Dyane Bailey

Preclinical model of organotypic culture for pharmacodynamic profiling of human tumors

Predicting drug response in cancer patients remains a major challenge in the clinic. We have perfected an ex vivo, reproducible, rapid and personalized culture method to investigate antitumoral pharmacological properties that preserves the original cancer microenvironment. Response to signal transduction inhibitors in cancer is determined not only by properties of the drug target but also by mutations in other signaling molecules and the tumor microenvironment. As a proof of concept, we, therefore, focused on the PI3K/Akt signaling pathway, because it plays a prominent role in cancer and its activity is affected by epithelial–stromal interactions. Our results show that this culture model preserves tissue 3D architecture, cell viability, pathway activity, and global gene-expression profiles up to 5 days ex vivo. In addition, we show pathway modulation in tumor cells resulting from pharmacologic intervention in ex vivo culture. This technology may have a significant impact on patient selection for clinical trials and in predicting response to small-molecule inhibitor therapy.

Met Activation in Non-Small Cell Lung Cancer Is Associated with de Novo Resistance to EGFR Inhibitors and the Development of Brain Metastasis

Most non-small cell lung cancer (NSCLC) patients harboring activating epidermal growth factor receptor (EGFR) mutations respond to tyrosine kinase inhibitor (TKI) therapy. However, about 30% exhibit primary resistance to EGFR TKI therapy. Here we report that Met protein expression and phosphorylation were associated with primary resistance to EGFR TKI therapy in NSCLC patients harboring EGFR mutations, implicating Met as a de novo mechanism of resistance. In a separate patient cohort, Met expression and phosphorylation were also associated with development of NSCLC brain metastasis and were selectively enriched in brain metastases relative to paired primary lung tumors. A similar metastasis-specific activation of Met occurred in vitro in the isogenous cell lines H2073 and H1993, which are derived from the primary lung tumor and a metastasis, respectively, from the same patient. We conclude that Met activation is found in NSCLC before EGFR-targeted therapy and is associated with both primary resistance to EGFR inhibitor therapy and with the development of metastases. If confirmed in larger cohorts, our analysis suggests that patient tumors harboring both Met activation and EGFR mutation could potentially benefit from early intervention with a combination of EGFR and Met inhibitors.

c-Jun amplification and overexpression are oncogenic in liposarcoma but not always sufficient to inhibit the adipocytic differentiation programme

Genomic amplification of c‐Jun and its upstream kinases have been implicated as a mechanism of progression from well‐differentiated to dedifferentiated liposarcoma. To further define the role of c‐Jun in liposarcoma progression, we performed immunohistochemistry for c‐Jun and its activating kinase ASK1 on a series of liposarcomas (n = 81). We correlated the results with fluorescence in situ hybridization to detect c‐Jun amplification. We also derived new cell lines from dedifferentiated liposarcomas with c‐Jun amplification. c‐Jun protein is expressed in the majority of dedifferentiated liposarcomas (91%) and their well‐differentiated components (59%), but only in the minority of pure well‐differentiated liposarcomas (27%). When c‐Jun is amplified in dedifferentiated liposarcoma, it is interspersed with amplified MDM2 on ring and giant marker chromosomes. MDM2 amplification is one of the earliest events in liposarcoma development, and these results suggest that c‐Jun was amplified at a similar time in the evolution of the tumour. In addition, shRNA to c‐Jun in c‐Jun‐amplified liposarcoma cells reduces cell number in vitro and inhibits tumour formation in vivo without an observable effect on the differentiation state of the liposarcoma cells. Thus, c‐Jun amplification is oncogenic in liposarcomas but not always sufficient for inhibition of adipocytic differentiation. Copyright

Identification of CD44v6(+)/CD24- breast carcinoma cells in primary human tumors by quantum dot-conjugated antibodies.

Breast carcinoma cells with the CD44+/CD24low phenotype have been reported to exhibit ‘cancer stem cell’ (CSC) characteristics on the basis of their enhanced tumorigenicity and self-renewal potential in immunodeficient mice. We used immunohistochemistry to study the expression of these proteins in whole tissue sections of human breast carcinoma. We found that the fraction of CD44v6+ cells is higher in estrogen receptor-positive carcinomas after neoadjuvant chemotherapy. We also performed double immunohistochemistry for CD44v6 and for the proliferation marker Ki67. We found that the relative number of quiescent carcinoma cells is higher in the CD44v6+ population than in the CD44v6− population in specific carcinoma subtypes. We then used quantum dots and spectral imaging to increase the number of antigens that could be visualized in a single tissue section. We found that anti-CD44v6 and CD24 antibodies that were directly conjugated to quantum dots retained their ability to recognize antigen in formalin-fixed, paraffin-embedded tissue sections. We then performed triple staining for CD44v6, CD24 and Ki67 to assess the proliferation of each sub-population of breast carcinoma cells. Our results identify differences between CD44v6-positive and CD44v6-negative breast carcinoma cells in vivo and provide a proof of principle that quantum dot-conjugated antibodies can be used to study specific sub-populations of cancer cells defined by multiple markers in a single tissue section.

Utility of multispectral imaging in automated quantitative scoring of immunohistochemistry.

Background Automated scanning devices and image analysis software provide a means to overcome the limitations of manual semiquantitative scoring of immunohistochemistry. Common drawbacks to automated imaging systems include an inability to classify tissue type and an inability to segregate cytoplasmic and nuclear staining. Methods Immunohistochemistry for the membranous marker α-catenin, the cytoplasmic marker stathmin and the nuclear marker Ki-67 was performed on tissue microarrays (TMA) of archival formalin-fixed paraffin-embedded tissue comprising 471 (α-catenin and stathmin) and 511 (Ki-67) cases of prostate adenocarcinoma. These TMA were quantitatively analysed using two commercially available automated image analysers, the Ariol SL-50 system and the Nuance system from CRi. Both systems use brightfield microscopy for automated, unbiased and standardised quantification of immunohistochemistry, while the Nuance system has spectral deconvolution capabilities. Results Overall concordance between scores from both systems was excellent (r=0.90; 0.83–0.95). The software associated with the multispectral imager allowed accurate automated classification of tissue type into epithelial glandular structures and stroma, and a single-step segmentation of staining into cytoplasmic or nuclear compartments allowing independent evaluation of these areas. The Nuance system, however, was not able to distinguish reliably between tumour and non-tumour tissue. In addition, variance in the labour and time required for analysis between the two systems was also noted. Conclusion Despite limitations, this study suggests some beneficial role for the use of a multispectral imaging system in automated analysis of immunohistochemistry.

β-Catenin Is a Useful Adjunct Immunohistochemical Marker for the Diagnosis of Pulmonary Lymphangioleiomyomatosis

Lymphangioleiomyomatosis (LAM) is a rare multisystem disease leading to cystic destruction of the lung parenchyma and is associated with abnormal smooth muscle proliferation affecting airways, lymphatics, and blood vessels. LAM occurs sporadically or in association with the tuberous sclerosis complex (TSC). Recent evidence demonstrates the role of aberrant β-catenin signaling in TSC. To further understand the pathogenesis of LAM and to examine the diagnostic usefulness of β-catenin, we examined protein expression in 28 pulmonary LAM cases and 10 cases of renal angiomyolipoma resected from patients with sporadic LAM. Immunohistochemical analysis was performed for established markers of LAM cells (HMB45, estrogen receptor [ER]-α, and progesterone receptor [PR]) and β-catenin. All LAM cases were positive for β-catenin and demonstrated high specificity with overall immunoreactivity superior to HMB45, ER-α, and PR. Similar expression was demonstrated in renal angiomyolipoma. Our results indicate that β-catenin is a useful marker of LAM and may be clinically useful in the diagnostic setting.

FOXO3a loss is a frequent early event in high-grade pelvic serous carcinogenesis

Serous ovarian carcinoma is the most lethal gynecological malignancy in Western countries. The molecular events that underlie the development of the disease have been elusive for many years. The recent identification of the fallopian tube secretory epithelial cells (FTSECs) as the cell-of-origin for most cases of this disease has led to studies aimed at elucidating new candidate therapeutic pathways through profiling of normal FTSECs and serous carcinomas. Here we describe the results of transcriptional profiles that identify the loss of the tumor suppressive transcription factor FOXO3a in a vast majority of high-grade serous ovarian carcinomas. We show that FOXO3a loss is a hallmark of the earliest stages of serous carcinogenesis and occurs both at the DNA, RNA and protein levels. We describe several mechanisms responsible for FOXO3a inactivity, including chromosomal deletion (chromosome 6q21), upregulation of miRNA-182 and destabilization by activated PI3K and MEK. The identification of pathways involved in the pathogenesis of ovarian cancer can advance the management of this disease from being dependant on surgery and cytotoxic chemotherapy alone to the era of targeted therapy. Our data strongly suggest FOXO3a as a possible target for clinical intervention.

Using Glow Stick Chemistry for Biological Imaging

PurposeThis study describes an imaging strategy based on glow stick chemistry to non-invasively image oxidative stress and reactive oxygen species (ROS) production in living animals.ProceduresUpon stimulation, phagocytes produce toxic levels of ROS to kill engulfed microorganisms. The mitochondrial respiratory chain continually generates low levels of superoxide (O2·−) that serve as a source for generation of downstream ROS, which function as regulatory signaling intermediaries. A ROS-reacting substrate, 2-methyl-6-[4-methoxyphenyl]-3,7-dihydroimidazo[1,2-a]pyrazin-3-one hydrochloride, was used as the chemical energy donor for generating energy transfer luminescence in phagosomes and mitochondria.ResultsUsing targeted photoluminescent dyes with specific subcellular localization that serve as chemical energy recipients, our imaging data demonstrate proof-of-concept for using glow stick chemistry to visualize ROS production associated with phagocytosis and mitochondrial respiration in living mice.ConclusionsGlow stick imaging is a complementary hybrid of chemiluminescence and photoluminescence imaging, capable of generating red or far-red emission for deep tissue imaging.

Abstract B27: Improved survival with erdafitinib (JNJ-42756493) and PD-1 blockade mediated by enhancement of anti-tumor immunity in an FGFR2-driven genetically engineered mouse model of lung cancer

Targeted therapies against activated oncogenes, such as receptor tyrosine kinases, have significantly prolonged non-small cell lung cancer (NSCLC) patient survival, but the development of resistance limits the durability of clinical response. Genetic alterations which constitutively activate Fibroblast Growth Factor Receptors (FGFR) have been observed in patients with NSCLC. Erdafitinib (JNJ-42756493), an orally bioavailable pan-FGFR inhibitor discovered as part of a collaboration between Janssen and Astex Pharmaceuticals, has been shown to inhibit FGFR signaling pathways resulting in cell death and tumor growth inhibition in both in vitro and in vivo models of FGFR pathway aberration. Further, erdafitinib has been shown to have favorable pharmaceutical properties with manageable side effects in humans and several clinical trials are currently underway. One potential strategy to enhance the durability of response to targeted therapies, such as FGFR inhibitors, is to couple them with immunotherapy. In this setting, T cell responses primed and activated by increased antigen release resulting from the tumor cell targeted therapy could be enhanced and maintained by T-cell directed checkpoint blockade. To test this hypothesis, we evaluated erdafitinib in combination with an anti-programmed death-1 (PD-1) blocking antibody in an autochthonous FGFR2K660N/p53 genetically engineered mouse model (GEMM) of lung cancer, in which tumors develop within the context of an intact immune microenvironment. Cohorts of tumor bearing FGFR2K660N/p53 mutant mice treated with erdafitinib with or without anti-PD-1 showed significant tumor regressions compared to control and anti-PD-1 alone groups. Despite lack of differences in acute tumor responses between erdafitinib monotherapy and combination therapy, we observed significant survival benefit in the combination group erdafitinib alone (median survival 19.7 weeks vs 13.4 weeks, p Citation Format: Sangeetha Palakurthi, Mari Kuraguchi, Sima Zacharek, Jeff Liu, Dennis Bonal, Wei Huang, Kristin Depeaux, Abha Dhaneshwar, Sam Regan, Dyane Bailey, Martha Gowaski, Mei Zheng, Roderick Bronson, Catherine Ferrante, Enrique Zudaire, Sylvie Laquerre, Mark Bittinger, Kirschmeier Paul, Kathryn Packman, Raluca I. Verona, Kwok-Kin Wong, Matthew V. Lorenzi. Improved survival with erdafitinib (JNJ-42756493) and PD-1 blockade mediated by enhancement of anti-tumor immunity in an FGFR2-driven genetically engineered mouse model of lung cancer. [abstract]. In: Proceedings of the AACR Special Conference on Tumor Immunology and Immunotherapy; 2016 Oct 20-23; Boston, MA. Philadelphia (PA): AACR; Cancer Immunol Res 2017;5(3 Suppl):Abstract nr B27.