Abstract

The transcription factor achaete-scute complex homolog 1 (ASCL1) is a lineage oncogene that is central in growth and survival of the majority of small cell lung cancers (SCLC) and neuroendocrine non-small cell lung cancers (NSCLC-NE) that express it. Targeting ASCL1, or its downstream pathways, remains a challenge. SCLCs and NSCLC-NE that express ASCL1 exhibit relatively low ERK1/2 activity, in dramatic contrast to NSCLCs in which the ERK pathway has a major role in pathogenesis. ERK1/2 inhibition in ASCL1-expressing lung tumor cells revealed down-regulation of ERK1/2 pathway suppressors SPRY4, SPRED1, DUSP6, and the transcription factor ETV5, which regulates DUSP6. CHIP-seq demonstrated that these genes are bound by ASCL1. Availability of a pharmacological inhibitor directed mechanistic studies towards DUSP6, an ERK1/2-selective phosphatase, in a subset of ASCL1-high NE lung tumors. Inhibition of DUSP6 increased active ERK1/2, which accumulated in the nucleus. Pharmacologic and genetic inhibition of DUSP6 reduced proliferation and survival of these cancers. Resistance developed in DUSP6 KO cells, indicating a bypass mechanism. Although targeting ASCL1 remains a challenge, our findings suggest that expression of ASCL1, DUSP6 and low phospho-ERK1/2 identify neuroendocrine lung cancers for which DUSP6 may be a therapeutic target.

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