Abstract
The amino acid l-arginine plays a crucial role in the regulation of immune responses. We have recently shown that uncontrolled replication of Leishmania parasites at the site of pathology correlates with high levels of arginase activity in nonhealing leishmaniasis and that this elevated arginase activity causes local depletion of l-arginine. To further our understanding of the impact of l-arginine deprivation in experimental leishmaniasis, here we characterize in detail the effects of l-arginine deprivation on antigen-specific T cells and MΦ. The results of our study show that decrease of l-arginine levels in the extracellular milieu affects the biological activities of Leishmania major-specific T cells, both at the level of the magnitude and the quality of their responses. L. major-specific CD4+ T cells rendered hyporesponsive by l-arginine deprivation can be partially rescued by addition of exogenous l-arginine to produce IL-4 and IL-10, but not to produce IFN-γ. Furthermore, our results show that l-arginine deprivation also greatly impacts parasite growth in activated macrophages. In summary, our results suggest that l-arginine levels affect both Th cell responses and parasite replication.
Highlights
The metabolism of the semi-essential amino acid L-arginine [1, 2] by arginase is emerging as a crucial mechanism for the regulation of immune responses
We have shown that uncontrolled replication of Leishmania parasites at the site of pathology correlates with high levels of arginase activity in nonhealing BALB/c mice, but not in healing CBA mice [19]
A recent study has described a new metric parameter, the integrated MFI, which reflects more precisely the total functional response of activated T cells [25]. iMFI is calculated by multiplying the percentage, which represents the magnitude of the response by the MFI, which represents the quality of the response
Summary
The metabolism of the semi-essential amino acid L-arginine [1, 2] by arginase is emerging as a crucial mechanism for the regulation of immune responses. Arginase 1 is upregulated in myeloid cells in response to a range of signals such as Th2 cytokines [3], GM-CSF [4, 5], prostaglandin [6,7,8] and catecholamines [8]. The majority of inbred strains of mice develop small lesions that heal spontaneously within a few weeks, leaving the host immune to reinfection; this ability to control parasite replication correlates with the expansion of CD41 Th1 cells, characterized by the production of IFN-g. A few strains of mice such as BALB/c develop progressive nonhealing disease, attributed to the expansion of CD41 Th2 cells, characterized by the production of IL-4, IL-10 and IL-13 [14, 15]
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