Kristen M. Heers scite author profile

The feasibility of using the highly purified native attachment (G) protein in a subunit vaccine against respiratory syncytial virus (RSV) was examined in a murine model with or without the fusion (F) protein of RSV and the adjuvant QS-21. The studies established that QS-21 was more potent than AlOH as an adjuvant for both F and G glycoproteins. Augmented antigen-dependent killer cell activity and complement-assisted serum neutralizing and anti-F and G protein immunoglobulin G2a antibody titers were observed. Immunization with G/QS-21 generated immune responses that were characterized by low levels of antigen-dependent killer cell activity, elevated levels of interleukin-5 (IL-5) and percentages of eosinophils in the bronchoalveolar lavage fluids after challenge, and splenic immunocytes that secreted IL-5 but not gamma interferon (IFN-␥) after in vitro stimulation with purified whole virus antigens. The pulmonary eosinophilia was similar to that induced by a facsimile of a formalin-inactivated vaccine used in previous clinical trials and was prevented by prior in vivo treatment with anti-IL-5 but not with control immunoglobulin G or anti-IFN-␥ neutralizing monoclonal antibodies. Thus the data implied that vaccination with G/QS-21 generated helper T-cell immune responses that were type 2 in nature. Alternatively, the data suggested that the helper T-cell immune responses elicited by F/QS-21 were more type 1 in character. Neither eosinophilia nor elevated levels of IL-5 were observed in the lungs of mice after challenge. Noteworthy levels of antigen-dependent killer cell activity was observed, and splenic immunocytes secreted copious quantities of IFN-␥. Immunization with a combination vaccine composed of highly purified native F and G proteins plus QS-21 (F؉G/QS-21) resulted in augmented complement-assisted serum neutralizing antibody titers compared with vaccination with either F/QS-21 or G/QS-21 alone. However, following vaccination with F؉G/QS-21, the bronchoalveolar lavage fluids contained significant increases in IL-5 and percentages of eosinophils after challenge, the spleen cells appeared to secrete less IFN-␥ after in vitro stimulation, and there was no evidence of increased numbers of antigen-dependent killer cell precursors. Taken together, the data imply that native G protein influences the nature of the immune responses elicited by F/QS-21. The results therefore suggest that G, not F, protein has more potential to bias the host for atypical pulmonary inflammatory responses.

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CpG containing oligodeoxynucleotides are potent adjuvants for parenteral vaccination with the fusion (F) protein of respiratory syncytial virus (RSV)

Hancock

Heers

Smith

et al. 2001

Vaccine

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Immune responses to the nonglycosylated ectodomain of respiratory syncytial virus attachment glycoprotein mediate pulmonary eosinophilia in inbred strains of mice with different MHC haplotypes

Hancock

Tebbey

Scheuer

et al. 2003

Journal of Medical Virology

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Development of subunit vaccines against respiratory syncytial virus (RSV) for naive human infants is hindered by concerns that immunization with the fusion or attachment (G) proteins will elicit polarized Type 2 T cell responses and cause immunopotentiation upon subsequent natural infection. We investigated the regions of G protein responsible for inducing a Type 2 T cell phenotype in inbred mice of different MHC haplotype toward development of vaccines with improved safety. As demonstrated by IL-5-dependent pulmonary eosinophilia after challenge and serum anti-G protein IgG1 to IgG2 ratios, highly purified native G protein sensitized all strains for a Type 2 T cell phenotype. Stimulation of G protein-primed splenocytes with synthetic overlapping peptides indicated that the nonglycosylated ectodomain was primarily responsible. Respectively the recall responses of BALB/c (H2(d)), C57BL/6 (H-2(b)), SJL (H-2(s)), and C3H/HeJ (H-2(k)) mice were directed against epitopes within peptides spanning amino acids 184-198 (pep(184-198)), 168-181 (pep(168-181)) or 171-185 (pep(171-185)), 176-190 (pep(176-190)), and 104-118 (pep(104-118)) or 159-173 (pep(159-173)). Injection of pep(184-198) conjugated to KLH (pep(184-198)-KLH) primed H2(d) [BALB/c, B6.C-H2(d)/bBy], but not H-2(b) [C57Bl/6, C.B10-H2(b)/LiMcd] mice for pulmonary eosinophilia. Sensitization with a peptide-KLH conjugate encompassing amino acids 149-200 (pep(149-200)-KLH) further confirmed that Type 2 T cell responses in BALB/c, C57BL/6 and SJL, but not C3H/HeJ mice were induced by the nonglycosylated ectodomain of G protein. These data are important for design of safe and efficacious subunit and attenuated vaccines for RSV.

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Serum Neutralizing Antibody Titers of Seropositive Chimpanzees Immunized with Vaccines Coformulated with Natural Fusion and Attachment Proteins of Respiratory Syncytial Virus

Hancock¹,

Smith²,

Heers³

2000

J INFECT DIS

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Subunit vaccines formulated with purified fusion proteins from the A2 (PFP-2) or attenuated 248/404 (PFP-3) strains of respiratory syncytial virus (RSV) were evaluated, either alone or in combination with native attachment (G) protein, for their ability to augment serum neutralizing antibody titers in seropositive chimpanzees. The results suggested that combination vaccines enhanced serum neutralizing antibody titers against both laboratory strains and clinical isolates of RSV. When compared with PFP-2 alone, the resultant neutralizing antibody titers after vaccination with PFP-2+Ga protein were significantly elevated against 71% of A strains tested. In a confirmatory experiment, immunization with PFP-3+Ga+Gb proteins resulted in elevated serum neutralizing antibody titers against 86% of A and 50% of B strains tested versus injection with PFP-3 alone. The results suggest that subunit vaccines composed of both PFP and G proteins have more potential than PFP alone to augment neutralizing antibody titers in seropositive recipients.

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The Immunogenicity of Subunit Vaccines for Respiratory Syncytial Virus after Co-formulation with Aluminum Hydroxide Adjuvant and Recombinant Interleukin-12

Hancock¹,

Smith²,

Heers³

2000

Viral Immunology

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The effects of recombinant interleukin-12 (rIL-12) on immune responses generated by subunit vaccines for respiratory syncytial virus (RSV) were evaluated in BALB/c mice. Parenteral co-administration of rIL-12 with F/AlOH or F/PBS resulted in accelerated clearance of infectious virus from the lungs 4 days after challenge. The immune responses elicited by 0.03 microg of F protein plus 10 ng of rIL-12 adsorbed to AlOH were more efficacious than those induced by 3 microg of F protein co-formulated with 1,000 ng of rIL-12 in PBS alone. Adsorption to AIOH prolonged the presence of rIL-12 in the sera. The resultant systemic humoral immune responses after vaccination with F/AlOH or G/AlOH were dependent on the dose of rIL-12 and characterized by heightened serum immunoglobulin G2a (IgG2a) antibody titers. Co-administration of rIL-12 with F/AlOH was also associated with diminished protein-specific IgE titers, elevated neutralizing antibody titers, and interferon-gamma and (IFN-gamma) in the sera, and enhanced antigen-dependent killer cell activity in the lungs after challenge. For maximum benefit, the data suggested that rIL-12 must be co-administered with F/AlOH. Collectively, the results indicated that rIL-12 directed immune responses toward a type 1 phenotype. However, examination of pulmonary inflammatory cells after challenge suggested that the type 1 phenotype was not absolute. Co-formulation with rIL-12 did not diminish pulmonary eosinophilia upon challenge of naive mice primed with F/AlOH, G/AlOH, or FI-RSV, and CD4+ T cells were expanded relative to the CD8+ T-cell compartment. These results are important for the future design of subunit vaccines against RSV.

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Kristen M. Heers

Generation of atypical pulmonary inflammatory responses in BALB/c mice after immunization with the native attachment (G) glycoprotein of respiratory syncytial virus

CpG containing oligodeoxynucleotides are potent adjuvants for parenteral vaccination with the fusion (F) protein of respiratory syncytial virus (RSV)

Immune responses to the nonglycosylated ectodomain of respiratory syncytial virus attachment glycoprotein mediate pulmonary eosinophilia in inbred strains of mice with different MHC haplotypes

Serum Neutralizing Antibody Titers of Seropositive Chimpanzees Immunized with Vaccines Coformulated with Natural Fusion and Attachment Proteins of Respiratory Syncytial Virus

The Immunogenicity of Subunit Vaccines for Respiratory Syncytial Virus after Co-formulation with Aluminum Hydroxide Adjuvant and Recombinant Interleukin-12

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