Discovery and characterization of novel inhibitors of CTP synthase 1 (CTPS1) for the treatment of autoimmune and inflammatory disease

Abstract

Abstract The de novo pyrimidine biosynthetic pathway is an inducible cellular program which allows the rapid synthesis of pyrimidine nucleotides in proliferating cells, and the final rate-limiting step is catalyzed by cytidine triphosphate synthase (CTPS1 or CTPS2). A CTPS1 loss-of-function mutation in humans has illustrated the essential and non-redundant role of CTPS1 in activated lymphocyte proliferation. Therefore, selective CTPS1 inhibition is an attractive approach to specifically target pathological immune activity in autoimmune and inflammatory disease. Using cryo-EM and structure-based drug design, we have identified a series of potent, orally bioavailable, CTPS1-specific inhibitors, exemplified by the compound NTX-871. In-vitro, NTX-871 significantly inhibits the proliferation of T-cell derived lines and activated primary T-cells. These inhibitory effects are reversed by the addition of exogenous cytidine, illustrating the specificity of NTX-871 for CTPS1 and the de novo pyrimidine synthesis program. NTX-871 was also tested in several mouse in-vivo PD and autoimmune disease models. Oral dosing of NTX-871 significantly reduced T-cell proliferation in an ovalbumin-induced T-cell proliferation model, and QD or BID dosing of NTX-871 significantly improved disease phenotypes in models of delayed-type hypersensitivity, collagen-induced arthritis, and experimental autoimmune encephalomyelitis.