quil-a and aluminum-sulfate

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. However, entrapment of antigen into particles released from the implant was low. Therefore the aim of this study was to firstly determine if the inclusion of a cationic derivative of cholesterol, DC-cholesterol, into the implants increased antigen entrapment and immunogenicity, and secondly, if a cationic implant could induce at least a comparable immune response as compared to a prime and boost with an injectable vaccine. The inclusion of DC-cholesterol had only a minor effect on antigen entrapment into particles released from the implants and the implants did not stimulate cellular responses as effectively as the comparable injectable vaccine or the unmodified implant containing Quil-A and cholesterol, although the vaccine did induce stronger responses than either soluble protein alone, or protein co-delivered in alum.

Topics: Adjuvants, Immunologic; Alum Compounds; Animals; Antibodies; Antibody Formation; CD4-Positive T-Lymphocytes; CD8-Positive T-Lymphocytes; Cholesterol; Drug Compounding; Drug Implants; Immunity, Cellular; Injections; Kinetics; Liposomes; Lymphocyte Activation; Male; Mice; Mice, Inbred C57BL; Ovalbumin; Phosphatidylcholines; Quillaja Saponins; Saponins; Solubility; Vaccines

The aim of this study was to investigate the subcutaneous tissue response to administration of a single dose of multi-component vaccine in the cat. Three groups of 15 cats were injected with one of three vaccine products with saline as a negative control. Cats in group A received non-adjuvanted vaccine; cats in group B received vaccine with a lipid-based adjuvant; whilst those in group C were vaccinated with a product adjuvanted with an alum-Quil A mixture. The vaccine and saline injection sites were sampled on days 7, 21 and 62 post-vaccination. Biopsies of these vaccine sites were examined qualitatively and scored semi-quantitatively for a series of parameters related to aspects of the inflammatory and tissue repair responses. These data were analysed statistically, including by principal component analysis. At all three time points of the experiment, there was significantly less inflammation associated with administration of non-adjuvanted vaccine (p=0.000). Although there was evidence of tissue repair by day 62 in all groups, those cats receiving adjuvanted vaccines had evidence of residual adjuvant material accumulated within macrophages at this late time point. The severity of tissue reactions may vary significantly in response to vaccines which include adjuvants or are non-adjuvanted.

Topics: Adjuvants, Immunologic; Alum Compounds; Animals; Calicivirus, Feline; Cats; Feline Panleukopenia Virus; Herpesviridae; Inflammation; Quillaja Saponins; Saponins; Subcutaneous Tissue; Vaccines, Combined; Viral Vaccines

The characterization of the immunological cascades of the innate immune system activated by pathogen associated molecular patterns (PAMP) recognized by pattern recognition receptors (PRR) have allowed the elucidation of the mechanisms underlying the immunomodulatory properties of adjuvants. Thus, the combinatorial use of adjuvants with specific, complementary functions is investigated to achieve tailored immune responses to subunit vaccines. We have previously shown how combinatorial administration of chitosan and cholera toxin B or muramyl-di-peptide (MDP) intranasally, but not intramuscularly, can allow small doses of MDP which, when administered alone cannot adjuvantise Helicobacter pylori urease (rUre), achieve an immunomodulatory effect through the specific physiological effect of chitosan. The aim of this study was to investigate if in the context of rUre the adjuvantising effect of MDP could be realized via the intramuscular route by combination with aluminium hydroxide, as compared with the routinely used veterinary adjuvant combination of alum and Quil-A. Serum IgG kinetics were comparable between the two adjuvant combination groups. However, the alum + MDP combination afforded higher antigen-specific recall responses in splenocyte cultures, associated with elevated release of the type I immune response cytokines IFN-gamma and IL-2. This data suggests that the adjuvanticity of MDP can be modulated in the context of alum in a manner dissimilar to that of Quil-A, achieving a balancing effect on the responses elicited by alum adjuvantisation.

Topics: Acetylmuramyl-Alanyl-Isoglutamine; Adjuvants, Immunologic; Alum Compounds; Animals; Female; Immunoglobulin A; Immunoglobulin G; Interferon-gamma; Mice; Mice, Inbred BALB C; Quillaja Saponins; Saponins

In this study, the haemolytic activities of Glycyrrhiza uralensis saponins (GLS) and its adjuvant potentials on the cellular and humoral immune responses of ICR mice against ovalbumin (OVA) were evaluated. We determined the haemolytic activity of GLS using 0.5% rabbit red blood cell. Haemolytic percents of GLS-treated red blood cell were 11.20 and 5.54% at the concentrations of 500 and 250 microg/ml, respectively. ICR mice were immunized subcutaneously with OVA 100 microg alone or with OVA 100 microg dissolved in saline containing Alum (200 microg), QuilA (10 and 20 microg), or GLS (50, 100, or 200 microg) on Days 1 and 15. Two weeks later (Day 28), concanavalin A (Con A)-, lipopolysaccharide (LPS)-, and OVA-stimulated splenocyte proliferation and OVA-specific serum antibodies were measured. GLS significantly enhanced the Con A-, LPS-, and OVA-induced splenocyte proliferation in the OVA-immunized mice at a dose of 100 microg (P<0.025). OVA-specific IgG, IgG1, and IgG2b antibody titers in serum were also significantly enhanced by GLS compared with OVA control group (P<0.025). Moreover, no significant differences (P>0.05) were observed between enhancing effect of GLS and QuilA on the OVA-specific IgG, IgG1, and IgG2b antibody responses to OVA in mice. The results suggest that GLS showed a slight haemolytic effect and enhanced significantly a specific antibody and cellular response against OVA in mice, and deserved further researches to be developed as immunological adjuvant.

Topics: Adjuvants, Immunologic; Alum Compounds; Animals; Antibodies; Antibody Formation; Erythrocytes; Glycyrrhiza uralensis; Hemolysis; Immunoglobulin G; Injections, Subcutaneous; Lymphocyte Activation; Lymphocytes; Male; Mice; Mice, Inbred ICR; Ovalbumin; Quillaja Saponins; Rabbits; Saponins

Beta-amyloid (Abeta) peptide has been proposed to be a causal factor in Alzheimer's disease (AD). Currently being investigated, active and passive Abeta-immunotherapy significantly reduce Abeta plaque deposition, neuritic dystrophy, and astrogliosis in the brains of APP transgenic (APP/Tg) mice. Immunization with Abeta42 formulated in the Th1-type adjuvant QS21 was beneficial for AD patients with significant titers of anti-Abeta antibodies, however, 6% of participants developed meningoencephalitis, likely due to anti-Abeta-specific autoimmune Th1 cells. Thus, successful Abeta vaccination requires the development of strong antibody responses without Th1-type cellular immunity. In this study, we compared the induction of humoral immune responses with Th1-type (Quil A) and Th2-type (Alum) adjuvants singly and in combination, using our novel epitope vaccine composed of self B cell epitope Abeta(1-15) and foreign T cell epitope PADRE (PADRE-Abeta(1-15)-MAP). Formulated in Quil A, this vaccine resulted in significantly higher anti-Abeta antibody responses in both BALB/c (H-2d) and C57BL/6 (H-2b) mice, compared with Alum. Anti-Abeta antibodies induced by Alum were predominantly IgG1 type accompanied by lower levels of IgG2a and IgG2b. Quil A induced robust and almost equal titers of anti-Abeta antibodies of IgG1 and IgG2a isotypes and slightly lower levels of IgG2b. Switching adjuvants from Alum to Quil A induced higher concentrations of antibodies than injections with Alum only, however slightly lower than Quil A only. Switching both adjuvants did not change the profile of antibody responses generated by the initial adjuvant injected. These results suggest that switching from Alum to Quil A would be beneficial for AD patients because anti-Abeta antibody production was enhanced without changing the initially generated and likely beneficial Th2-type humoral response.

Topics: Adjuvants, Immunologic; Alum Compounds; Alzheimer Disease; Amyloid beta-Peptides; Animals; Antibody Formation; Brain; Epitopes, B-Lymphocyte; Epitopes, T-Lymphocyte; Female; Immunization; Mice; Mice, Inbred BALB C; Mice, Inbred C57BL; Quillaja Saponins; Saponins; Th1 Cells; Th2 Cells

Recent studies have shown that immunization with Streptococcus bovis using Freund's complete adjuvant (FCA) may confer protection against lactic acidosis in sheep. The major objective of this study was to compare the antibody responses to S. bovis in a practically acceptable adjuvant (Freund's incomplete adjuvant (FIA); QuilA; dextran sulphate (Dex); Imject Alum; or Gerbu) and in FCA. Thirty-five sheep were randomly allocated to 7 treatment groups. Six groups were immunized with S. bovis in an adjuvant; the other group served as the non-immunization control. The primary immunization was administered intramuscularly on day 0. followed by a booster injection on day 28. Immunization with FCA induced the highest saliva and serum antibody responses. The saliva antibody concentrations in the FIA and QuilA groups were significantly higher than those in the Alum, Dex and Gerbu groups (p < 0.01). The serum antibody concentration in the FIA group was significantly higher than those in the QuilA, Alum. Dex and Gerbu groups (p < 0.01). Immunization enhanced the antibody level in faeces (p < 0.05), but there was no significant difference between the different adjuvant groups (p > 0.05). Seven and 14 days following booster immunization, the saliva antibody levels induced by QuilA and/or FIA were comparable with the level stimulated by FCA (p > 0.05). There was a strongly positive correlation (R2 = 0.770, p < 0.01) between the antibody concentrations in salival and serum. Compared with the controls, a higher faecal dry matter content was observed in the animals immunized with either FCA or QuilA. The change in faecal dry matter content was positively associated with the faecal antibody concentration (R2 = 0.441, p < 0.05). These results indicate that FIA and QuilA were effective at inducing high levels of antibody responses to S. bovis, and suggest that either Freund's incomplete adjuvant or QuilA may be useful for preparing a practically acceptable vaccine against lactic acidosis.

Topics: Adjuvants, Immunologic; Alum Compounds; Animals; Antibodies, Bacterial; Bacterial Vaccines; Dextrans; Enzyme-Linked Immunosorbent Assay; Feces; Freund's Adjuvant; Injections, Intramuscular; Male; Quillaja Saponins; Random Allocation; Saliva; Saponins; Sheep; Streptococcus bovis; Vaccination

To determine efficacy of vaccines incorporating QuilA, alum, dextran combined with mineral oil, or Freund adjuvant for immunization of feedlot cattle against Streptococcus bovis and Lactobacillus spp.. 24 steers housed under feedlot conditions.. Steers were randomly assigned to 4 experimental groups and a control group. Animals in experimental groups were inoculated on days 0 and 26 with vaccines containing Freund adjuvant (FCA), QuilA, dextran combined with mineral oil (Dex), or alum as adjuvant. Serum anti-S bovis and anti-Lactobacillus IgG concentrations were measured, along with fecal pH, ruminal fluid pH, and number of S bovis and Lactobacillus spp in ruminal fluid.. Throughout the study, serum anti-S bovis and anti-Lactobacillus IgG concentrations for animals in the Dex, QuilA, and alum groups were similar to or significantly higher than concentrations for animals in the FCA group. Serum anti-S bovis and anti-Lactobacillus IgG concentrations were significantly increased on days 26 through 75 in all 4 experimental groups, and there was a linear relationship between anti-S bovis and anti-Lactobacillus IgG concentrations. For animals in the QuilA and Dex groups, mean pH of feces throughout the period of experiment were significantly higher and numbers of S bovis and Lactobacillus spp in ruminal fluid on day 47 were significantly lower than values for control cattle.. Results suggest that immunization of feedlot steers against S bovis and Lactobacillus spp with vaccines incorporating Freund adjuvant, QuilA, dextran, or alum as an adjuvant effectively induced high, long-lasting serum anti-S bovis and anti-Lactobacillus IgG concentrations. Of the adjuvants tested, dextran may be the most effective.

Topics: Adjuvants, Immunologic; Alum Compounds; Analysis of Variance; Animals; Antibodies, Bacterial; Anticoagulants; Bacterial Vaccines; Body Weight; Cattle; Cattle Diseases; Dextrans; Feces; Freund's Adjuvant; Hydrogen-Ion Concentration; Immunoglobulin G; Lactobacillus; Linear Models; Male; Quillaja Saponins; Random Allocation; Rumen; Saponins; Streptococcal Infections; Streptococcal Vaccines; Streptococcus bovis; Vaccination

The ability of five different adjuvants (alum, complete Freund's adjuvant, Quil A, AdjuPrime and Ribi) to stimulate humoral and T-cell mediated immune responses against a purified chimeric virus particle was investigated. Each adjuvant was administered subcutaneously to adult mice together with 10 microg of wildtype (wt) cowpea mosaic virus (CPMV) or a chimeric CPMV displaying the HIV-1 gp41 peptide, residues 731-752. All preparations elicited strong antibody responses to CPMV, but Quil A elicited the highest and most consistent responses to the HIV-1 peptide. This finding was reflected in both ELISA titres with immobilized peptide and in HIV-1-neutralizing antibody. In addition Quil A was also, the only adjuvant to stimulate an in vitro proliferative T-cell response. Surprisingly with all adjuvant formulations a predominately IgG2a anti-gp41 peptide response was observed, indicating a type 1 T-helper cell-like response. Furthermore, the efficiency of the CPMV display system was demonstrated by its ability to induce good levels of peptide specific antibody in the absence of any adjuvant.

Topics: Adjuvants, Immunologic; Alum Compounds; Animals; Antibodies, Viral; Cell Wall Skeleton; Chimera; Comovirus; Cord Factors; Freund's Adjuvant; HIV Envelope Protein gp41; Immunization, Secondary; Lipid A; Mice; Quillaja Saponins; Recombinant Fusion Proteins; Saponins; T-Lymphocytes; Viral Vaccines

Serum antibody responses to the model protein antigen avidin were monitored in sheep following intradermal injection of avidin formulated with a range of commercially available and experimental adjuvants, including muramyl dipeptide (MDP), aluminium hydroxide gel (alum), recombinant ovine interleukin1 beta (rovIL-1 beta), rovIL-1 beta + alum, Quil A + alum or Emulsigen Plus. The highest antibody responses were recorded for animals immunised with avidin in rovIL-1 beta + alum, Quil A + alum or Emulsigen Plus, with moderate responses resulting from use of rovIL-1 beta or alum alone as adjuvants. Lower antibody responses to avidin were recorded when avidin was administered alone or with MDP. Delayed-type hypersensitivity (DTH) responses to avidin indicated that the most pronounced cellular response occurred in animals immunised with rovIL-1 beta + alum. Local cellular changes induced after primary and secondary intradermal injections indicated that distinct patterns of cellular recruitment were induced by the different adjuvants. Avidin with MDP resulted in an elevation of CD4+ T cells in the upper dermis while Emulsigen Plus induced an infiltration of large numbers of neutrophils throughout the dermis and reticular layers. CD4+, CD8+ and gamma delta + T cells increased in number and were found evenly distributed throughout these regions. Alum-based adjuvants resulted in the development of distinct cellular accumulations comprising primarily CD4+ T cells and CD45R + B cells arranged in distinct foci in the reticular layer. These cells were strongly class II positive as were the majority of macrophage like cells surrounding the foci. Staining for factor VIII related antigen indicated the presence of endothelial venules in the T and B cell foci and surrounding tissues.

Topics: Acetylmuramyl-Alanyl-Isoglutamine; Adjuvants, Immunologic; Administration, Cutaneous; Alum Compounds; Animals; Antibody Formation; Avidin; Female; Hypersensitivity, Delayed; Interleukin-1; Male; Quillaja Saponins; Recombinant Proteins; Saponins; Sheep; T-Lymphocytes