Abstract
After infection with Trypanosoma cruzi, the etiologic agent of Chagas disease, immunosuppression, and apoptosis of mature lymphocytes contribute to the establishment of the parasite in the host and thereby to persistence and pathology in the chronic stage of infection. In a systemic mouse model of experimental Chagas disease, we have demonstrated a strong depletion of mature B cells in the spleen during the first 2 weeks of infection. Remarkably, the decrease in this cell population commenced already in the bone marrow from infected mice and was a concomitant of an increased apoptosis in pro- and pre-B cell populations. Pro- and pre-B cells in the bone marrow showed a significant reduction accompanied by a functional disturbance of bone marrow-derived stromal cells resulting in diminished levels of IL-7, an essential factor for the development of B cell precursors. Ex vivo, stromal cells isolated from the bone marrow of infected mice had a strikingly impaired capacity to maintain the development of pro- and pre-B cells obtained from uninfected animals. Together, the reduction of an active humoral immune response during acute Chagas disease suggests to be an initial immune evasion mechanism of the parasite to establish persistent infection. Therefore, prevention of B cell depletion by rescuing the stromal cells during this early phase, could give rise to new therapeutic approaches.
Highlights
Antigen-specific B cells are in addition to T cell-mediated immune responses [1,2,3,4] essential for controlling infection with the protozoan parasite Trypanosoma cruzi, the etiologic agent of Chagas disease [5, 6]
Hematopoietic stem cells are essential for lymphocyte development, in case of B cells they are generated from multipotent progenitor cells, that rises from these hematopoietic stem cells, but have limited potential and lost the stem-cell properties [12]
We addressed the question whether the stromal cell breakdown during infection with T. cruzi was responsible for the diminshed B cell development
Summary
Antigen-specific B cells are in addition to T cell-mediated immune responses [1,2,3,4] essential for controlling infection with the protozoan parasite Trypanosoma cruzi, the etiologic agent of Chagas disease [5, 6]. T. cruzi evolved mechanisms to escape a protective B cell response by inducing a strong polyclonal B cell activation [7, 8], B cell anergy [9], and apoptosis [10]. In this respect, bone marrow hypoplasia has been described as another cause for B cell depletion after infection with T. cruzi [11]. After rearrangement of the L chain locus, preB II cells become immature B cells leave the bone marrow at the transitional B cell stage and complete their final development into mature B cells in the periphery [16]
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