Background: Three MEK inhibitors have been approved to date to treat melanomas driven by RAS pathway mutations and a 4^th compound (selumetinib) is approved to treat Neurofibromatosis type 1 (NF1) in pediatric patients. PAS-004 is the first macrocyclic MEK inhibitor in development for solid tumors and NF1. Methods: Ten NRAS mutant cancer cell lines were cultured for 48 hrs in the presence of the MEK inhibitor PAS-004, trametinib, binimetinib (bini) and selumetinib (selu) and cell proliferation was assayed using a Cell Titer Glo luminescence assay. The anti-tumor activity of PAS-004 was compared with selu and bini in two mouse xenograft studies using NRAS mutant human hepatocellular carcinoma (HCC) and lung carcinoma cell lines. Dose response was assessed with treatment initiated when the tumor reached a volume of 150 mm³ and mice treated for 20 days. Body weights and tumor volumes were measured twice weekly. Tumors were excised at the end of the study and pERK inhibition was assessed by Western blot. Terminal plasma was collected for PK analysis. Results: PAS-004 strongly inhibited 5/10 NRAS mutant cancer lines with IC₅₀ values ranging from 0.024 to 0.306 µM. Maximal growth inhibition of >50% was achieved by PAS-004 in 8 cell lines and PAS-004 achieved greater maximal inhibition in 7/10 lines vs selu and bini. PAS-004 inhibition was comparable to trametinib in 5/10 cell lines tested. However, in contrast to trametinib PAS-004 did not reach a plateau at the highest dose tested in three of these lines. In the HCC xenograft study the highest dose of PAS-004 completely prevented tumor growth and the same dose caused a 69% reduction in tumor volume in the lung carcinoma xenograft study. The anti-tumor efficacy of PAS-004, when taken at equivalent doses, was shown to be superior to that of bini and selu. Specifically, PAS-004 at dose levels of 10 mg/kg and 5 mg/kg, once daily, exhibited higher efficacy compared to bini and selu at dose levels of 5 mg/kg and 2.5 mg/kg, when administered twice daily, respectively. No significant differences in body weight loss were seen between the compounds. Conclusions: The novel macrocyclic MEK inhibitorPAS-004 inhibited NRAS mutant tumor growth in mouse xenograft studies with similar activity as the approved MEK inhibitors selu and bini. In vitro, PAS-004 provided greater maximal growth inhibition of NRAS lines than selu and bini. These results support investigating PAS-004 further and a clinical trial in patients with advanced solid tumors carrying RAS pathway mutations, including NRAS variants, is ongoing.