Your search keyword '"Hartas, Jon"' showing total 3 results

1. An efficient, chemically-defined semisynthetic lipid-adjuvanted nanoparticulate vaccine development system.

Author

Moyle, Peter M., Hartas, Jon, Henningham, Anna, Batzloff, Michael R., Good, Michael F., and Toth, Istvan

Subjects

NANOMEDICINE, DRUG development, BACTERIAL conjugation, RECOMBINANT proteins, LIPOPROTEINS, POLYTOPES

Abstract

Abstract: A novel vaccine development platform that enables the site-specific conjugation of synthetic lipid adjuvants to recombinant proteins was produced. This technology facilitates the simple and efficient production of homogeneous, chemically-defined, semisynthetic lipoprotein vaccines. Using a polytope ‘string-of-beads’ approach, a synthetic gene incorporating seven Streptococcus pyogenes M protein strain-specific antigens, and a conserved M protein antigen (J14) was produced, expressed, and attached to a lipoamino acid based adjuvant (lipid core peptide; LCP). Nanoparticles (40nm diameter) of an optimal size for stimulating antibody-mediated immunity were formed upon the addition of these lipoproteins to aqueous buffer (PBS). Systemic antigen-specific IgG antibodies were raised against all eight antigens in C57BL/6J mice, without the need to formulate with additional adjuvant. These antibodies bound cell surface M proteins of S. pyogenes strains represented within the polytope sequence, with higher antibody levels observed where a dendritic cell targeting peptide (DCpep) was incorporated within the LCP adjuvant. From the Clinical Editor: In this study, a novel vaccine development system is presented, combining adjuvants with recombinant protein antigens, and presenting the antigen in a nanoparticle system optimized for antibody production. They demonstrate efficient vaccination in a murine model system without the need for additional adjuvants. [Copyright &y& Elsevier]

Published

2013

2. Self-adjuvanting modular virus-like particles for mucosal vaccination against group A streptococcus (GAS)

Author

Rivera-Hernandez, Tania, Hartas, Jon, Wu, Yang, Chuan, Yap P., Lua, Linda H.L., Good, Michael, Batzloff, Michael R., and Middelberg, Anton P.J.

Subjects

*STREPTOCOCCUS pyogenes, *VIRUS-like particles, *AUTOIMMUNE diseases, *VIRAL vaccines, *EPITHELIUM, *PHARYNGEAL diseases, *POLYOMAVIRUSES, *VIRAL antigens

Abstract

Abstract: Group A streptococcus (GAS) causes a wide range of diseases, some of them related to autoimmune diseases triggered by repeated GAS infections. Despite the fact that GAS primarily colonizes the mucosal epithelium of the pharynx, the main mechanism of action of most vaccine candidates is based on development of systemic antibodies that do not cross-react with host tissues, neglecting the induction of mucosal immunity that could potentially block disease transmission. Peptide antigens from GAS M-surface protein can confer protection against infection; however, translation of such peptides into immunogenic mucosal vaccines that can be easily manufactured remains a challenge. In this work, a modular murine polyomavirus (MuPyV) virus-like particle (VLP) was engineered to display a GAS antigenic peptide, J8i. Heterologous modules containing one or two J8i antigen elements were integrated with the MuPyV VLP, and produced using microbial protein expression, standard purification techniques and in vitro VLP assembly. Both modular VLPs, when delivered intranasally to outbred mice without adjuvant, induced significant titers of J8i-specific IgG and IgA antibodies, indicating significant systemic and mucosal responses, respectively. GAS colonization in the throats of mice challenged intranasally was reduced in these immunized mice, and protection against lethal challenge was observed. This study shows that modular MuPyV VLPs prepared using microbial synthesis have potential to facilitate cost-effective vaccine delivery to remote communities through the use of mucosal immunization. [Copyright &y& Elsevier]

Published

2013

3. Intranasal vaccination with a lipopeptide containing a minimal, conserved M-protein derived peptide and a self-adjuvanting lipid induces both systemic and mucosal immune responses in mice

Author

Batzloff, Michael R., Hartas, Jon, Zeng, Weiguang, Jackson, David C., and Good, Michael F.

Subjects

*STREPTOCOCCAL diseases, *BACTERIAL vaccines, *EPITOPES, *MICROBIAL peptides

Abstract

Abstract: Group A streptococcus (GAS) is a global health problem. Infection with GAS may result in a number of human diseases ranging from the relatively benign pharyngitis to the life-threatening sequelae of rheumatic fever (RF) and rheumatic heart disease (RHD), therefore highlighting the need for a prophylactic vaccine. We demonstrate that a peptide from the M-protein when incorporated into a lipopeptide construct containing a universal T-cell epitope and a self-adjuvanting lipid moiety is capable of inducing peptide-specific serum IgG and peptide-specific mucosal IgA. [Copyright &y& Elsevier]

Published

2006