Your search keyword '"Vanloubbeeck Y"' showing total 16 results

1. Late Cutaneous Metastases in C3H SCID Mice Infected with Leishmania amazonensis

Author

Vanloubbeeck, Y., Ackermann, M. R., and Jones, D. E.

Published

2005

2. The biology of dendritic cells and their potential use in veterinary medicine

Author

Vanloubbeeck, Y., Hostetter, J., and Jones, D. E.

Published

2003

3. The biology of dendritic cells and their potential use in veterinary medicine

Author

Jones, D. E., primary, Jones, D. E., additional, Vanloubbeeck, Y., additional, and Hostetter, J., additional

Published

2003

4. Non-clinical evaluation of local and systemic immunity induced by different vaccination strategies of the candidate tuberculosis vaccine M72/AS01.

Author

Ouaked N, Demoitié MA, Godfroid F, Mortier MC, Vanloubbeeck Y, and Temmerman ST

Subjects

Animals, Mice, CD8-Positive T-Lymphocytes, Vaccination, Immunization, Tuberculosis Vaccines, Mycobacterium tuberculosis

Abstract

A new efficacious tuberculosis vaccine targeting adolescents/adults represents an urgent medical need. The M72/AS01 E vaccine candidate protected half of the latently-infected adults against progression to pulmonary tuberculosis in a Phase IIb trial (NCT01755598). We report that three immunizations of mice, two weeks apart, with AS01-adjuvanted M72 induced polyfunctional, Th1-cytokine-expressing M72-specific CD4 + /CD8 + T cells in blood and lungs, with the highest frequencies in lungs. Antigen-dose reductions across the three vaccinations skewed pulmonary CD4 + T-cell profiles towards IL-17 expression. In blood, reducing antigen and adjuvant doses of only the third injection (to 1/5th or 1/25th of those of the first injections) did not significantly alter CD4 + T-cell/antibody responses; applying a 10-week delay for the fractional third dose enhanced antibody titers. Delaying a full-dose booster enhanced systemic CD4 + T-cell and antibody responses. Cross-reactivity with PPE and non-PPE proteins was assessed, as Mycobacterium tuberculosis (Mtb) virulence factors and evasion mechanisms are often associated with PE/PPE proteins, to which Mtb39a (contained in M72) belongs. In silico/in vivo analyses revealed that M72/AS01 induced cross-reactive systemic CD4 + T-cell responses to epitopes in a non-vaccine antigen (putative latency-associated Mtb protein PPE24/Rv1753c). These preclinical data describing novel mechanisms of M72/AS01-induced immunity could guide future clinical development of the vaccine., Competing Interests: Declaration of competing interest All authors are employees of the GSK group of companies. NO, MAD, FG, YV and STT hold shares in the GSK group of companies. NO, MAD and STT are listed as inventors on patents owned by the GSK group of companies., (Copyright © 2023 GlaxoSmithKline Biologicals SA. Published by Elsevier Ltd.. All rights reserved.)

Published

2023

5. The RSVPreF3-AS01 vaccine elicits broad neutralization of contemporary and antigenically distant respiratory syncytial virus strains.

Author

Sacconnay L, De Smedt J, Rocha-Perugini V, Ong E, Mascolo R, Atas A, Vanden Abeele C, de Heusch M, De Schrevel N, David MP, Bouzya B, Stobbelaar K, Vanloubbeeck Y, Delputte PL, Mallett CP, Dezutter N, and Warter L

Subjects

Humans, Aged, Respiratory Syncytial Viruses, Antigens, Viral, Respiratory Syncytial Virus Infections prevention & control, Vaccines

Abstract

The RSVPreF3-AS01 vaccine, containing the respiratory syncytial virus (RSV) prefusion F protein and the AS01 adjuvant, was previously shown to boost neutralization responses against historical RSV strains and to be efficacious in preventing RSV-associated lower respiratory tract diseases in older adults. Although RSV F is highly conserved, variation does exist between strains. Here, we characterized variations in the major viral antigenic sites among contemporary RSV sequences when compared with RSVPreF3 and showed that, in older adults, RSVPreF3-AS01 broadly boosts neutralization responses against currently dominant and antigenically distant RSV strains. RSV-neutralizing responses are thought to play a central role in preventing RSV infection. Therefore, the breadth of RSVPreF3-AS01-elicited neutralization responses may contribute to vaccine efficacy against contemporary RSV strains and those that may emerge in the future.

Published

2023

6. Route of inoculation and mosquito vector exposure modulate dengue virus replication kinetics and immune responses in rhesus macaques.

Author

McCracken MK, Gromowski GD, Garver LS, Goupil BA, Walker KD, Friberg H, Currier JR, Rutvisuttinunt W, Hinton KL, Christofferson RC, Mores CN, Vanloubbeeck Y, Lorin C, Malice MP, Thomas SJ, Jarman RG, Vaughn DW, Putnak JR, and Warter L

Subjects

Animals, Dengue virology, Dengue Virus physiology, Disease Models, Animal, Female, Kinetics, Macaca mulatta immunology, Mosquito Vectors virology, RNA, Viral blood, Salivary Glands virology, Vaccination, Viral Load, Viremia prevention & control, Virus Replication, Antibodies, Neutralizing blood, Antibodies, Viral blood, Dengue immunology

Abstract

Dengue virus (DENV) is transmitted by infectious mosquitoes during blood-feeding via saliva containing biologically-active proteins. Here, we examined the effect of varying DENV infection modality in rhesus macaques in order to improve the DENV nonhuman primate (NHP) challenge model. NHPs were exposed to DENV-1 via subcutaneous or intradermal inoculation of virus only, intradermal inoculation of virus and salivary gland extract, or infectious mosquito feeding. The infectious mosquito feeding group exhibited delayed onset of viremia, greater viral loads, and altered clinical and immune responses compared to other groups. After 15 months, NHPs in the subcutaneous and infectious mosquito feeding groups were re-exposed to either DENV-1 or DENV-2. Viral replication and neutralizing antibody following homologous challenge were suggestive of sterilizing immunity, whereas heterologous challenge resulted in productive, yet reduced, DENV-2 replication and boosted neutralizing antibody. These results show that a more transmission-relevant exposure modality resulted in viral replication closer to that observed in humans., Competing Interests: I have read the journal's policy and the authors of this manuscript have the following competing interests: Yannick Vanloubbeeck, Clarisse Lorin, Marie-Pierre Malice, David Vaughn, and Lucile Warter are employees of the GSK group of companies.

Published

2020

7. Detection of post-vaccination enhanced dengue virus infection in macaques: An improved model for early assessment of dengue vaccines.

Author

Borges MB, Marchevsky RS, Carvalho Pereira R, da Silva Mendes Y, Almeida Mendes LG, Diniz-Mendes L, Cruz MA, Tahmaoui O, Baudart S, Freire M, Homma A, Schneider-Ohrum K, Vaughn DW, Vanloubbeeck Y, Lorin C, Malice MP, Caride E, and Warter L

Subjects

Animals, Antibody-Dependent Enhancement, Dengue prevention & control, Dengue virology, Dengue Vaccines administration & dosage, Disease Models, Animal, Female, Macaca mulatta, Male, Vaccination, Viremia virology, Antibodies, Neutralizing immunology, Antibodies, Viral immunology, Dengue immunology, Dengue Vaccines immunology, Dengue Virus immunology, Vaccines, Inactivated immunology, Viremia immunology

Abstract

The need for improved dengue vaccines remains since the only licensed vaccine, Dengvaxia, shows variable efficacy depending on the infecting dengue virus (DENV) type, and increases the risk of hospitalization for severe dengue in children not exposed to DENV before vaccination. Here, we developed a tetravalent dengue purified and inactivated vaccine (DPIV) candidate and characterized, in rhesus macaques, its immunogenicity and efficacy to control DENV infection by analyzing, after challenge, both viral replication and changes in biological markers associated with dengue in humans. Although DPIV elicited cross-type and long-lasting DENV-neutralizing antibody responses, it failed to control DENV infection. Increased levels of viremia/RNAemia (correlating with serum capacity at enhancing DENV infection in vitro), AST, IL-10, IL-18 and IFN-γ, and decreased levels of IL-12 were detected in some vaccinated compared to non-vaccinated monkeys, indicating the vaccination may have triggered antibody-dependent enhancement of DENV infection. The dengue macaque model has been considered imperfect due to the lack of DENV-associated clinical signs. However, here we show that post-vaccination enhanced DENV infection can be detected in this model when integrating several parameters, including characterization of DENV-enhancing antibodies, viremia/RNAemia, and biomarkers relevant to dengue in humans. This improved dengue macaque model may be crucial for early assessment of efficacy and safety of future dengue vaccines., Competing Interests: The authors declare the following conflicts: MAC, OT, SB, KS-O, YV, CL and LW are employees of the GSK group of companies. DWV used to be an employee of the GSK group of companies at the time when the study was performed. M-PM worked under contract with GSK at the time when the study was performed. KS-O, DWV, YV, CL and LW report owning shares and/or restricted shares in the GSK group of companies. MBB, RSM, RCP, YDSM, LGAM, LD-M, MF, AH and EC are employees of Fiocruz which was contracted by GSK in the context of this study.

Published

2019

8. Characterization of recent and minimally passaged Brazilian dengue viruses inducing robust infection in rhesus macaques.

Author

Borges MB, Marchevsky RS, Mendes YS, Mendes LG, Duarte AC, Cruz M, de Filippis AMB, Vasconcelos PFC, Freire M, Homma A, Mossman S, Lepine E, Vanloubbeeck Y, Lorin C, Malice MP, Caride E, and Warter L

Subjects

Animals, Antibodies, Neutralizing blood, Antibodies, Viral blood, Brazil, Chemokine CCL2 metabolism, Chlorocebus aethiops, Dengue veterinary, Dengue Virus isolation & purification, Down-Regulation, Interferon-gamma metabolism, Interleukin-8, Macaca mulatta, Serogroup, Up-Regulation, Vascular Endothelial Growth Factor A metabolism, Vero Cells, Dengue pathology, Dengue Virus immunology

Abstract

The macaque is widely accepted as a suitable model for preclinical characterization of dengue vaccine candidates. However, the only vaccine for which both preclinical and clinical efficacy results were reported so far showed efficacy levels that were substantially different between macaques and humans. We hypothesized that this model's predictive capacity may be improved using recent and minimally passaged dengue virus isolates, and by assessing vaccine efficacy by characterizing not only the post-dengue virus challenge viremia/RNAemia but also the associated-cytokine profile. Ten recent and minimally passaged Brazilian clinical isolates from the four dengue virus serotypes were tested for their infectivity in rhesus macaques. For the strains showing robust replication capacity, the associated-changes in soluble mediator levels, and the elicited dengue virus-neutralizing antibody responses, were also characterized. Three isolates from dengue virus serotypes 1, 2 and 4 induced viremia of high magnitude and longer duration relative to previously reported viremia kinetics in this model, and robust dengue virus-neutralizing antibody responses. Consistent with observations in humans, increased MCP-1, IFN-γ and VEGF-A levels, and transiently decreased IL-8 levels were detected after infection with the selected isolates. These results may contribute to establishing a dengue macaque model showing a higher predictability for vaccine efficacy in humans.

Published

2018

9. Ad35.CS.01-RTS,S/AS01 Heterologous Prime Boost Vaccine Efficacy against Sporozoite Challenge in Healthy Malaria-Naïve Adults.

Author

Ockenhouse CF, Regules J, Tosh D, Cowden J, Kathcart A, Cummings J, Paolino K, Moon J, Komisar J, Kamau E, Oliver T, Chhoeu A, Murphy J, Lyke K, Laurens M, Birkett A, Lee C, Weltzin R, Wille-Reece U, Sedegah M, Hendriks J, Versteege I, Pau MG, Sadoff J, Vanloubbeeck Y, Lievens M, Heerwegh D, Moris P, Guerra Mendoza Y, Jongert E, Cohen J, Voss G, Ballou WR, and Vekemans J

Subjects

Antibodies, Protozoan immunology, Antibody Formation immunology, CD4-Positive T-Lymphocytes immunology, Double-Blind Method, Humans, Immunization, Secondary methods, Immunoglobulin G immunology, Immunologic Tests methods, Interferon-gamma immunology, Vaccination methods, Malaria immunology, Malaria prevention & control, Malaria Vaccines immunology, Sporozoites immunology

Abstract

Methods: In an observer blind, phase 2 trial, 55 adults were randomized to receive one dose of Ad35.CS.01 vaccine followed by two doses of RTS,S/AS01 (ARR-group) or three doses of RTS,S/AS01 (RRR-group) at months 0, 1, 2 followed by controlled human malaria infection., Results: ARR and RRR vaccine regimens were well tolerated. Efficacy of ARR and RRR groups after controlled human malaria infection was 44% (95% confidence interval 21%-60%) and 52% (25%-70%), respectively. The RRR-group had greater anti-CS specific IgG titers than did the ARR-group. There were higher numbers of CS-specific CD4 T-cells expressing > 2 cytokine/activation markers and more ex vivo IFN-γ enzyme-linked immunospots in the ARR-group than the RRR-group. Protected subjects had higher CS-specific IgG titers than non-protected subjects (geometric mean titer, 120.8 vs 51.8 EU/ml, respectively; P = .001)., Conclusions: An increase in vaccine efficacy of ARR-group over RRR-group was not achieved. Future strategies to improve upon RTS,S-induced protection may need to utilize alternative highly immunogenic prime-boost regimens and/or additional target antigens., Trial Registration: ClinicalTrials.gov NCT01366534.

Published

2015

10. Heterologous prime-boost regimens with a recombinant chimpanzee adenoviral vector and adjuvanted F4 protein elicit polyfunctional HIV-1-specific T-Cell responses in macaques.

Author

Lorin C, Vanloubbeeck Y, Baudart S, Ska M, Bayat B, Brauers G, Clarinval G, Donner MN, Marchand M, Koutsoukos M, Mettens P, Cohen J, and Voss G

Subjects

Adenoviridae, Animals, Antibodies, Viral blood, Cytokines immunology, Enzyme-Linked Immunosorbent Assay, Genes, pol genetics, HIV Antigens genetics, HIV Core Protein p24 genetics, Injections, Intramuscular, Macaca, Mice, Pan troglodytes, Recombinant Fusion Proteins administration & dosage, Recombinant Fusion Proteins genetics, Viral Vaccines administration & dosage, gag Gene Products, Human Immunodeficiency Virus genetics, nef Gene Products, Human Immunodeficiency Virus genetics, Genetic Vectors genetics, HIV-1 immunology, Recombinant Fusion Proteins immunology, T-Lymphocytes immunology, Viral Vaccines immunology

Abstract

HIV-1-specific CD4+ and CD8+ T lymphocytes are important for HIV-1 replication control. F4/AS01 consists of F4 recombinant fusion protein (containing clade B Gag/p24, Pol/RT, Nef and Gag/p17) formulated in AS01 Adjuvant System, and was shown to induce F4-specific polyfunctional CD4+ T-cell responses in humans. While replication-incompetent recombinant HIV-1/SIV antigen-expressing human adenoviral vectors can elicit high-frequency antigen-specific CD8+ T-cell responses, their use is hampered by widespread pre-existing immunity to human serotypes. Non-human adenovirus serotypes associated with lower prevalence may offer an alternative strategy. We evaluated the immunogenicity of AdC7-GRN ('A'), a recombinant chimpanzee adenovirus type 7 vector expressing clade B Gag, RT and Nef, and F4/AS01 ('P'), when delivered intramuscularly in homologous (PP or AA) and heterologous (AAPP or PPAA) prime-boost regimens, in macaques and mice. Vaccine-induced HIV-1-antigen-specific T cells in peripheral blood (macaques), liver, spleen, and intestinal and genital mucosa (mice) were characterized by intracellular cytokine staining. Vaccine-specific IgG antibodies (macaques) were detected using ELISA. In macaques, only the heterologous prime-boost regimens induced polyfunctional, persistent and balanced CD4+ and CD8+ T-cell responses specific to each HIV-1 vaccine antigen. AdC7-GRN priming increased the polyfunctionality of F4/AS01-induced CD4+ T cells. Approximately 50% of AdC7-GRN-induced memory CD8+ T cells exhibited an effector-memory phenotype. HIV-1-specific antibodies were detected with each regimen. In mice, antigen-specific CD4+ and CD8+ T-cell responses were detected in the mucosal and systemic anatomical compartments assessed. When administered in heterologous prime-boost regimens, AdC7-GRN and F4/AS01 candidate vaccines acted complementarily in inducing potent and persistent peripheral blood HIV-1-specific CD4+ and CD8+ T-cell responses and antibodies in macaques. Besides, adenoviral vector priming modulated the cytokine-expression profile of the protein-induced CD4+ T cells. Each regimen induced HIV-1-specific T-cell responses in systemic/local tissues in mice. This suggests that prime-boost regimens combining adjuvanted protein and low-seroprevalent chimpanzee adenoviral vectors represent an attractive vaccination strategy for clinical evaluation.

Published

2015

11. Comparison of the immune responses induced by soluble and particulate Plasmodium vivax circumsporozoite vaccine candidates formulated in AS01 in rhesus macaques.

Author

Vanloubbeeck Y, Pichyangkul S, Bayat B, Yongvanitchit K, Bennett JW, Sattabongkot J, Schaecher K, Ockenhouse CF, Cohen J, and Yadava A

Subjects

Animals, Antibodies, Protozoan blood, CD4-Positive T-Lymphocytes immunology, Cytokines metabolism, Escherichia coli genetics, Gene Expression, Macaca mulatta, Malaria Vaccines administration & dosage, Malaria Vaccines genetics, Plasmodium vivax genetics, Protozoan Proteins genetics, Saccharomyces cerevisiae genetics, Vaccines, Subunit administration & dosage, Vaccines, Subunit genetics, Vaccines, Subunit immunology, Vaccines, Synthetic administration & dosage, Vaccines, Synthetic genetics, Vaccines, Synthetic immunology, Vaccines, Virus-Like Particle administration & dosage, Vaccines, Virus-Like Particle genetics, Vaccines, Virus-Like Particle immunology, Adjuvants, Immunologic administration & dosage, Malaria Vaccines immunology, Plasmodium vivax immunology, Protozoan Proteins immunology

Abstract

We have designed a pre-erythrocytic vaccine candidate based on the Plasmodium vivax circumsporozoite (CSV) protein, which includes its N- and C-terminal parts and a truncated region containing repeat sequences from both the VK210 and the VK247 P. vivax subtypes. Two versions of this vaccine candidate were made: a soluble recombinant protein expressed in Escherichia coli, designated VMP001 and a particulate antigen expressed in Saccharomyces cerevisiae, designated CSV-S,S. The latter is composed of CSV-S, a fusion protein between VMP001 and hepatitis B surface antigen (HBsAg), and free HBsAg co-expressed in yeast and self-assembling into mixed particles. Both antigen versions, adjuvanted with AS01, were shown to be immunogenic in rhesus monkeys. CSV-S,S/AS01 induced higher levels of VMP001-specific antibodies than did VMP001/AS01. Antibody responses against the N- and C-terminal regions of CSV and the VK210 repeat motif were of a similar magnitude following immunization with either the soluble or the particulate antigen. However, antibodies against the AGDR region, a potentially protective B cell epitope, were only detected after immunization with CSV-S,S. Analysis of the induced CD4(+) T cells highlighted different cytokine profiles depending on the antigen form. These results warrant further clinical evaluation of these two vaccine candidates to assess the added value of a particulate versus soluble form of CSV, in terms of both immunogenicity and protective efficacy., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2013

12. Identification of non-CSP antigens bearing CD8 epitopes in mice immunized with irradiated sporozoites.

Author

Mishra S, Rai U, Shiratsuchi T, Li X, Vanloubbeeck Y, Cohen J, Nussenzweig RS, Winzeler EA, Tsuji M, and Nussenzweig V

Subjects

Adenoviridae genetics, Adenoviridae immunology, Animals, CD8-Positive T-Lymphocytes immunology, Female, Immunization, Interferon-gamma, Malaria immunology, Malaria prevention & control, Mice, Mice, Inbred BALB C, Mice, Transgenic, Sporozoites radiation effects, Antigens, Protozoan immunology, Epitopes, T-Lymphocyte immunology, Malaria Vaccines immunology, Plasmodium yoelii immunology, Protozoan Proteins immunology, Sporozoites immunology

Abstract

Immunization of BALB/c mice with irradiated sporozoites (IrSp) of Plasmodium yoelii can lead to sterile immunity. The circumsporozoite protein (CSP) plays a dominant role in protection. Nevertheless after hyper-immunization with IrSp, complete protection is obtained in CSP-transgenic BALB/c mice that are T-cell tolerant to the CSP and cannot produce antibodies [CSP-Tg/JhT(-/-)]. This protection is mediated exclusively by CD8(+) T cells [1]. To identify the non-CSP protective T cell antigens, we studied the properties of 34 P. yoelii sporozoite antigens that are predicted to be secreted and to contain strong Kd-restricted CD8(+) T cell epitopes. The synthetic peptides corresponding to the epitopes were used to screen for the presence of peptide-specific CD8(+) T cells secreting interferon-γ (IFN-γ) in splenocytes from CSP-Tg/JhT(-/-) BALB/c mice hyper immunized with IrSp. However, the numbers of IFN-γ-secreting splenocytes specific for the non-CSP antigen-derived peptides were 20-100 times lower than those specific for the CSP-specific peptide. When mice were immunized with recombinant adenoviruses expressing selected non-CSP antigens, the animals were not protected against challenge with P. yoelii sporozoites although large numbers of CD8(+) specific T cells were generated., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2011

13. Interplay between CD8α+ dendritic cells and monocytes in response to Listeria monocytogenes infection attenuates T cell responses.

Author

Kapadia D, Sadikovic A, Vanloubbeeck Y, Brockstedt D, and Fong L

Subjects

Animals, CD8-Positive T-Lymphocytes microbiology, Dendritic Cells microbiology, Hybridomas metabolism, Interferon-gamma metabolism, Interleukin-12 metabolism, Melanoma, Experimental, Mice, Mice, Inbred C57BL, Mice, Transgenic, Nitric Oxide Synthase Type II metabolism, Peptides chemistry, Tumor Necrosis Factor-alpha metabolism, CD8 Antigens biosynthesis, CD8-Positive T-Lymphocytes cytology, Dendritic Cells cytology, Listeria monocytogenes metabolism, Listeriosis blood

Abstract

During the course of a microbial infection, different antigen presenting cells (APCs) are exposed and contribute to the ensuing immune response. CD8α(+) dendritic cells (DCs) are an important coordinator of early immune responses to the intracellular bacteria Listeria monocytogenes (Lm) and are crucial for CD8(+) T cell immunity. In this study, we examine the contribution of different primary APCs to inducing immune responses against Lm. We find that CD8α(+) DCs are the most susceptible to infection while plasmacytoid DCs are not infected. Moreover, CD8α(+) DCs are the only DC subset capable of priming an immune response to Lm in vitro and are also the only APC studied that do so when transferred into β2 microglobulin deficient mice which lack endogenous cross-presentation. Upon infection, CD11b(+) DCs primarily secrete low levels of TNFα while CD8α(+) DCs secrete IL-12 p70. Infected monocytes secrete high levels of TNFα and IL-12p70, cytokines associated with activated inflammatory macrophages. Furthermore, co-culture of infected CD8α(+) DCs and CD11b+ DCs with monocytes enhances production of IL-12 p70 and TNFα. However, the presence of monocytes in DC/T cell co-cultures attenuates T cell priming against Lm-derived antigens in vitro and in vivo. This suppressive activity of spleen-derived monocytes is mediated in part by both TNFα and inducible nitric oxide synthase (iNOS). Thus these monocytes enhance IL-12 production to Lm infection, but concurrently abrogate DC-mediated T cell priming.

Published

2011

14. The immunology of Leishmania infection and the implications for vaccine development.

Author

Vanloubbeeck Y and Jones DE

Subjects

Animals, Chronic Disease, Clinical Trials as Topic, Dendritic Cells, Disease Reservoirs, Dogs, Humans, T-Lymphocytes, Helper-Inducer immunology, Vaccines, DNA, Leishmania immunology, Leishmania pathogenicity, Leishmaniasis immunology, Leishmaniasis prevention & control, Protozoan Vaccines

Abstract

Leishmania parasites are vector-borne protozoal pathogens found in tropical and subtropical regions of both the Old and New World. These parasites can cause visceral or cutaneous disease, and the pathology of the infection is determined by both host immune factors and species/strain differences of the parasite. Dogs are an important reservoir for maintaining the population of Leishmania parasites that can lead to visceral leishmaniasis in humans, and a vaccination approach may be an effective method for reducing the numbers of infected dogs. Resistance to leishmaniasis has been consistently associated with a T helper 1 immune response, characterized by the production of IFN-gamma by the antigen-specific lymphocyte population. The development of this Th1 response has been shown to be dependent upon both cytokines and dendritic cells during T cell activation. However, the development of a Leishmania vaccine effective in preventing these chronic diseases has proven to be a challenge. Vaccine trials have focused on whole-killed or subunit vaccines with adjuvants. Newer experimental strategies involve the attenuation of the Leishmania parasite via gene deletion technologies or the expression of specific Leishmania peptides within attenuated organisms, such as Bacillus Calmette Guérin. DNA vaccines and dendritic cell potentiators, such as CpG oligodeoxynucleotides and Flt-3 ligand, are also in the early stage of development. In addition, as part of blocking the transmission cycle of leishmaniasis, several laboratories are also exploring the possibility of immunomodulating the host toward the bite of the sand fly.

Published

2004

15. Protection of C3HeB/FeJ mice against Leishmania amazonensis challenge after previous Leishmania major infection.

Author

Vanloubbeeck Y and Jones DE

Subjects

Animals, Disease Models, Animal, Humans, Interferon-gamma metabolism, Interleukin-4 metabolism, Leishmaniasis, Cutaneous parasitology, Lymph Nodes immunology, Mice, Mice, Inbred C3H, Leishmania major immunology, Leishmania mexicana immunology, Leishmania mexicana pathogenicity, Leishmaniasis, Cutaneous immunology, Th1 Cells immunology

Abstract

The Th1 response elicited in mice infected with Leishmania major has been used as a model to characterize cellular immune defects associated with L. amazonensis infection. However, it is not known if the immune response associated with the infection by virulent L. major parasites can promote resistance to a subsequent L. amazonensis infection. Our data demonstrate that C3HeB/FeJ mice infected subcutaneously with virulent L. major are resistant to an L. amazonensis challenge. The healing phenotype is characterized by a Th1 response as measured by increased production of interferon-gamma and low levels of interleukin-4 in the draining lymph node. Together, this indicates that the Th1 response associated with L. major infection can promote resistance to L. amazonensis infection and that it can be used as a tool to study the immune defects associated with L. amazonensis infection.

Published

2004

16. Intracellular trafficking of Mycobacterium avium ss. paratuberculosis in macrophages.

Author

Cheville NF, Hostetter J, Thomsen BV, Simutis F, Vanloubbeeck Y, and Steadham E

Subjects

Animals, Antigen Presentation physiology, Antigens, Bacterial physiology, Bacterial Adhesion, Cattle, Disease Models, Animal, Endocytosis physiology, Exocytosis physiology, Immunohistochemistry veterinary, Macrophages immunology, Mice, Mice, Nude, Microscopy, Confocal veterinary, Microscopy, Electron veterinary, Mycobacterium avium subsp. paratuberculosis immunology, Paratuberculosis immunology, Phagosomes microbiology, Phagosomes physiology, Macrophages microbiology, Mycobacterium avium subsp. paratuberculosis physiology, Paratuberculosis microbiology

Abstract

The granulomatous enteric lesions of cattle with Johne's disease are composed of infected macrophages, and grow by accumulation, re-infection, and expansion of macrophage populations in the intestinal wall. We have examined the growth of bacteria in macrophages to define characteristics of intracellular trafficking for exocytosis, replication, and antigen presentation. Using immunocytochemical markers for light, confocal and electron microscopy, we have examined potential pathway tropisms using data for bacterial attachment, phagosomal acidification, phagolysosomal degradation and apoptosis. Our hypotheses are that pathogenic/wild-type strains block phagosomal acidification so that the phagosome fails to obtain markers of the late phagosome and phagolysosome, and this leads to the replication pathway within bacteriophorous vacuoles. Non-pathogenic strains appear to be processed to exocytosis, and avirulent mutant strains may be degraded and have preference of antigen processing pathways that involve transport vesicles bearing MHC II antigens. Pathogenicity in a nude mouse model of intestinal infection reveals lesion development and confirms pathway preferences of virulent strains for bacteriophorous vacuole formation.

Published

2001