The IDO pathway mediates immunosuppressive effects through the metabolization of tryptophan (Trp) to kynurenine (Kyn), triggering downstream signaling through GCN2, mTOR and AHR that can affect differentiation and proliferation of T cells. Expression of the IDO1 gene by tumor cells or host APCs can inhibit tumor-specific effector CD8+ T cells and enhance the suppressor activity of Tregs, and high expression of IDO correlates with worse clinical prognosis in patients with a variety of malignancies. Therefore, targeting the IDO pathway via inhibition of the IDO enzyme or blocking its downstream signaling effects is a prime target for small-molecule immunomodulatory drugs in cancer.
Here we describe the pharmacological and biological properties of NLG919, a novel small-molecule IDO-pathway inhibitor. NLG919 potently inhibits this pathway in vitro and in cell based assays (Ki=7 nM; EC50 =75 nM). It is orally bioavailable (F>70%); and has a favorable pharmacokinetic and toxicity profile. In mice, a single oral administration of NLG919 reduces the concentration of plasma and tissue Kyn by ∼ 50%. Using IDO-expressing human monocyte-derived DCs in allogeneic MLR reactions, NLG919 potently blocked IDO-induced T cell suppression and restored robust T cell responses with an ED50=80 nM. Similarly, using IDO-expressing mouse DCs from tumor-draining lymph nodes, NLG919 abrogated IDO-induced suppression of antigen-specific T cells (OT-I) in vitro, with ED50=120 nM. In vivo, in mice bearing large established B16F10 tumors, administration of NLG919 markedly enhanced the anti-tumor responses of naïve, resting pmel-1 cells to vaccination with cognate hgp100 peptide plus CpG-1826 in IFA. In this stringent established-tumor model, NLG919 plus pmel 1/vaccine produced a dramatic collapse of tumor size within 4 days of vaccination (∼95% reduction in tumor volume compared to control animals receiving pmel-1/vaccine alone without NLG919).
In conclusion, NLG919 is a potent IDO pathway inhibitor with desirable pharmacological properties, suitable for the treatment of immunosuppression associated with cancer.
Citation Format: Mario R. Mautino, Firoz A. Jaipuri, Jesse Waldo, Sanjeev Kumar, James Adams, Clarissa Van Allen, Agnieszka Marcinowicz-Flick, David Munn, Nicholas Vahanian, Charles J. Link. NLG919, a novel indoleamine-2,3-dioxygenase (IDO)-pathway inhibitor drug candidate for cancer therapy. [abstract]. In: Proceedings of the 104th Annual Meeting of the American Association for Cancer Research; 2013 Apr 6-10; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2013;73(8 Suppl):Abstract nr 491. doi:10.1158/1538-7445.AM2013-491
