Gamma-interferon-induced inhibition of the growth of Rickettsia prowazekii in fibroblasts cannot be explained by the degradation of tryptophan or other amino acids.

We examined the role of amino acid deprivation in gamma-interferon-induced (IFN-gamma) suppression of the growth of Rickettsia prowazekii in mouse L929 cells and human fibroblasts by measuring the amino acid pools in untreated and IFN-gamma-treated cells. In recombinant IFN-gamma-treated cultures of human fibroblasts, tryptophan was undetectable in both the intracellular pool and the extracellular medium. In contrast, tryptophan was not depleted from the intracellular pool or the extracellular medium of L929 cells treated with recombinant IFN-gamma or crude mouse lymphokines. None of the other amino acids measured was severely depleted in IFN-gamma-treated L929 cells and human fibroblasts. Extracts prepared from IFN-gamma-treated human fibroblasts exhibited indoleamine 2,3-dioxygenase activity, converting tryptophan into products that cochromatographed with N-formylkynurenine and kynurenine; however, extracts prepared from untreated human fibroblasts, untreated L929 cells, recombinant IFN-gamma-treated L929 cells, and mouse lymphokine-treated L929 cells did not degrade tryptophan. Human HeLa cells resembled the human fibroblasts in that they degraded tryptophan after IFN-gamma treatment. Similarly, mouse 3T3-A31 cells and mouse embryo fibroblasts resembled mouse L929 cells in that they did not degrade tryptophan. Supplementation of the extracellular medium with additional tryptophan reconstituted the tryptophan pool in mock-infected and R. prowazekii-infected, X-irradiated, IFN-gamma-treated human fibroblasts to values greater than those observed in untreated control cultures. However, reconstitution of the tryptophan pool did not relieve IFN-gamma-induced inhibition of rickettsial growth. Addition of kynurenine or N-formylkynurenine to rickettsia-infected human fibroblasts at concentrations four times the usual tryptophan concentration did not inhibit growth of R. prowazekii. We conclude that neither tryptophan depletion nor depletion of the other amino acids studied explains the inhibitory effect of IFN-gamma on rickettsial growth in mouse L929 cells. In IFN-gamma-treated human fibroblasts, either tryptophan depletion is not involved in the inhibition of rickettsial growth or tryptophan depletion and some other mechanism(s) together contribute to the inhibition of rickettsial growth.