While marked expansion in the absolute number of several subsets

While marked expansion in the absolute number of several subsets was observed in Lb-infected mice, the percentages of TCR Vβ+ CD4+-cell subsets were comparable in draining LN- and lesion-derived T cells in two infection Selleck ALK inhibitor models. We found that multiple TCR Vβ CD4+T

cells contributed collectively and comparably to IFN-γ production and that the overall levels of IFN-γ production positively correlated with the control of Lb infection. Moreover, pre-infection with Lb parasites provided cross-protection against secondary La infection, owing to an enhanced magnitude of T-cell activation and IFN-γ production. Collectively, this study suggests that the magnitude of CD4+ T-cell activation, rather than the TCR diversity, is the major determining factor for the outcome of Leishmania infection. In murine cutaneous selleck inhibitor leishmaniasis, resistance to Leishmania major in the majority of inbred strains of mice is

associated with the development of a IFN-γ-producing Th1 response, while susceptibility in a few strains (such as BALB/c mice) is attributed to a IL-4-producing Th2 response (1). However, most, if not all, mouse strains are genetically susceptible to L. amazonensis (La, a New World species), and this generalized susceptibility in mice is attributed to an impaired or weak Th1-cell response rather than to increased IL-4 production (2–4). In contrast, L. braziliensis (Lb, another New World species) induces self-healing skin lesions in most tested MycoClean Mycoplasma Removal Kit mouse strains, including BALB/c mice that are highly susceptible to L. major presumably owing to the induction of strong innate and Th1 responses during the infection (5,6) and to the relatively high sensitivity of Lb parasites to TNF-α- and nitric oxide–based parasite killing (7–9). Thus, the findings from these murine models clearly indicate that the outcome of infection depends both on the parasite species involved and on the nature of host immune responses to Leishmania antigen.

Therefore, it is not surprising that the adoptive transfer of L. major-specific Th1 or Th2 cell lines to immunodeficient mice can confer resistance or susceptibility in L. major infection (10,11) and that adoptive transfer of La-specific Th1- or Th2-cell lines to competent mice can alter host susceptibility to L. amazonensis infection (4,12). The critical role of CD4+ T cells in La-induced, nonhealing disease has also been confirmed in MHC II–deficient mice (13); however, the immunological characteristics of parasite-specific Th subsets and the mechanisms responsible for differentiation of these disparate Th populations remain largely unexplored. Upon its encounter with foreign antigens, the germ line–encoded β chain of T-cell receptor (TCR Vβ) through recombination establishes Ag specificity and diversity of cellular immunity (14,15).

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