Humanized mice in cutaneous leishmaniasis-Suitability analysis of human PBMC transfer into immunodeficient mice.

Humanized mice represent a suitable preclinical test system for example therapeutic interventions in various disease settings, including infections. Here, we intended to establish such system for cutaneous leishmaniasis by infecting T, B and NK cell-deficient mice adoptively transferred with human peripheral blood mononuclear cells (PBMC). L major infection led to the establishment of parasite lesions harbouring viable parasites and human T cells, but parasite elimination was not seen due to a species-specific activity of T cell-derived human IFNγ. In addition, up to 50% of infected mice succumbed to severe graft-versus-host disease. In summary, even though long-term disease outcome assessments are impossible, this model of humanized mice can be used for studying lesion development and generation of oligoclonal anti-parasite human T cell responses in vivo.

Animal model for cutaneous leishmaniasis.

Using cutaneous leishmaniasis of mice, the existence of so-called T helper (Th) cells type 1 and type 2 had been identified more than 20 years ago. Nowadays, it is well accepted that additional T cell populations as well as B cell-mediated immunity is required for immunity against Leishmania major. Finally, using inbred mouse strains, the relevance of genetical factors that influence anti-pathogen immunity as well as elements of the skin-immune system have been identified. This protocol describes a model for murine experimental leishmaniasis that tries to mimic natural parasite transmission by several means: (1) utilization of only infectious-stage parasites that are found in sand fly saliva, (2) intradermal inoculation, and (3) infection with only 1,000 parasites similar to the numbers inoculated by an infected sand fly.

Dendritic cells in Leishmania major infections: mechanisms of parasite uptake, cell activation and evidence for physiological relevance.

Leishmaniasis is one of the most important infectious diseases worldwide; a vaccine is still not available. Infected dendritic cells (DC) are critical for the initiation of protective Th1 immunity against Leishmania major. Phagocytosis of L. major by DC leads to cell activation, IL-12 release and (cross-) presentation of Leishmania antigens by DC. Here, we review the role of Fcγ receptor- and B cell-mediated processes for parasite internalization by DC. In addition, the early events after parasite inoculation that consist of mast cell activation, parasite uptake by skin-resident macrophages (MΦ), followed by neutrophil and monocyte immigration and DC activation are described. All these events contribute significantly to antigen processing in infected DC and influence resulting T cell priming in vivo. A detailed understanding of the role of DC for the development of efficient anti-Leishmania immunity will aid the development of potent anti-parasite drugs and/or vaccines.