Small molecule inhibition of group I p21-activated kinases in breast cancer induces apoptosis and potentiates the activity of microtubule stabilizing agents

INTRODUCTION

Breast cancer, the most common cause of cancer-related deaths worldwide among women, is a molecularly and clinically heterogeneous disease. Extensive genetic and epigenetic profiling of breast tumors has recently revealed novel putative driver genes, including p21-activated kinase (PAK)1. PAK1 is a serine/threonine kinase downstream of small GTP-binding proteins, Rac1 and Cdc42, and is an integral component of growth factor signaling networks and cellular functions fundamental to tumorigenesis.

METHODS

PAK1 dysregulation (copy number gain, mRNA and protein expression) was evaluated in two cohorts of breast cancer tissues (n=980 and 1,108). A novel small molecule inhibitor, FRAX1036, and RNA interference were used to examine PAK1 loss of function and combination with docetaxel in vitro. Mechanism of action for the therapeutic combination, both cellular and molecular, was assessed via time-lapse microscopy and immunoblotting.

RESULTS

We demonstrate that focal genomic amplification and overexpression of PAK1 are associated with poor clinical outcome in the luminal subtype of breast cancer (P=1.29×10(-4) and P=0.015, respectively). Given the role for PAK1 in regulating cytoskeletal organization, we hypothesized that combination of PAK1 inhibition with taxane treatment could be combined to further interfere with microtubule dynamics and cell survival. Consistent with this, administration of docetaxel with either a novel small molecule inhibitor of group I PAKs, FRAX1036, or PAK1 small interfering RNA oligonucleotides dramatically altered signaling to cytoskeletal-associated proteins, such as stathmin, and induced microtubule disorganization and cellular apoptosis. Live-cell imaging revealed that the duration of mitotic arrest mediated by docetaxel was significantly reduced in the presence of FRAX1036, and this was associated with increased kinetics of apoptosis.

CONCLUSIONS

Taken together, these findings further support PAK1 as a potential target in breast cancer and suggest combination with taxanes as a viable strategy to increase anti-tumor efficacy.

MET gene copy number alterations and expression of MET and hepatocyte growth factor are potential biomarkers in angiosarcomas and undifferentiated pleomorphic sarcomas

Soft tissue sarcomas are a heterogeneous group of tumors with many different subtypes. In 2014 an estimated 12,020 newly diagnosed cases and 4,740 soft tissue sarcoma related deaths can be expected in the United States. Many soft tissue sarcomas are associated with poor prognosis and therapeutic options are often limited. The evolution of precision medicine has not yet fully reached the clinical treatment of sarcomas since therapeutically tractable genetic changes have not been comprehensively studied so far. We analyzed a total of 484 adult-type malignant mesenchymal tumors by MET fluorescence in situ hybridization and MET and hepatocyte growth factor immunohistochemistry. Eleven different entities were included, among them the most common and clinically relevant subtypes and tumors with specific translocations or complex genetic changes. MET protein expression was observed in 2.6% of the cases, all of which were either undifferentiated pleomorphic sarcomas or angiosarcomas, showing positivity rates of 14% and 17%, respectively. 6% of the tumors showed hepatocyte growth factor overexpression, mainly seen in undifferentiated pleomorphic sarcomas and angiosarcomas, but also in clear cell sarcomas, malignant peripheral nerve sheath tumors, leiomyosarcomas and gastrointestinal stromal tumors. MET and hepatocyte growth factor overexpression were significantly correlated and may suggest an autocrine activation in these tumors. MET FISH amplification and copy number gain were present in 4% of the tumors (15/413). Two samples, both undifferentiated pleomorphic sarcomas, fulfilled the criteria for high level amplification of MET, one undifferentiated pleomorphic sarcoma reached an intermediate level copy number gain, and 12 samples of different subtypes were categorized as low level copy number gains for MET. Our findings indicate that angiosarcomas and undifferentiated pleomorphic sarcomas rather than other frequent adult-type sarcomas should be enrolled in screening programs for clinical trials with MET inhibitors. The screening methods should include both in situ hybridization and immunohistochemistry.

MET Suppresses Epithelial VEGFR2 via Intracrine VEGF-induced Endoplasmic Reticulum-associated Degradation

Hepatocyte growth factor (HGF) and vascular endothelial growth factor (VEGF) drive cancer through their respective receptors, MET and VEGF receptor 2 (VEGFR2). VEGFR2 inhibits MET by promoting MET dephosphorylation. However, whether MET conversely regulates VEGFR2 remains unknown. Here we show that MET suppresses VEGFR2 protein by inducing its endoplasmic-reticulum-associated degradation (ERAD), via intracrine VEGF action. HGF-MET signaling in epithelial cancer cells promoted VEGF biosynthesis through PI3-kinase. In turn, VEGF and VEGFR2 associated within the ER, activating inositol-requiring enzyme 1α, and thereby facilitating ERAD-mediated depletion of VEGFR2. MET disruption upregulated VEGFR2, inducing compensatory tumor growth via VEGFR2 and MEK. However, concurrent disruption of MET and either VEGF or MEK circumvented this, enabling more profound tumor inhibition. Our findings uncover unique cross-regulation between MET and VEGFR2-two RTKs that play significant roles in tumor malignancy. Furthermore, these results suggest rational combinatorial strategies for targeting RTK signaling pathways more effectively, which has potentially important implications for cancer therapy.

HGF/MET-directed therapeutics in gastroesophageal cancer: a review of clinical and biomarker development

Aberrant activation of the HGF/MET signaling axis has been strongly implicated in the malignant transformation and progression of gastroesophageal cancer (GEC). MET receptor overexpression in tumor samples from GEC patients has been consistently correlated with an aggressive metastatic phenotype and poor prognosis. In preclinical GEC models, abrogation of HGF/MET signaling has been shown to induce tumor regression as well as inhibition of metastatic dissemination. Promising clinical results in patient subsets in which MET is overexpressed have spurned several randomized studies of HGF/MET-directed agents, including two pivotal global Phase III trials. Available data highlight the need for predictive biomarkers in order to select patients most likely to benefit from HGF/MET inhibition. In this review, we discuss the current knowledge of mechanisms of MET activation in GEC, the current status of the clinical evaluation of MET-targeted therapies in GEC, characteristics of ongoing randomized GEC trials and the associated efforts to identify and validate biomarkers. We also discuss the considerations and challenges for HGF/MET inhibitor drug development in the GEC setting.

Predictive correlates of response to the anti-PD-L1 antibody MPDL3280A in cancer patients

The development of human cancer is a multistep process characterized by the accumulation of genetic and epigenetic alterations that drive or reflect tumour progression. These changes distinguish cancer cells from their normal counterparts, allowing tumours to be recognized as foreign by the immune system. However, tumours are rarely rejected spontaneously, reflecting their ability to maintain an immunosuppressive microenvironment. Programmed death-ligand 1 (PD-L1; also called B7-H1 or CD274), which is expressed on many cancer and immune cells, plays an important part in blocking the 'cancer immunity cycle' by binding programmed death-1 (PD-1) and B7.1 (CD80), both of which are negative regulators of T-lymphocyte activation. Binding of PD-L1 to its receptors suppresses T-cell migration, proliferation and secretion of cytotoxic mediators, and restricts tumour cell killing. The PD-L1-PD-1 axis protects the host from overactive T-effector cells not only in cancer but also during microbial infections. Blocking PD-L1 should therefore enhance anticancer immunity, but little is known about predictive factors of efficacy. This study was designed to evaluate the safety, activity and biomarkers of PD-L1 inhibition using the engineered humanized antibody MPDL3280A. Here we show that across multiple cancer types, responses (as evaluated by Response Evaluation Criteria in Solid Tumours, version 1.1) were observed in patients with tumours expressing high levels of PD-L1, especially when PD-L1 was expressed by tumour-infiltrating immune cells. Furthermore, responses were associated with T-helper type 1 (TH1) gene expression, CTLA4 expression and the absence of fractalkine (CX3CL1) in baseline tumour specimens. Together, these data suggest that MPDL3280A is most effective in patients in which pre-existing immunity is suppressed by PD-L1, and is re-invigorated on antibody treatment.

Development of a robust RNA-based classifier to accurately determine ER, PR, and HER2 status in breast cancer clinical samples

Breast cancers are categorized into three subtypes based on protein expression of estrogen receptor (ER), progesterone receptor (PR), and human epidermal growth factor receptor-2 (HER2/ERBB2). Patients enroll onto experimental clinical trials based on ER, PR, and HER2 status and, as receptor status is prognostic and defines treatment regimens, central receptor confirmation is critical for interpreting results from these trials. Patients enrolling onto experimental clinical trials in the metastatic setting often have limited available archival tissue that might better be used for comprehensive molecular profiling rather than slide-intensive reconfirmation of receptor status. We developed a Random Forests-based algorithm using a training set of 158 samples with centrally confirmed IHC status, and subsequently validated this algorithm on multiple test sets with known, locally determined IHC status. We observed a strong correlation between target mRNA expression and IHC assays for HER2 and ER, achieving an overall accuracy of 97 and 96 %, respectively. For determining PR status, which had the highest discordance between central and local IHC, incorporation of expression of co-regulated genes in a multivariate approach added predictive value, outperforming the single, target gene approach by a 10 % margin in overall accuracy. Our results suggest that multiplexed qRT-PCR profiling of ESR1, PGR, and ERBB2 mRNA, along with several other subtype associated genes, can effectively confirm breast cancer subtype, thereby conserving tumor sections and enabling additional biomarker data to be obtained from patients enrolled onto experimental clinical trials.

PAK1 mediates pancreatic cancer cell migration and resistance to MET inhibition

Pancreatic adenocarcinoma (PDAC) is a major unmet medical need and a deeper understanding of molecular drivers is needed to advance therapeutic options for patients. We report here that p21-activated kinase 1 (PAK1) is a central node in PDAC cells downstream of multiple growth factor signalling pathways, including hepatocyte growth factor (HGF) and MET receptor tyrosine kinase. PAK1 inhibition blocks signalling to cytoskeletal effectors and tumour cell motility driven by HGF/MET. MET antagonists, such as onartuzumab and crizotinib, are currently in clinical development. Given that even highly effective therapies have resistance mechanisms, we show that combination with PAK1 inhibition overcomes potential resistance mechanisms mediated either by activation of parallel growth factor pathways or by direct amplification of PAK1. Inhibition of PAK1 attenuated in vivo tumour growth and metastasis in a model of pancreatic adenocarcinoma. In human tissues, PAK1 is highly expressed in a proportion of PDACs (33% IHC score 2 or 3; n = 304) and its expression is significantly associated with MET positivity (p < 0.0001) and linked to a widespread metastatic pattern in patients (p = 0.067). Taken together, our results provide evidence for a functional role of MET/PAK1 signalling in pancreatic adenocarcinoma and support further characterization of therapeutic inhibitors in this indication.

Abstract 4819: Evaluation of PTEN status in circulating tumor cells (CTCs) and matched tumor tissue from castrate-resistant prostate cancer (CRPC) patients

Background:

PTEN loss occurs frequently in prostate cancer and may trigger progression to CRPC through activation of the PI3K/AKT pathway. A blood-based assay that determines PTEN status in CRPC patients could enable informed treatment decisions such as the use of a PI3K-targeted therapy. Here we examined the relationship between PTEN status in CTCs and matched archival and fresh tumor biopsies in 43 CRPC patients.

Methods:

Nucleated cells from CRPC patient blood were plated onto glass slides and subjected to IF staining and CTC identification by high-speed fluorescent scanners at Epic Sciences. CTCs were identified as CK+/CD45- cells with intact DAPI nuclei, and samples with ≥4 CTCs per 2 slides (74%) were then tested for PTEN by FISH. Heterozygous loss was defined as a decrease in PTEN copies (PTEN &lt; CEP10 and &lt; 2 copies) and homozygous loss as zero PTEN copies. PTEN IHC in tissue was stained using CST clone 138G6 and H-scores ≤ 200 counted as loss.

Results:

Heterozygous or homozygous loss of PTEN by FISH was observed in 16 of 43 patients (37%) by CTC analysis. In addition to loss of PTEN, changes in ploidy were frequently observed and broad heterogeneity seen both within and between patients. The PTEN status in CTCs correlated strongly with the PTEN status in metastatic tissue: All 10 patients that exhibited homozygous PTEN loss in CTCs showed concordant homozygous PTEN loss in fresh biopsies. This correlation extended to three patients that showed correlated mixed homozygous and hemizygous PTEN loss populations in CTCs and tissue. “Drift or change” in PTEN status from archival to fresh biopsies occurred in 15 patients, In 12 of these patients, PTEN status in CTCs was reflective of the status in fresh tissue. Together with PTEN evaluation, the analysis of androgen receptor expression by immunofluorescence and ERG rearrangements by FISH proved feasibility of multiplex biomarker assessment in CTCs. This analysis demonstrated heterogeneity of AR phenotypes and a positive association of ERG rearrangements and PTEN loss in CTCs, consistent with literature reports.

Conclusion:

Our results illustrate the potential for using CTCs as a non-invasive, real-time biopsy to determine a patient's current PTEN status. PTEN status will be determined using these assays in an ongoing AKT inhibitor Phase II trial.

Citation Format: Elizabeth Punnoose, Eric Tucker, Edith Szafer-Glusman, Jin Zhu, Dena Marrinucci, Jessica Louw, Florence Lee, Mikel Kitchen, Natalee Bales, Lukas Amler, Hartmut Koeppen, Premal Patel, Yibing Yan, Ruth Riisnaes, Gerhardt Attard, Johann de Bono. Evaluation of PTEN status in circulating tumor cells (CTCs) and matched tumor tissue from castrate-resistant prostate cancer (CRPC) patients. [abstract]. In: Proceedings of the 105th Annual Meeting of the American Association for Cancer Research; 2014 Apr 5-9; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2014;74(19 Suppl):Abstract nr 4819. doi:10.1158/1538-7445.AM2014-4819

Abstract 693: AXL tyrosine kinase inhibition selectively sensitizes mesenchymal cancer cells to antimitotic agents

Molecularly-targeted drug therapies have revolutionized cancer treatment, however, resistance remains a major limitation to their overall efficacy. Epithelial to mesenchymal transition (EMT) has been linked to acquired resistance to tyrosine kinase inhibitors (TKIs), independent of mutational resistance mechanisms. AXL is a receptor tyrosine kinase (RTK) associated with EMT that has been implicated in drug resistance, and has emerged as a candidate therapeutic target. Across 643 human cancer cell lines that were analyzed, we found that elevated AXL was strongly associated with a mesenchymal phenotype, particularly in triple negative breast cancer and non-small cell lung cancer. Here we experimentally established a model system to induced EMT by exposure to TGF-β and we observed that the resulting TGF-β-induced mesenchymal cells exhibit substantially increased AXL expression, become relatively drug-resistant to their appropriate TKI and cross-resistant to a variety of anti-cancer agents. We tested the ability of AXL inhibition to restore erlotinib sensitivity, in both a TGF-β-induced resistance model and in two different models of acquired resistance to erlotinib. Here, our observations do not support the previously reported role for AXL inhibition in overcoming acquired resistance to TKIs in the EMT context. However, in an unbiased screen of small molecule inhibitors of cancer-relevant processes, we discovered that AXL inhibition was specifically synergistic with anti-mitotic agents in killing cancer cells that had undergone EMT and demonstrated associated TKI resistance. Inhibition of AXL in combination with anti-mitotic agents enhances death in mitosis by promoting cells to enter mitosis through the down-regulation of CDK1, resulting in G2M cell cycle arrest. In summary, our findings highlight the utility of combination drug screening to reveal novel potentially useful anti-cancer drug combinations to improve clinical responses. While we did not identify a functional role for AXL in the context of acquired resistance to TKI therapies, we did observe that AXL inhibition may be an effective therapy in the context of mesenchymal tumors, specifically when used in combination with anti-mitotic agents. These findings reveal a novel therapeutic strategy for tumors displaying mesenchymal features that otherwise render them treatment-refractory.

Citation Format: Catherine Wilson, Thinh Pham, Xiaofen Ye, Eva Lin, Sara Chan, Erin McNamara, Richard M. Neve, Lisa Belmont, Hartmut Koeppen, Robert L. Yauch, Avi Ashkenazi, Jeff Settleman. AXL tyrosine kinase inhibition selectively sensitizes mesenchymal cancer cells to antimitotic agents. [abstract]. In: Proceedings of the 105th Annual Meeting of the American Association for Cancer Research; 2014 Apr 5-9; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2014;74(19 Suppl):Abstract nr 693. doi:10.1158/1538-7445.AM2014-693

Abstract LB-179: Molecular biomarker profiling of archival primary breast cancers from a Phase 3 adjuvant study of capecitabine in early stage breast cancer patients

Current clinical practice stratifies patients for treatment and enrollment in clinical breast cancer studies based on ER, PR and HER2 status. Emerging data suggest that these three biomarkers do not fully capture the heterogeneity that exists within breast cancer. In addition, understanding the genetic landscape of breast cancer is critical for defining clinically actionable patient subsets that may derive benefit from targeted therapies. PIK3CA and TP53 mutations have previously been reported to be the most common mutations within breast cancer; however the prognostic significance of these alterations, as well as their overlap/exclusivity with other important biomarkers is poorly understood.

USON 01062 (O’Shaughnessy J, et al. Proc SABCS, 2010, abstract S4-2) is a phase III study that evaluated the addition of capecitabine to standard adjuvant chemotherapy. The study did not meet its primary endpoint of 5-year disease-free survival (HR 0.84, p=0.125), but showed improvement in overall survival (HR 0.68, p=0.011). FFPE primary breast cancers were obtained from approximately 2000 of the 2610 patients (pts) enrolled, and here we report results from our comprehensive biomarker analyses on 817 of these pts. Samples were profiled using a multiplexed PCR-based platform to determine somatic mutations in 6 key oncogenes, as well as assayed for 800 breast cancer-related genes encompassing a variety of signaling pathways and published breast cancer signatures. IHC for the proliferation marker Ki67 and the tumor suppressor PTEN was also performed.

Intrinsic subtyping analysis determined that 296 pts’ cancers were basal, 69 were HER2-enriched, 327 were luminal A, 124 were luminal B and 1 was normal-like. Approximately 80% of the triple negative breast cancers (TNBCs) were of the basal subtype, and 80% of the ER+ cancers were of the luminal A and B subtypes. The most heterogeneous group was the HER2-enriched group that was comprised of 60% HER2+ and 30% TN cancers. PIK3CA mutations were found at a frequency of 44% in luminal A, 24% in luminal B, 33% in HER2-enriched and 3% in the basal subtypes. Within the TNBC subset, 42% were basal like 1/2, 21% were immunomodulatory, 15% were mesenchymal stem-like, 13% were mesenchymal-like and 9% were luminal AR.

In conclusion, luminal A breast cancers were the most common subtype treated with chemotherapy on this adjuvant trial that evaluated the effectiveness of the anti-proliferative agent, capecitabine. Intrinsic subtyping and molecular profiling of pts’ primary breast cancer reveals the substantial heterogeneity of early breast cancers, highlighting the challenges in identifying patients who may benefit from adjuvant capecitabine based on standard clinical-pathologic features. Analysis of intrinsic subtyping, Ki67 levels and genomic alterations of these early breast cancer pts will be presented.

Citation Format: Carol Lynn O'Brien, Tim R. Wilson, Jill M. Spoerke, Yuanyuan Xiao, Heidi Savage, Rachel Tam, Erica Schleifman, Rajesh Patel, Ling Huw, Hartmut Koeppen, Ling Fu, Teiko Sumiyoshi, Joyce O'Shaughnessy, Mark Lackner. Molecular biomarker profiling of archival primary breast cancers from a Phase 3 adjuvant study of capecitabine in early stage breast cancer patients. [abstract]. In: Proceedings of the 105th Annual Meeting of the American Association for Cancer Research; 2014 Apr 5-9; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2014;74(19 Suppl):Abstract nr LB-179. doi:10.1158/1538-7445.AM2014-LB-179

An antimesothelin-monomethyl auristatin e conjugate with potent antitumor activity in ovarian, pancreatic, and mesothelioma models

Mesothelin (MSLN) is an attractive target for antibody-drug conjugate therapy because it is highly expressed in various epithelial cancers, with normal expression limited to nondividing mesothelia. We generated novel antimesothelin antibodies and conjugated an internalizing one (7D9) to the microtubule-disrupting drugs monomethyl auristatin E (MMAE) and MMAF, finding the most effective to be MMAE with a lysosomal protease-cleavable valine-citrulline linker. The humanized (h7D9.v3) version, αMSLN-MMAE, specifically targeted mesothelin-expressing cells and inhibited their proliferation with an IC50 of 0.3 nmol/L. Because the antitumor activity of an antimesothelin immunotoxin (SS1P) in transfected mesothelin models did not translate to the clinic, we carefully selected in vivo efficacy models endogenously expressing clinically relevant levels of mesothelin, after scoring mesothelin levels in ovarian, pancreatic, and mesothelioma tumors by immunohistochemistry. We found that endogenous mesothelin in cancer cells is upregulated in vivo and identified two suitable xenograft models for each of these three indications. A single dose of αMSLN-MMAE profoundly inhibited or regressed tumor growth in a dose-dependent manner in all six models, including two patient-derived tumor xenografts. The robust and durable efficacy of αMSLN-MMAE in preclinical models of ovarian, mesothelioma, and pancreatic cancers justifies the ongoing phase I clinical trial.

AXL inhibition sensitizes mesenchymal cancer cells to antimitotic drugs

Molecularly targeted drug therapies have revolutionized cancer treatment; however, resistance remains a major limitation to their overall efficacy. Epithelial-to-mesenchymal transition (EMT) has been linked to acquired resistance to tyrosine kinase inhibitors (TKI), independent of mutational resistance mechanisms. AXL is a receptor tyrosine kinase associated with EMT that has been implicated in drug resistance and has emerged as a candidate therapeutic target. Across 643 human cancer cell lines that were analyzed, elevated AXL was strongly associated with a mesenchymal phenotype, particularly in triple-negative breast cancer and non-small cell lung cancer. In an unbiased screen of small-molecule inhibitors of cancer-relevant processes, we discovered that AXL inhibition was specifically synergistic with antimitotic agents in killing cancer cells that had undergone EMT and demonstrated associated TKI resistance. However, we did not find that AXL inhibition alone could overcome acquired resistance to EGFR TKIs in the EMT setting, as previously reported. These findings reveal a novel cotreatment strategy for tumors displaying mesenchymal features that otherwise render them treatment refractory.

High-throughput detection of clinically relevant mutations in archived tumor samples by multiplexed PCR and next-generation sequencing

PURPOSE

Tailoring cancer treatment to tumor molecular characteristics promises to make personalized medicine a reality. However, reliable genetic profiling of archived clinical specimens has been hindered by limited sensitivity and high false-positive rates. Here, we describe a novel methodology, MMP-seq, which enables sensitive and specific high-throughput, high-content genetic profiling in archived clinical samples.

EXPERIMENTAL DESIGN

We first validated the technical performance of MMP-seq in 66 cancer cell lines and a Latin square cross-dilution of known somatic mutations. We next characterized the performance of MMP-seq in 17 formalin-fixed paraffin-embedded (FFPE) clinical samples using matched fresh-frozen tissue from the same tumors as benchmarks. To demonstrate the potential clinical utility of our methodology, we profiled FFPE tumor samples from 73 patients with endometrial cancer.

RESULTS

We demonstrated that MMP-seq enabled rapid and simultaneous profiling of a panel of 88 cancer genes in 48 samples, and detected variants at frequencies as low as 0.4%. We identified DNA degradation and deamination as the main error sources and developed practical and robust strategies for mitigating these issues, and dramatically reduced the false-positive rate. Applying MMP-seq to a cohort of endometrial tumor samples identified extensive, potentially actionable alterations in the PI3K (phosphoinositide 3-kinase) and RAS pathways, including novel PIK3R1 hotspot mutations that may disrupt negative regulation of PIK3CA.

CONCLUSIONS

MMP-seq provides a robust solution for comprehensive, reliable, and high-throughput genetic profiling of clinical tumor samples, paving the way for the incorporation of genomic-based testing into clinical investigation and practice.

Biomarker analyses from a placebo-controlled phase II study evaluating erlotinib±onartuzumab in advanced non-small cell lung cancer: MET expression levels are predictive of patient benefit

PURPOSE

In a recent phase II study of onartuzumab (MetMAb), patients whose non-small cell lung cancer (NSCLC) tissue scored as positive for MET protein by immunohistochemistry (IHC) experienced a significant benefit with onartuzumab plus erlotinib (O+E) versus erlotinib. We describe development and validation of a standardized MET IHC assay and, retrospectively, evaluate multiple biomarkers as predictors of patient benefit.

EXPERIMENTAL DESIGN

Biomarkers related to MET and/or EGF receptor (EGFR) signaling were measured by IHC, FISH, quantitative reverse transcription PCR, mutation detection techniques, and ELISA.

RESULTS

A positive correlation between IHC, Western blotting, and MET mRNA expression was observed in NSCLC cell lines/tissues. An IHC scoring system of MET expression taking proportional and intensity-based thresholds into consideration was applied in an analysis of the phase II study and resulted in the best differentiation of outcomes. Further analyses revealed a nonsignificant overall survival (OS) improvement with O+E in patients with high MET copy number (mean≥5 copies/cell by FISH); however, benefit was maintained in "MET IHC-positive"/MET FISH-negative patients (HR, 0.37; P=0.01). MET, EGFR, amphiregulin, epiregulin, or HGF mRNA expression did not predict a significant benefit with onartuzumab; a nonsignificant OS improvement was observed in patients with high tumor MET mRNA levels (HR, 0.59; P=0.23). Patients with low baseline plasma hepatocyte growth factor (HGF) exhibited an HR for OS of 0.519 (P=0.09) in favor of onartuzumab treatment.

CONCLUSIONS

MET IHC remains the most robust predictor of OS and progression-free survival benefit from O+E relative to all examined exploratory markers.

Profiling cancer gene mutations in clinical formalin-fixed, paraffin-embedded colorectal tumor specimens using targeted next-generation sequencing

PURPOSE

The success of precision oncology relies on accurate and sensitive molecular profiling. The Ion AmpliSeq Cancer Panel, a targeted enrichment method for next-generation sequencing (NGS) using the Ion Torrent platform, provides a fast, easy, and cost-effective sequencing workflow for detecting genomic "hotspot" regions that are frequently mutated in human cancer genes. Most recently, the U.K. has launched the AmpliSeq sequencing test in its National Health Service. This study aimed to evaluate the clinical application of the AmpliSeq methodology.

METHODS

We used 10 ng of genomic DNA from formalin-fixed, paraffin-embedded human colorectal cancer (CRC) tumor specimens to sequence 46 cancer genes using the AmpliSeq platform. In a validation study, we developed an orthogonal NGS-based resequencing approach (SimpliSeq) to assess the AmpliSeq variant calls.

RESULTS

Validated mutational analyses revealed that AmpliSeq was effective in profiling gene mutations, and that the method correctly pinpointed "true-positive" gene mutations with variant frequency >5% and demonstrated high-level molecular heterogeneity in CRC. However, AmpliSeq enrichment and NGS also produced several recurrent "false-positive" calls in clinically druggable oncogenes such as PIK3CA.

CONCLUSION

AmpliSeq provided highly sensitive and quantitative mutation detection for most of the genes on its cancer panel using limited DNA quantities from formalin-fixed, paraffin-embedded samples. For those genes with recurrent "false-positive" variant calls, caution should be used in data interpretation, and orthogonal verification of mutations is recommended for clinical decision making.