Abstract
Targeted inhibition of EGFR with the mAbs cetuximab or panitumumab is a valuable treatment for RAS wild-type colorectal cancers. The efficacy of EGFR blockade is limited by the emergence of acquired resistance often attributed to secondary KRAS mutations. Remarkably, tumor biopsies from resistant patients show that only a fraction of the resilient cells carry KRAS mutations. We hypothesized that a paracrine cross-talk driven by the resistant subpopulation may provide in trans protection of surrounding sensitive cells. Conditioned medium assays and three-dimensional cocultures were used to assess paracrine networks between cetuximab-sensitive and -resistant cells. Production of EGFR ligands by cells sensitive to cetuximab and panitumumab was measured. The ability of recombinant EGFR ligands to protect sensitive cells from cetuximab was assessed. Biochemical activation of the EGFR signaling pathway was measured by Western blotting. Colorectal cancer cells sensitive to EGFR blockade can successfully grow despite cetuximab treatment when in the company of their resistant derivatives. Media conditioned by resistant cells protect sensitive parental cells from cetuximab. EGFR blockade triggers increased secretion of TGFα and amphiregulin. Increased secretion of ligands by resistant cells can sustain EGFR/ERK signaling in sensitive cells. Colorectal cancer cells that develop resistance to cetuximab and panitumumab secrete TGFα and amphiregulin, which protect the surrounding cells from EGFR blockade. This paracrine protective mechanism might be therapeutically exploitable.
Highlights
The epidermal growth factor receptor (EGFR) and its ligands, transforming growth factor alpha (TGF-α), amphiregulin (AR), epidermal growth factor (EGF), betacellulin (BTC), heparin-binding like EGF-factor (HBEGF), and epiregulin (EREG) play a central role in development of epithelial tumors such as colorectal cancers (CRCs) [1]
To investigate whether the resistant cells, in addition to the genetic alterations described above, developed the ability to create a permissive microenvironment for sensitive cells, we performed a conditioned medium assay (CMA) experiment (Fig. S1)
Sensitive cells were seeded in a 1:1 ratio of conditioned media (CM) and fresh culture media to avoid the negative effect of partial depletion of CM (Supplementary Fig. S1)
Summary
The epidermal growth factor receptor (EGFR) and its ligands, transforming growth factor alpha (TGF-α), amphiregulin (AR), epidermal growth factor (EGF), betacellulin (BTC), heparin-binding like EGF-factor (HBEGF), and epiregulin (EREG) play a central role in development of epithelial tumors such as colorectal cancers (CRCs) [1]. We previously reported the presence of KRAS G12, G13, and Q61 mutated alleles in tissue biopsies from CRC patients who relapse after EGFR targeted therapies [9]. We hypothesized the existence of protective paracrine interactions, between RAS mutated (resistant) and the wild type (wt) (therapeutically sensitive) cell subpopulations. This hypothesis is based on evidence that cancer cells are able to generate a plethora of growth factors, achieving, in some instances, complete independence from externally provided ligands [10]. Hepatocyte growth factor (HGF), the activating ligand for the MET receptor, can protect lung cancer cells from the effect of EGFR inhibitors such as erlotinib and gefitinib [11, 12]. Similar effects can be promoted by TGF-β and IL6 [13]
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