Role of tryptophan degradation in respiratory burst-independent antimicrobial activity of gamma interferon-stimulated human macrophages.

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Infect Immun. 1989 March; 57(3): 845-849

Role of tryptophan degradation in respiratory burst-independent antimicrobial activity of gamma interferon-stimulated human macrophages.

H W Murray, A Szuro-Sudol, D Wellner, M J Oca, A M Granger, D M Libby, C D Rothermel and B Y Rubin

Department of Medicine, Cornell University Medical College, New York, New York 10021.

ABSTRACT

To determine whether extracellular tryptophan degradation representsan oxygen-independent antimicrobial mechanism, we examined theeffect of exogenous tryptophan on the intracellular antimicrobialactivity of gamma interferon (IFN-gamma)-stimulated human macrophages.IFN-gamma readily induced normal monocyte-derived macrophages(MDM) to express indoleamine 2,3-dioxygenase (IDO) activityand stimulated MDM, alveolar macrophages, and oxidatively deficientchronic granulomatous disease MDM to degrade tryptophan. AllIFN-gamma-activated, tryptophan-degrading macrophages killedor inhibited Toxoplasma gondii, Chlamydia psittaci, and Leishmaniadonovani. Although exogenous tryptophan partially reversed thisactivity, the increases in intracellular replication were variablefor normal MDM (T. gondii [5-fold], C. psittaci [3-fold], L.donovani [2-fold]), chronic granulomatous disease MDM (T. gondii[2.5-fold], C. psittaci [5-fold]), and alveolar macrophages(T. gondii [1.5-fold], C. psittaci [1.5-fold]). In addition,IFN-alpha and IFN-beta also stimulated normal MDM to expressIDO and degrade tryptophan but failed to induce antimicrobialactivity, and IFN-gamma-treated mouse macrophages showed neitherIDO activity nor tryptophan degradation but killed T. gondiiand L. donovani. These results suggest that while tryptophandepletion contributes to the oxygen-independent antimicrobialeffects of the activated human macrophage, in certain cytokine-stimulatedcells, tryptophan degradation may be neither sufficient norrequired for antimicrobial activity.

Infect Immun. 1989 March; 57(3): 845-849

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