eLife (Jul 2021)

An epigenetic switch regulates the ontogeny of AXL-positive/EGFR-TKi-resistant cells by modulating miR-335 expression

  • Polona Safaric Tepes,
  • Debjani Pal,
  • Trine Lindsted,
  • Ingrid Ibarra,
  • Amaia Lujambio,
  • Vilma Jimenez Sabinina,
  • Serif Senturk,
  • Madison Miller,
  • Navya Korimerla,
  • Jiahao Huang,
  • Lawrence Glassman,
  • Paul Lee,
  • David Zeltsman,
  • Kevin Hyman,
  • Michael Esposito,
  • Gregory J Hannon,
  • Raffaella Sordella

DOI
https://doi.org/10.7554/eLife.66109
Journal volume & issue
Vol. 10

Abstract

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Despite current advancements in research and therapeutics, lung cancer remains the leading cause of cancer-related mortality worldwide. This is mainly due to the resistance that patients develop against chemotherapeutic agents over the course of treatment. In the context of non-small cell lung cancers (NSCLC) harboring EGFR-oncogenic mutations, augmented levels of AXL and GAS6 have been found to drive resistance to EGFR tyrosine kinase inhibitors such as Erlotinib and Osimertinib in certain tumors with mesenchymal-like features. By studying the ontogeny of AXL-positive cells, we have identified a novel non-genetic mechanism of drug resistance based on cell-state transition. We demonstrate that AXL-positive cells are already present as a subpopulation of cancer cells in Erlotinib-naïve tumors and tumor-derived cell lines and that the expression of AXL is regulated through a stochastic mechanism centered on the epigenetic regulation of miR-335. The existence of a cell-intrinsic program through which AXL-positive/Erlotinib-resistant cells emerge infers the need of treating tumors harboring EGFR-oncogenic mutations upfront with combinatorial treatments targeting both AXL-negative and AXL-positive cancer cells.

Keywords