiotic-resistance genes in biofilm-bound bacteria: effects of substrate loading and antibiotic selection. Appl Microbiol Biotechnol. (2012) Jun 6. Epub ahead of print PMID: 22669634.
Cheng C, Convertine AJ, Stayton PS, Bryers JD. Multifunctional triblock copolymers for intracellular messenger RNA delivery. Biomaterials. (2012) 33(28): 6868–6876. PMID: 22784603.
Cooper A, Oldinski R, Ma H, Bryers JD, Zhang M. Chitosan-based nanofibrous membranes for antibacterial filter applications. Carbohydr Polym. 2013. 92(1):254-259. PMID: 23218292.
Galperin A, Oldinski RA, Florczyk SJ, Bryers JD, Zhang M, Ratner BD. Integrated Bi-Layered Scaffold for Osteochondral Tissue Engineering. Adv Healthc Mater. 2012. PMID: 23225568.
Park J, Wu CT, Bryers JD. Chemokine programming dendritic cell antigen response: part I – select chemokine programming of antigen uptake even after maturation. Immunology. 2013. 139(1):72-87. PMID: 23278719.
Park J, Bryers JD. Chemokine Programming Dendritic Cell Antigen Response: Part II – Programming Antigen Presentation to T Lymphocytes by Partially Maintaining Immature Dendritic Cell Phenotype. Immunology. 2013. 139(1):88-99. PMID: 23277917.
Linnes JC, Ma H, Bryers JD. Giant Extracellular Matrix Binding Protein Expression in Staphylococcus epidermidis is Regulated by Biofilm Formation and Osmotic Pressure. Curr Microbiol. 2013 Jun;66(6):627-633. PMID: 23380801.
Ma H, Katzenmeyer KN, Bryers JD. Non-invasive in situ monitoring and quantification of TOL plasmid segregational loss within Pseudomonas putida biofilms. Biotechnol Bioeng. 2013 May 1. [Epub ahead of print] PMID: 23633286.