The assessment of therapeutic autophagy inhibition in NF1 mutated tumor cells

Abstract MAPK pathway activation is found across central nervous system tumors. Neurofibromin 1 (NF1) protein is a GTPase-activating protein and tumor suppressor that negatively regulates RAS protein activity. A NF1 loss of function mutation results in MAPK pathway upregulation and is associated with pediatric gliomas. We previously demonstrated autophagy inhibition improves tumor response to BRAF inhibition. Here we investigate the role of autophagy in NF1 cells in the presence or absence of MEK inhibition (MEKi). NF1 wild type (WT) and NF1 knockout (KO) (HSC1λ, immortalized human Schwann) cells were evaluated. NF1 loss was confirmed, and cell growth was monitored by Incucyte. MAPK/ERK pathway upregulation and autophagy were evaluated via Western blot analysis and RAS pull-down. Effects of MEKi, autophagy inhibition (pharmacologic and genetic), and combination therapy were evaluated via short- and long-term growth assays. NF1 KO cells exhibited MAPK pathway upregulation and increased growth. Additionally, NF KO cells demonstrated increased autophagic activity. Loss of NF1 resulted in increased sensitivity to MEKi and autophagy inhibition alone and in combination. We also demonstrate that the autophagy inhibitor chloroquine (CQ) can improve MEKi sensitivity in a patient harboring a somatic mutation of NF1. This combination is currently being evaluated in clinical trial ( NCT04201457 ).