Synthesis, Formulation, and Adjuvanticity of Monodesmosidic Saponins with Olenanolic Acid, Hederagenin and Gypsogenin Aglycones, and some C-28 Ester Derivatives.

In an attempt to discover a new synthetic vaccine adjuvant, the glycosylation of hederagenin, gypsogenin, and oleanolic acid acceptors with di- and trisaccharide donors to generate a range of mimics of natural product QS-21 was carried out. The saponins were formulated with phosphatidylcholine and cholesterol, and the structures analyzed by transmission electron microscopy. 3-O-(Manp(1→3)Glcp)hederagenin was found to produce numerous ring-like micelles when formulated, while C-28 choline ester derivatives preferred self-assembly and did not interact with the liposomes.

Cubosomes containing the adjuvants imiquimod and monophosphoryl lipid A stimulate robust cellular and humoral immune responses.

New generation vaccines increasingly utilize highly purified peptides and proteins as the target antigen, however these are often poorly immunogenic. One of the most promising strategies for improving immunogenicity of such subunit vaccines is through incorporation into particulate carriers. Here we report the preparation, physicochemical characterization and in vivo immunological activity of cubosomes, a novel lipid-based nanostructured particulate carrier, modified to include the Toll-like receptor agonists monophosphoryl lipid A and imiquimod.

Mannosylated saponins based on oleanolic and glycyrrhizic acids. Towards synthetic colloidal antigen delivery systems.

Immunostimulatory saponin based colloidal antigen delivery systems show promise as adjuvants for subunit vaccines. For this reason, allyl oleanolate was glycosylated at the 3-position using trichloroacetimidate donors to give monodesmodic saponins following deprotection. Bisdesmodic saponins were synthesized by double glycosylation at the 3- and 28-positions of oleanolic acid.

Comparison of chitosan nanoparticles and chitosan hydrogels for vaccine delivery.

In this work the potential of chitosan nanoparticles (CNP) and thermosensitive chitosan hydrogels as particulate and sustained release vaccine delivery systems was investigated. CNP and chitosan hydrogels were prepared, loaded with the model protein antigen ovalbumin (OVA) and characterised. The immunostimulatory capacity of these vaccine delivery systems was assessed in-vitro and in-vivo.

Immunogenicity of lipid sustained release implants containing imiquimod, alpha-galactosylceramide, or Quil-A.

The aim of this study was to investigate and compare the immunogenicity of liposome-forming, sustained release lipid implants containing either an alpha-galactosylceramide (alpha-GalCer) analogue, imiquimod or Quil-A (QA) as adjuvants. Ovalbumin (OVA) was used as a model antigen. Groups of C57Bl/6 mice were subcutaneously immunised with lipid implants containing one of the adjuvants, or inoculated with OVA in alum.

Immunostimulatory lipid implants containing Quil-A and DC-cholesterol.

Biocompatible lipid implants which promote the sustained release of antigen have potential as novel vaccine delivery systems for subunit antigen as they may reduce or remove the requirement for multiple administrations. Of particular interest are sustained release systems that release antigen incorporated into particles. Previous work has demonstrated that lipid implants prepared from phosphatidylcholine, cholesterol, the adjuvant Quil-A, and ovalbumin as the model antigen could stimulate an immune response equivalent to that induced by a prime and boost with a comparable injectable vaccine.

In vivo activity of cationic immune stimulating complexes (PLUSCOMs).

A particulate vaccine delivery system consisting of cationic ISCOM derivatives (PLUSCOMs) was compared to classic anionic ISCOMs with regard to antigen attachment and ability to elicit in vivo T cell responses against a model protein antigen (ovalbumin [OVA]). ISCOMs did not incorporate hydrophilic OVA whilst OVA readily adsorbed onto PLUSCOMs with increasing adsorption at higher protein concentrations. The zeta-potential of PLUSCOMs significantly decreased with increasing protein load, suggesting neutralization of the cationic charge upon absorption of the anionic OVA.

Immunostimulatory biodegradable implants containing the adjuvant Quil-A--Part II: In vivo evaluation.

Sustained-release formulations have drawn the attention of formulation scientists working in the area of vaccine research because these systems may reduce the need for booster immunisations. This would be of great advantage especially for the administration of subunit vaccines. The aim of this study was to illustrate the performance of liposome-forming, sustained-release lipid implants containing 2% of the adjuvant Quil-A (QA) (w/w of total lipids) and ovalbumin (OVA) as a model antigen, in an in vivo study using C57Bl/6 mice.

On the preparation, microscopic investigation and application of ISCOMs.

ISCOM matrices constitute colloidal structures formed from Quillaja saponins, cholesterol and phospholipid. Addition of protein antigens to these matrices leads to the formation of ISCOMs. In this review we report on microscopic investigations of ISCOM matrices and ISCOMs as well as related colloidal structures, such as helices, worm-like micelles, ring-like micelles, and lamellae structures.

Immunostimulatory colloidal delivery systems for cancer vaccines.

Cancer vaccine delivery is a multidisciplinary scientific field that is currently undergoing rapid development. An important component of cancer vaccines is the development of novel vaccine delivery strategies, such as colloidal immunostimulatory delivery systems. The importance of formulation strategies for cancer vaccines can be explained by the poor immunogenicity of tumour antigens.

PCR/DGGE and 16S rRNA gene library analysis of the colonic microbiota of HLA-B27/beta2-microglobulin transgenic rats.

Aims: To determine the phylogenetic composition of the colonic microbiota of transgenic (TG) HLA-B27 rats using 16S ribosomal RNA (rRNA) gene sequences obtained from denaturing gradient gel electrophoresis (DGGE) gels and sequences from a 16S rRNA gene library.

Methods And Results: Colonic microbiota of TG and nontransgenic (NT) rats harboured by 10-week-old and 6-month-old animals was screened using PCR/DGGE. Six months old TG rats had marked inflammation of the colon compared with 10-week-old TG and NT rats.