Developing SHP2-based combination therapy for KRAS-amplified cancer
Tianxia Li, … , Daniel V.T. Catenacci, Adam J. Bass
Tianxia Li, … , Daniel V.T. Catenacci, Adam J. Bass
Published February 8, 2023
Citation Information: JCI Insight. 2023;8(3):e152714. https://doi.org/10.1172/jci.insight.152714.
View: Text | PDF
Research Article Oncology

Developing SHP2-based combination therapy for KRAS-amplified cancer

Abstract

Gastroesophageal adenocarcinomas (GEAs) harbor recurrent amplification of KRAS, leading to marked overexpression of WT KRAS protein. We previously demonstrated that SHP2 phosphatase, which acts to promote KRAS and downstream MAPK pathway activation, is a target in these tumors when combined with MEK inhibition. We hypothesized that SHP2 inhibitors may serve as a foundation for developing novel combination inhibitor strategies for therapy of KRAS-amplified GEA, including with targets outside the MAPK pathway. Here, we explore potential targets to effectively augment the efficacy of SHP2 inhibition, starting with genome-wide CRISPR screens in KRAS-amplified GEA cell lines with and without SHP2 inhibition. We identify candidate targets within the MAPK pathway and among upstream RTKs that may enhance SHP2 efficacy in KRAS-amplified GEA. Additional in vitro and in vivo experiments demonstrated the potent cytotoxicity of pan-ERBB kinase inhibitions in vitro and in vivo. Furthermore, beyond targets within the MAPK pathway, we demonstrate that inhibition of CDK4/6 combines potently with SHP2 inhibition in KRAS-amplified GEA, with greater efficacy of this combination in KRAS-amplified, compared with KRAS-mutant, tumors. These results suggest therapeutic combinations for clinical study in KRAS-amplified GEAs.

Authors

Tianxia Li, Osamu Kikuchi, Jin Zhou, Yichen Wang, Babita Pokharel, Klavdija Bastl, Prafulla Gokhale, Aine Knott, Yanxi Zhang, John G. Doench, Zandra V. Ho, Daniel V.T. Catenacci, Adam J. Bass

×

Figure 8

Antitumor effects of SHP099 (SHP) and ribociclib (Ribo) combination on KRAS-amp cell-derived xenograft tumors.

Options: View larger image (or click on image) Download as PowerPoint
Antitumor effects of SHP099 (SHP) and ribociclib (Ribo) combination on K...
(A) Tumor growth of KE-39–derived xenografts. We injected 5 × 106 KE-39 cells into flanks of NSG mice. Once tumors were approximately 150 mm3, mice were treated with vehicle, SHP099 (50 mg/kg), LEE011 (75 mg/kg), or both drugs in combination for approximately 12 weeks. Error bars represent mean ± SEM (n ≥ 8 per group). Two-way ANOVA with day 61 tumor volume (P for interaction < 0.01, P < 0.001 for SHP099, and P < 0.0001 for LEE011). (B) Tumor growth of CAT12-derived xenografts. We injected 3 × 106 CAT12 cells into flanks of NSG mice. Once tumors were approximately 150 mm3, mice were treated with vehicle, SHP099 (50 mg/kg), LEE011 (75 mg/kg), or both drugs in combination for approximately 3 weeks. Error bars represent mean ± SEM (n ≥ 8 per group). Two-way ANOVA with day 22 tumor volume (P for interaction = 0.57, P < 0.0001 for SHP099, and P < 0.01 for LEE011). (C and D) Representative immunohistochemistry of KE-39 (C) and CAT12 (D) tumors for indicated protein. Error bars represent mean ± SD (n = 8 per group). Statistical comparisons between each group were made using 2-way ANOVA for positive stained cells. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.