Inhibition of the GAS6/AXL pathway augments the efficacy of chemotherapies
Mihalis S. Kariolis, … , Jennifer R. Cochran, Amato J. Giaccia
Mihalis S. Kariolis, … , Jennifer R. Cochran, Amato J. Giaccia
Published November 28, 2016
Citation Information: J Clin Invest. 2017;127(1):183-198. https://doi.org/10.1172/JCI85610.
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Research Article Oncology

Inhibition of the GAS6/AXL pathway augments the efficacy of chemotherapies

Abstract

The AXL receptor and its activating ligand, growth arrest–specific 6 (GAS6), are important drivers of metastasis and therapeutic resistance in human cancers. Given the critical roles that GAS6 and AXL play in refractory disease, this signaling axis represents an attractive target for therapeutic intervention. However, the strong picomolar binding affinity between GAS6 and AXL and the promiscuity of small molecule inhibitors represent important challenges faced by current anti-AXL therapeutics. Here, we have addressed these obstacles by engineering a second-generation, high-affinity AXL decoy receptor with an apparent affinity of 93 femtomolar to GAS6. Our decoy receptor, MYD1-72, profoundly inhibited disease progression in aggressive preclinical models of human cancers and induced cell killing in leukemia cells. When directly compared with the most advanced anti-AXL small molecules in the clinic, MYD1-72 achieved superior antitumor efficacy while displaying no toxicity. Moreover, we uncovered a relationship between AXL and the cellular response to DNA damage whereby abrogation of AXL signaling leads to accumulation of the DNA-damage markers γH2AX, 53BP1, and RAD51. MYD1-72 exploited this relationship, leading to improvements upon the therapeutic index of current standard-of-care chemotherapies in preclinical models of advanced pancreatic and ovarian cancer.

Authors

Mihalis S. Kariolis, Yu Rebecca Miao, Anh Diep, Shannon E. Nash, Monica M. Olcina, Dadi Jiang, Douglas S. Jones II, Shiven Kapur, Irimpan I. Mathews, Albert C. Koong, Erinn B. Rankin, Jennifer R. Cochran, Amato J. Giaccia

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Figure 2

Superior efficacy of the second-generation AXL decoy receptor.

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Superior efficacy of the second-generation AXL decoy receptor. (A) Weste...
(A) Western blots showing the reduction of AXL and FLT3 phosphorylation in AML cells when treated with the AXL decoy receptors. (B) Inhibition of cell growth and induced cytotoxicity in both OCI-AML3 and MV4:11 cells after treatment with AXL Fcs. Effects are dependent upon dosage and the affinity of the decoy receptor, but not influenced by FLT3 status. Untreated data are the same in the 100 ng/ml and 10 ng/ml graphs. (C) In vivo sequestration of GAS6 following a single 0.5 mg/kg dose of MYD1 Fc (gray) or MYD1-72 Fc (blue). The PK profile of MYD1-72 Fc following a single 1 mg/kg dose is overlaid in red. (D) Amount of lung metastases in the 4T1 breast cancer model as quantified by ex vivo bioluminescent imaging. Error bars represent mean ± SD. n = 11 for in vivo experiments. *P < 0.05. Repeated measure ANOVA was used for measurement over time, and Student’s t test was used for comparing single treatment to the control.