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The Journal of Immunology, Vol 150, Issue 9 4031-4040, Copyright © 1993 by American Association of Immunologists
ARTICLES |
G Melillo, GW Cox, D Radzioch and L Varesio
Laboratory of Molecular Immunoregulation, National Cancer Institute- Frederick Cancer Research and Development Center, NIH, MD 21702-1201.
In this study we investigated the effects of picolinic acid, a catabolite of L-tryptophan, on the production of L-arginine-derived reactive nitrogen intermediates in the murine macrophage cell line ANA- 1. ANA-1 macrophages did not produce nitrite (NO2-) constitutively, but accumulated detectable levels of NO2- on exposure to IFN-gamma. Picolinic acid, although ineffective by itself, augmented IFN-gamma- induced NO2- production. The activity of picolinic acid was evident at 1 mM and reached its maximum at 4 mM. Picolinic acid also augmented the IFN-gamma-dependent expression of TNF-alpha mRNA, but did not appreciably affect the secretion of the TNF-alpha protein. Neutralizing concentrations of anti-TNF mAb completely abrogated IFN-gamma- and IFN- gamma plus rTNF-alpha-induced NO2- production in ANA-1 macrophages, but only decreased by approximately 50% the synergistic interaction between IFN-gamma and picolinic acid. Although IL-4 inhibited the expression of IFN-gamma plus picolinic acid-induced TNF-alpha mRNA and protein, it only partially suppressed picolinic acid-dependent NO2- production. Therefore, picolinic acid may affect NO2- production via both TNF-alpha- dependent and TNF-alpha-independent pathways. Overall, this study suggests that amino acid catabolites may be important for the activation and the expression of effector functions by murine macrophages, and provides the first evidence of a possible connection between tryptophan and arginine metabolism.
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