NRAS Status Determines Sensitivity to SHP2 Inhibitor Combination Therapies Targeting the RAS-MAPK Pathway in Neuroblastoma.

Ivette Valencia-Sama,Lynn Kee,Yagnesh Ladumor,Michael Ohh,Teresa Adderley,Yoshihito Kano,Gabriella Christopher,Claire M Robinson,Meredith S Irwin

doi:10.1158/0008-5472.can-19-3822

Abstract

Survival for high-risk neuroblastoma remains poor and treatment for relapsed disease rarely leads to long-term cures. Large sequencing studies of neuroblastoma tumors from diagnosis have not identified common targetable driver mutations other than the 10% of tumors that harbor mutations in the anaplastic lymphoma kinase (ALK) gene. However, at neuroblastoma recurrence, more frequent mutations in genes in the RAS-MAPK pathway have been detected. The PTPN11-encoded tyrosine phosphatase SHP2 is an activator of the RAS pathway, and we and others have shown that pharmacologic inhibition of SHP2 suppresses the growth of various tumor types harboring KRAS mutations such as pancreatic and lung cancers. Here we report inhibition of growth and downstream RAS-MAPK signaling in neuroblastoma cells in response to treatment with the SHP2 inhibitors SHP099, II-B08, and RMC-4550. However, neuroblastoma cell lines harboring endogenous NRAS Q61K mutation (which is commonly detected at relapse) or isogenic neuroblastoma cells engineered to overexpress NRASQ61K were distinctly resistant to SHP2 inhibitors. Combinations of SHP2 inhibitors with other RAS pathway inhibitors such as trametinib, vemurafenib, and ulixertinib were synergistic and reversed resistance to SHP2 inhibition in neuroblastoma in vitro and in vivo. These results suggest for the first time that combination therapies targeting SHP2 and other components of the RAS-MAPK pathway may be effective against conventional therapy-resistant relapsed neuroblastoma, including those that have acquired NRAS mutations. SIGNIFICANCE: These findings suggest that conventional therapy-resistant, relapsed neuroblastoma may be effectively treated via combined inhibition of SHP2 and MEK or ERK of the RAS-MAPK pathway.

Highlights

Neuroblastoma, a tumor of the peripheral nervous system and the most common pediatric extracranial solid tumor, is clinically and biologically heterogeneous
At least in part, due to induction of apoptosis as increased expression of cleaved PARP was detected in NRAS wild-type (NRASWT) cells, but minimally in mutant (NRASQ61K) cells treated with SHP099 (Fig. 1F) and II-B08 (Supplementary Fig. S2D)
In NRASQ61K cells treated with SHP099 plus trametinib, activation of Rat sarcoma (RAS)–MAPK downstream effectors was reduced as shown by decreased p-MEK and p-extracellular-signal-regulated kinase (ERK) levels (Fig. 4B)

Summary

Introduction

Neuroblastoma, a tumor of the peripheral nervous system and the most common pediatric extracranial solid tumor, is clinically and biologically heterogeneous. Note: Supplementary data for this article are available at Cancer Research Online (http://cancerres.aacrjournals.org/). Common alterations being MYCN amplification (20%), TERT rearrangements (23%), NF1-loss (6%), and ALK (9%) or PTPN11 (3.5%) mutations [4,5,6,7,8,9]. One recent study comparing paired tumors at diagnosis and relapse reported that 78% of mutations detected in relapse samples were predicted to activate the RAS–MAPK pathway, including mutations in RAS, NF1, ALK, and PTPN11 [10]. These results suggest that pharmacologic targeting of this pathway may be beneficial for the treatment of recurrent neuroblastoma

Methods

Results

Conclusion