Publications (31) View all
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Article: Longevity of the protective immune response induced after vaccination with one or two doses of AS03A-adjuvanted split H5N1 vaccine in ferrets.
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ABSTRACT: It is crucial that a safe and effective pandemic vaccine be rapidly available to combat a new pandemic threat. In this study we investigated the magnitude and persistence of the protective efficacy induced by one or two doses (3.75 μg HA/dose) of AS03(A)-adjuvanted H5N1 A/Indonesia/5/05 split vaccine in a lethal ferret challenge model. All ferrets that received at least one dose of adjuvanted vaccine 4 weeks before homologous challenge survived and showed reduced or undetectable virus replication in the lungs and the upper airways. Ferrets receiving two doses of adjuvanted vaccine 19 and 16 weeks before the challenge also showed high level of protection from replication in the lungs and the upper airways, albeit with only 83% survival. Animals in the control groups (non-adjuvanted vaccine or saline) and animals immunized with one dose of adjuvanted vaccine administered 10 or 16 weeks before challenge showed only 17-33% survival rate after challenge. In conclusion, our observations support the possibility that a single dose of AS03(A)-adjuvanted H5N1 split vaccine can offer a rapid and short term but partial protection against disease. A second dose of the adjuvanted vaccine, which can be given with a flexible injection schedule, was shown to be essential to induce appreciable levels of antibodies and long-term protection.Vaccine 01/2011; 29(11):2092-9. · 3.77 Impact Factor -
Article: Pandemic H1N1 vaccine requires the use of an adjuvant to protect against challenge in naïve ferrets.
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ABSTRACT: In the context of an A/H1N1 influenza pandemic situation, this study demonstrates that heterologous vaccination with an AS03-adjuvanted 2008/2009 seasonal trivalent and pandemic H5N1 monovalent split vaccine conferred partial protection in influenza-naïve ferrets after challenge with the influenza pandemic H1N1 A/The Netherlands/602/09 virus. Further, unlike saline control and non-adjuvanted vaccine, it was shown that immunization of naïve ferrets with an AS03-adjuvanted pandemic H1N1 A/California/7/09 influenza split vaccine induced increased antibody response and enhanced protection against the challenge strain, including significant reduction in viral shedding in the upper respiratory tract and reduced lung pathology post-challenge. These results show the need for vaccination with the adjuvanted vaccine to fully protect against viral replication and influenza disease in unprimed ferrets.Vaccine 01/2011; 29(11):2120-6. · 3.77 Impact Factor -
Article: Molecular and structural characterization of the L1 virus-like particles that are used as vaccine antigens in Cervarix™, the AS04-adjuvanted HPV-16 and -18 cervical cancer vaccine.
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ABSTRACT: Cervarix™ is a prophylactic human papillomavirus (HPV)-16/18 vaccine developed for the prevention of cervical cancer. The vaccine antigens are HPV-16 and HPV-18 L1 virus-like particles (VLPs) made from baculovirus expression vector system (BEVS)-produced HPV-16 and HPV-18 L1 proteins, respectively. In this study, we demonstrate that truncation of the nuclear targeting and DNA binding signals at the C-terminus of the HPV-16 and HPV-18 L1 proteins prevented intranuclear formation of the VLPs in the host cells and led to cytoplasmic localization of the L1 proteins as shown by in situ immunogold detection and electron microscopy. Following purification, these L1 proteins were able to form VLPs. The characteristics of these HPV-16 and HPV-18 L1 VLPs were studied using various physicochemical and immunological techniques. Amino acid analysis, SDS-PAGE and western blotting demonstrated the high purity of the L1 proteins and batch-to-batch consistency. The structure of the VLPs was shown to be similar to that reported for the native virions, as evaluated by microscopic observations, protein tomography and disc centrifugation experiments. The presence of important conformation-dependent neutralizing epitopes, such as U4, V5 and J4, was confirmed by ELISA and surface plasmon resonance. Structural robustness and consistency among batches was also observed by differential scanning calorimetry and electron microscopy. Moreover, adsorption to aluminum was shown not to impair VLP structure. In conclusion, the BEVS-produced HPV-16 and HPV-18 L1 VLPs display key structural and immunological features, which contribute to the efficacy of Cervarix™ vaccination.Human vaccines 05/2010; 6(5):407-19. · 3.58 Impact Factor -
Article: Dendritic cells induce the death of human papillomavirus-transformed keratinocytes.
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ABSTRACT: Although human papillomavirus (HPV) antigens are expressed in a majority of (pre)neoplastic lesions (squamous intraepithelial lesions; SILs) of the uterine cervix, progression to invasive cancer may occur, which suggests that the presentation of viral antigens to the immune system is deficient in some SILs. To determine whether professional antigen-presenting cells die in SILs, we assayed for the apoptosis of immature dendritic cells (DC) in organotypic cultures of HPV-transformed keratinocytes, which reproduce many features of in vivo observed SILs. Unexpectedly, the infiltration of organotypic cultures by DC specifically induced the apoptosis of HPV+ tumor cells, whereas DC were not affected. In the same conditions and in coculture experiments, apoptosis was not observed in normal keratinocytes. The induction of apoptosis required membrane contacts between DC and HPV-transformed keratinocytes. Although the HPV+cell lines were sensitive to the effects of TRAIL, soluble TRAILR2-Fc did not block the DC-induced apoptosis. Furthermore, although FasL and Fas were detected on DC and HPV+ cell lines, respectively, functional analysis revealed that this pathway is not responsible for the apoptosis induced by the DC. All together these results suggest that DC may be at the interface between innate and adaptive immunity by inducing the apoptosis of (pre)neoplastic cells.The FASEB Journal 12/2001; 15(13):2521-3. · 5.71 Impact Factor -
Article: The organotypic culture of HPV-transformed keratinocytes: an effective in vitro model for the development of new immunotherapeutic approaches for mucosal (pre)neoplastic lesions
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ABSTRACT: The purpose of this study is to develop a reliable in vitro human model to test new immunotherapeutic approaches for squamous cell carcinoma that develop on mucosal surfaces. The organotypic (raft) culture permits cells to proliferate and differentiate at an air–liquid interface on a dermal equivalent support. Normal keratinocytes stratify and fully differentiate in a manner similar to the normal squamous epithelial tissues, while human papillomavirus-immortalized and established squamous carcinoma cell lines exhibit dysplastic morphologies similar to (pre)neoplastic lesions seen in vivo. We have demonstrated the ability of these organotypic cultures to be manipulated by altering the epithelial stratification with cytokines (interferon-γ and tumor necrosis factor-α) and by integrating activated lymphocytes or dendritic cells into the in vitro formed epithelial sheet. This model may provide a useful tool to investigate the factors contributing to the presence and function of immunocompetent cells within a neoplastic epithelium that develops on a mucosal surface.Vaccine 04/2001; · 3.77 Impact Factor
