Abstract 3099: A new HTS ELISA for monitoring NRAS activity to expedite drug discovery

Abstract

Abstract Oncogenic mutations in the KRAS, HRAS, and NRAS isoforms of the RAS gene family alter GTP binding and hydrolysis leading to errant over activation of the MAPK/ERK pathway. While the total of all such RAS mutations drives some 20-25% of all human cancers, each isoform tends to favor particular mutations that are cancer specific. Many evolving treatment strategies for these cancers target these mutant isoforms to minimize off target effects. NRAS mutations are seen in about one-fifth of cutaneous melanomas and patients with NRAS mutation melanomas have a poorer prognosis due to the high aggressiveness of RAS mutant tumors, a lack of efficient targeted therapies, or rapidly emerging resistance to existing treatments. Furthermore, there is no currently authorized targeted treatment for NRAS-mutated melanoma. As a result, there is a growing need for assays which can quantify activated NRAS. Here we describe the development of a highly specific and sensitive ELISA for determining the active NRAS protein in high throughput compatible (HTS) format. A NRAS specific recombinant antibody was developed via cloning of immunoglobulin variable regions from antigen positive B cells isolated by FACS from rabbits immunized with a NRAS peptide corresponding to a region of low homology between the RAS isoforms. Immunoblotting and a bead-based multiplex ELISA with all three RAS isoforms were used to confirm antibody specificity with recombinant HRAS, KRAS, and NRAS proteins over a wide concentration range. The new immunoassay enables in-well lysis of cells cultivated in 96-well plate. Activated NRAS in the lysate is collected on the test plate and detected using the NRAS specific antibody via chemiluminescence. We anticipate that this assay will further the discovery of novel NRAS specific therapeutics. EGF treatment of MCF7 cells demonstrated activation in cells expressing wildtype NRAS in preliminary assay validation. Evaluation of assay performance in mutant NRAS melanoma cell lines will be presented. Citation Format: Hyun Min Park, Julie Weber, Michelle Carlson, Mary Anne Jelinek. A new HTS ELISA for monitoring NRAS activity to expedite drug discovery [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 3099.