Charlotte Hetzel scite author profile

We have previously demonstrated that intranasal (i.n.) administration of an immunodominant peptide (p1-111-139) derived from the house dust mite (HDM) allergen Der p 1 inhibits antigen-specific CD4+ T cell responses in H-2b mice. Here we report that i.n. peptide induced a rapid but transient activation of MHC class II restricted CD4+ T cells that peaked 4 days after peptide treatment and was of similar magnitude to that induced by parenteral immunization with antigen in adjuvant. During the early phase of the response lymph node and splenic T cells secreted a range of lymphokines when re-stimulated in vitro with p1 111-139; however, by day 14 IL-2 and IFN-gamma secretion by T cells were down-regulated. Mice deficient in CD8+ T cells became tolerant by i.n. treatment with peptide, suggesting that CD8+ T cells are not involved in down-regulating the CD4+ T cell response. Rechallenging mice with a single dose of p1 111-139 21 days after the initial treatment elicited a further transient T cell response, which was subsequently down-regulated over time. Although the i.n. peptide induced a strong transient CD4+ T cell response, only low levels of peptide-specific antibodies were detected either after the initial or subsequent i.n. exposures to p1 111-139. Our findings address the mechanisms underlying peripheral T cell tolerance following i.n. administration of a high dose of immunogenic peptide and have implications for understanding the consequences of peptide immunothearapy.

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The within-host cellular dynamics of bloodstage malaria: theoretical and experimental studies

Hetzel

Anderson

1996

Parasitology

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SUMMARYThe properties of a mathematical model of bloodstage infection with a single strain of malaria were investigated. Analysing the cell population dynamics in theabsenceof a host immune response we demonstrate a relationship between host and parasite parameters that defines a criterion for the successful invasion and persistence of the parasite. Important parameters are the rates of merozoite production and death and those of erythrocyte production, death and invasion. We present data from experiments designed to evaluate the erythrocyte invasion rate in a rodent malaria system. The model generates patterns of parasitaemia in good qualitative agreement with those seen inPlasmodium bergheiinfections. The sole force behind the rise and fall in parasitaemia in the model without immunity is the density of susceptible erythrocytes, suggesting that resource availability is an important determinant of the initial pattern of infectionin vivo. When we incorporate a simple immune response into the model we find that immunity against the infected cell is much more effective at suppressing parasite abundance than immunity against the merozoite. Simulations reveal oscillating temporal patterns of parasite abundance similar toP. c. chabaudiinfection, challenging the concept that antigenic variation is the sole mechanism behind recrudescing patterns of infection.

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Induction of a type 1 immune response to a recombinant antigen from Mycobacterium tuberculosis expressed in Mycobacterium vaccae

et al. 1997

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A 19-kDa lipoprotein from Mycobacterium tuberculosis was expressed as a recombinant antigen in the nonpathogenic mycobacterial host strain M. vaccae. Immunization of mice with the recombinant M. vaccae resulted in induction of a strong type 1 immune response to the 19-kDa antigen, characterized by immunoglobulin G2a (IgG2a) antibodies and gamma interferon (IFN-␥) production by splenocytes. Immunization with the same antigen in incomplete Freund's adjuvant induced a strong IgG1 response with only low levels of IFN-␥. Subsequent intravenous and aerosol challenges of immunized mice with virulent M. tuberculosis demonstrated no evidence of protection associated with the response to the 19-kDa antigen; in fact, the presence of the recombinant 19-kDa antigen abrogated the limited protection conferred by M. vaccae (vector control). The recombinant M. vaccae system is a convenient approach to induction of type 1 responses to M. tuberculosis antigens. However, the unexpected reduction in protective efficacy of M. vaccae expressing the 19-kDa antigen highlights the complexity of testing recombinant subunit vaccines and the need for a better understanding of the immune mechanisms required for effective vaccination against tuberculosis.

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Specific and Nonspecific Responses to Plasmodium falciparum Blood-Stage Parasites and Observations on the Gametocytemia in Schoolchildren Living in a Malaria-Endemic Area of Mozambique

Høgh¹,

Thompson²,

Hetzel³

et al. 1995

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An Epitope Delivery System for Use with Recombinant Mycobacteria

Hetzel¹,

Janssen

Ely

et al. 1998

Infect Immun

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We have developed a novel epitope delivery system based on the insertion of peptides within a permissive loop of a bacterial superoxide dismutase molecule. This system allowed high-level expression of heterologous peptides in two mycobacterial vaccine strains, Mycobacterium bovis bacille Calmette-Guérin (BCG) and Mycobacterium vaccae. The broader application of the system was analyzed by preparation of constructs containing peptide epitopes from a range of infectious agents and allergens. We report detailed characterization of the immunogenicity of one such construct, in which an epitope from the Der p1 house dust mite allergen was expressed in M. vaccae. The construct was able to stimulate T-cell hybridomas specific for Der p1, and it induced peptide-specific gamma interferon responses when used to immunize naive mice. This novel expression system demonstrates new possibilities for the use of mycobacteria as vaccine delivery vehicles.

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