Caveolin-1 and Sox-2 are predictive biomarkers of cetuximab response in head and neck cancer
Mehdi Bouhaddou, Rex H. Lee, Hua Li, Neil E. Bhola, Rachel A. O’Keefe, Mohammad Naser, Tian Ran Zhu, Kelechi Nwachuku, Umamaheswar Duvvuri, Adam B. Olshen, Ritu Roy, Aaron Hechmer, Jennifer Bolen, Stephen B. Keysar, Antonio Jimeno, Gordon B. Mills, Scott Vandenberg, Danielle L. Swaney, Daniel E. Johnson, Nevan J. Krogan, Jennifer R. Grandis
Mehdi Bouhaddou, Rex H. Lee, Hua Li, Neil E. Bhola, Rachel A. O’Keefe, Mohammad Naser, Tian Ran Zhu, Kelechi Nwachuku, Umamaheswar Duvvuri, Adam B. Olshen, Ritu Roy, Aaron Hechmer, Jennifer Bolen, Stephen B. Keysar, Antonio Jimeno, Gordon B. Mills, Scott Vandenberg, Danielle L. Swaney, Daniel E. Johnson, Nevan J. Krogan, Jennifer R. Grandis
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Research Article Therapeutics

Caveolin-1 and Sox-2 are predictive biomarkers of cetuximab response in head and neck cancer

Abstract

The epidermal growth factor receptor (EGFR) inhibitor cetuximab is the only FDA-approved oncogene-targeting therapy for head and neck squamous cell carcinoma (HNSCC). Despite variable treatment response, no biomarkers exist to stratify patients for cetuximab therapy in HNSCC. Here, we applied unbiased hierarchical clustering to reverse-phase protein array molecular profiles from patient-derived xenograft (PDX) tumors and revealed 2 PDX clusters defined by protein networks associated with EGFR inhibitor resistance. In vivo validation revealed unbiased clustering to classify PDX tumors according to cetuximab response with 88% accuracy. Next, a support vector machine classifier algorithm identified a minimalist biomarker signature consisting of 8 proteins — caveolin-1, Sox-2, AXL, STING, Brd4, claudin-7, connexin-43, and fibronectin — with expression that strongly predicted cetuximab response in PDXs using either protein or mRNA. A combination of caveolin-1 and Sox-2 protein levels was sufficient to maintain high predictive accuracy, which we validated in tumor samples from patients with HNSCC with known clinical response to cetuximab. These results support further investigation into the combined use of caveolin-1 and Sox-2 as predictive biomarkers for cetuximab response in the clinic.

Authors

Mehdi Bouhaddou, Rex H. Lee, Hua Li, Neil E. Bhola, Rachel A. O’Keefe, Mohammad Naser, Tian Ran Zhu, Kelechi Nwachuku, Umamaheswar Duvvuri, Adam B. Olshen, Ritu Roy, Aaron Hechmer, Jennifer Bolen, Stephen B. Keysar, Antonio Jimeno, Gordon B. Mills, Scott Vandenberg, Danielle L. Swaney, Daniel E. Johnson, Nevan J. Krogan, Jennifer R. Grandis

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Figure 4

Defining a robust signature for cetuximab response.

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Defining a robust signature for cetuximab response. (A) Schematic of alg...
(A) Schematic of algorithmic approach for identifying and testing biomarker sets for cetuximab response. (B) The number of biomarker reverse-phase protein array (RPPA) probes at each successive absolute value log2 fold change (FC) threshold in 0.1 increments, which defined 15 distinct biomarker sets. The inset shows FC thresholds greater than 1. (C) Area under the precision-recall curves evaluating support vector machine (SVM) classifier performance of each of 15 biomarker sets defined in B for protein (RPPA; blue) or mRNA (RNA-Seq; red). SVM classifiers were trained based on hierarchical clustering results (Figure 1B) for PDXs not experimentally validated for cetuximab response and then tested on those that were experimentally evaluated. An independent cohort of PDXs was also evaluated (RNA-Seq; yellow; Keysar et al, ref. 9). (D) Precision-recall curves for the 8-member biomarker set defined at a log2FC threshold of 1, where predictive accuracy is high for both protein- and mRNA-based measurements. (E) (Top) Heatmap of protein (RPPA) mean signal intensities for 8-member biomarker set defined at a log2FC threshold of 1. (Bottom) Parallel coordinates chart displaying protein (RPPA) intensities of 8-member biomarker set displaying median-normalized protein log2FC for the predicted resistant (red) or sensitive (blue) groups. (F) Precision-recall curves for the top 2 biomarkers from E, caveolin-1 and Sox-2.