THE role of indoleamine 2,3‐dioxygenase in the anti‐tumour activity of human interferon‐γ in vivo

Abstract

We have studied the relationship between L-tryptophan metabolism and the response to human IFN-γ in 3 human ovarian cancer xenografts growing in nude mice. During IFN-γ therapy all 3 tumours showed a profound depletion in L-tryptophan and a corresponding rise in L-kynurenine. The microenvironment surrounding the tumours was also depleted of L-tryptophan. The IFN-γ-inducible enzyme indoleamine dioxygenase, IDO, was induced in treated tumours. While there was a variability in IDO mRNA expression in the different xenografts tested, in situ hybridization showed that the gene was induced at all levels of the tumour, and not just the periphery. These results show that induction of IDO by IFN-γ in vivo can metabolize L-tryptophan rapidly enough for it to become depleted, despite a continued supply of L-tryptophan from the host. The IDO mRNA and protein remained induced after the L-tryptophan levels had returned to normal, suggesting that the gene may be post-transcriptionally regulated and/or the IDO co-factor supply may be limited. Another IFN-γ-inducible gene, tryptophanyl tRNA synthetase, was also induced in the tumour. It is possible that this enzyme, which is responsible for synthesizing tryptophanyl tRNA, acts in a compensatory manner by allowing protein synthesis to continue despite low free Ltryptophan concentrations. There was no correlation of the above parameters with the anti-tumour response to IFN-γ, suggesting that other mechanisms must play a role. Ltryptophan depletion may be a contributor to a multifactorial growth inhibition of tumour cells following IFN-γ treatment, but cannot on its own explain their growth inhibition.