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Kwok-Kin Wong
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MA 05 - Immuno-Oncology: Novel Biomarker Candidates (ID 658)
- Event: WCLC 2017
- Type: Mini Oral
- Track: Immunology and Immunotherapy
- Presentations: 1
- Moderators:Yoichi Nakanishi, P. Mitchell
- Coordinates: 10/16/2017, 15:45 - 17:30, Room 303 + 304
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MA 05.02 - STK11/LKB1 Loss of Function Genomic Alterations Predict Primary Resistance to PD-1/PD-L1 Axis Blockade in KRAS-Mutant NSCLC (ID 10367)
15:50 - 15:55 | Author(s): Kwok-Kin Wong
- Abstract
- Presentation
Background:
The genomic landscape of primary resistance to PD-1 blockade in lung adenocarcinoma (LUAD) is largely unknown. We previously reported that co-mutations in STK11/LKB1 (KL) or TP53 (KP) define subgroups of KRAS-mutant LUAD with distinct therapeutic vulnerabilities and immune profiles. Here, we present updated data on the clinical efficacy of PD-1/PD-L1 inhibitors in co-mutation defined KRAS mutant and wild-type LUAD patients and examine the relationship between genetic alterations in individual genes, tumor cell PD-L1 expression and tumor mutational burden (TMB) using cohorts form the SU2C/ACS Lung Cancer Dream Team and Foundation Medicine (FM).
Method:
The cohorts included 924 LUAD with NGS (FM cohort) and 188 patients with KRAS non-squamous NSCLC (SU2C cohort) who received at least one cycle of PD-1/PD-L1 inhibitor therapy and had available molecular profiling. Tumor cell PD-L1 expression was tested using E1L3N IHC (SU2C) and the VENTANA PD-L1 (SP142) assay (FM). TMB was defined as previously described and was classified as high (TMB-H), intermediate (TMB-I) or low (TMB-L).
Result:
188 immunotherapy-treated (83.5% nivolumab, 11.7% pembrolizumab, 4.8% anti-PD1/PD-L1 plus anti-CTLA-4) pts with KRAS-mutant NSCLC were included in the efficacy analysis. The ORR differed significantly between the KL (8.8%), KP (35.9%) and K-only sub-groups (27.3%) (P=0.0011, Fisher’s exact test). KL LUAC exhibited significantly shorter PFS (mPFS 1.8m vs 2.7m, HR=0.53, 95% CI 0.34-0.84, P<0.001, log-rank test) and OS (mOS 6.8m vs 15.6m, HR 0.53, 95% CI 0.34 to 0.84, P=0.0072, log rank test) compared to KRAS-mutant NSCLC with wild-type STK11. Loss-of function (LOF) genetic alterations in STK11 were the only significantly enriched event in PD-L1 negative, TMB-I/H compared to PD-L1 high positive (TPS≥50%), TMB-I/H tumors in the overall FMI cohort (Bonferroni adjusted P=2.38x10[-4], Fisher’s exact test) and among KRAS-mutant tumors (adjusted P=0.05, Fisher’s exact test) . Notably, PD-1 blockade demonstrated activity among 10 PD-L1-negative KP tumors, with 3 PRs and 4SDs recorded. In syngeneic isogenic murine models PD-1 blockade significantly inhibited the growth of Kras mutant tumors with wild-type LKB1 (K), but not those with LKB1 loss (KL), providing evidence that LKB1 loss can play a causative role in promoting PD-1 inhibitor resistance.
Conclusion:
Loss of function genomic alterations in STK11 represent a dominant driver of de novo resistance to PD-1/PD-L1 blockade in KRAS-mutant NSCLC. In addition to tumor PD-L1 status and tumor mutational burden precision immunotherapy approaches should take into consideration the STK11 status of individual tumors.
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MA 07 - ALK, ROS and HER2 (ID 673)
- Event: WCLC 2017
- Type: Mini Oral
- Track: Advanced NSCLC
- Presentations: 1
- Moderators:Robert C. Doebele, J.C. Ho
- Coordinates: 10/17/2017, 15:45 - 17:30, Room 316
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MA 07.12 - Short-Term Culture of Patient Derived Tumor Organoids Identify Neratinib/Trastuzumab as an Effective Combination in HER2 Mutant Lung Cancer (ID 10119)
17:00 - 17:05 | Author(s): Kwok-Kin Wong
- Abstract
- Presentation
Background:
There are currently no effective targeted therapies for HER2 mutant lung cancer. Both neratinib alone or in combination with temsirolimus both have low response rates. One challenge is the lack of patient derived HER2 mutant cell line models and a platform in which to identify the most effective therapeutic strategy. Patient derived xenografts (PDXs) are emerging as an alternative tool to screen for drug efficacy, but can take months to generate and are impractical for screening of large sets of drug combinations. Here we report on a novel 3D microfluidic platform that allows for evaluating ex vivo responses to targeted therapies or targeted therapy combinations from patient derived tumor spheroids (xDOTS).
Method:
We generated xDOTS from DFCI 359, a PDX derived from a HER2 mutant (InsYVMA) NSCLC patient under an IRB approved protocol. Tumor organoids (<100 μm and >40μm) were treated with: HER2 covalent inhibitors (neratinib, afatinib); an EGFR inhibitor (gefitinib), and combinations of HER2 inhibitors and other compounds (neratinib/trastuzumab or neratinib/temsirolimus) at known peak plasma concentrations for 3 days in our 3D microfluidic cell culture device. Live/death quantification was performed by dual labeling de-convolution fluorescence microscopy using acridine orange for live and propidium iodide for dead cells. Cell type characterization was performed by immunofluorescence. The most effective combination was used to treat the DFCI 359 PDX and a HER2 InsYVMA genetically engineered mouse model (GEMM).
Result:
Both neratinib alone and afatinib alone, but not gefitinib, induced high degree of cell death in the DFCI 359 xDOTS. The combinations of neratinib/trastuzumab, and neratinib/temsirolimus enhanced the therapeutic benefit compared to neratinib alone, with the former combination being more effective than the latter. Using fluorescence microscopy we demonstrate that the effects are specific to the tumor cells, rather than the stromal component. We then went on to confirm these findings in a concomitant in-vivo efficacy experiment using the DFCI 359 PDX and the HER2 InsYVMA GEMM. In both in vivo models, the neratinib/trastuzumab combination led to significant tumor regressions and was superior to either single agents or the neratinib/temsirolimus combination.
Conclusion:
Our findings demonstrate the ability to use a 3-D in vivo microfluidic system to identify combination therapies for HER2 mutant NSCLC. Based on our studies, neratinib/trastuzumab is a promising combination for a clinical trial for HER2 mutant lung cancer.
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MA 10 - Immunotherapy I (ID 664)
- Event: WCLC 2017
- Type: Mini Oral
- Track: Immunology and Immunotherapy
- Presentations: 1
- Moderators:S. Wang, Robert Pirker
- Coordinates: 10/17/2017, 11:00 - 12:30, Room 303 + 304
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MA 10.10 - Tumor Draining Lymph Node Immunophenotype Corresponds with Primary Tumor Characteristics in Patients with Non-Small Cell Lung Cancer (ID 10343)
12:05 - 12:10 | Author(s): Kwok-Kin Wong
- Abstract
- Presentation
Background:
There is growing appreciation for the role of tumor-draining lymph nodes (TDLN) in the dynamic of immunoediting orchestrated by non-small cell lung cancers (NSCLC). By comparing T-cell subsets and gene expression in TDLN and non-draining lymph nodes (NDLN), we aim to determine whether there is tumor-regional variation in immunophenotype.
Method:
Patients undergoing endobronchial ultrasound-guided transbronchial needle aspiration for the diagnosis/staging of NSCLC were recruited. Aspirates were obtained from TDLN (N1/N2 nodes with increased fluorodeoxyglucose-F-18 (FDG) avidity and/or enlarged >1cm) and NDLN (non-enlarged/non-FDG-avid N2/N3 nodes) along with peripheral blood. Samples were stained with fluorophore-conjugated antibodies (CD4-FITC, CD8-V450, CD25-PECy7, CD127-APCR700, CD45RO-PECF594) and analyzed by flow cytometry. CD4+CD25- and CD8+ effector T-cells (Teff) were sorted. Gene expression profiling was performed on sorted Teff using the Nanostring™ platform to measure differential expression between TDLN and NDLNs.
Result:
We compared T-cell subpopulations in TDLN and paired NDLN from 16 subjects. There were significantly fewer CD4+ T-cells in TDLN vs NDLN (10.1% vs 28.9%, p=0.0039), with more Tregs (12.1% vs 7.3%, p=0.1563) suggesting a pattern of tumor-regional immunosuppression in the TDLN. This was more consistent when tumor histology was adenocarcinoma compared to squamous cell cancer with respect to both depletion of Teff and higher proportion of Tregs (Figure 1). A more immunosuppressive TDLN phenotype was also observed with high tumor PD-L1 expression (>50%), with 36% fewer CD4+ T-cells in TDLN relative to paired NDLN when PD-L1 expression was high relative to just 3.2% fewer CD4+ T-cells with low PD-L1 expression. Gene expression in Teff has preliminarily demonstrated upregulation of genes mediating T-cell exhaustion (CTLA-4, PD-1, TGF-β) and downregulation of co-stimulatory/recruitment factors (CD28, ICOS, ICAM2) in TDLN suggesting impaired activation of tumor-regional Teff. Figure 1
Conclusion:
Our findings suggest that TDLNs in patients with NSCLC display a tolerogenic phenotype, with more marked immunosuppression in the setting of adenocarcinoma and high tumor PD-L1 expression.
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MS 26 - Re-Modeling Microenvironment Mimicking Human Cancer (ID 548)
- Event: WCLC 2017
- Type: Mini Symposium
- Track: Biology/Pathology
- Presentations: 1
- Moderators:P. Yang, C. Mascaux
- Coordinates: 10/18/2017, 14:30 - 16:15, Room 502
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MS 26.03 - Animal Model (ID 7766)
15:10 - 15:30 | Presenting Author(s): Kwok-Kin Wong
- Abstract
Abstract not provided
Information from this presentation has been removed upon request of the author.
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OA 12 - Emerging Genomic Targets (ID 679)
- Event: WCLC 2017
- Type: Oral
- Track: Advanced NSCLC
- Presentations: 1
- Moderators:H. Akita, Maurice Pérol
- Coordinates: 10/18/2017, 11:00 - 12:30, F203 + F204 (Annex Hall)
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OA 12.01 - The Preclinical and Clinical Activity of Poziotinib, a Potent, Selective Inhibitor of EGFR Exon 20 Mutant NSCLC (ID 10369)
11:00 - 11:10 | Author(s): Kwok-Kin Wong
- Abstract
- Presentation
Background:
Approximately 10% of EGFR mutant NSCLCs have an insertion/mutation in exon 20 of EGFR resulting in primary resistance to currently available tyrosine kinase inhibitors (TKIs). We previously reported that the structural features of poziotinib could potentially enable it to circumvent the steric hindrance induced by exon 20 mutations. Here we further characterize the preclinical activity of poziotinib and report on initial clinical activity of poziotinib in patients with EGFR exon 20 mutations from an ongoing phase II study.
Method:
We evaluated poziotinib activity in vitro using human NSCLC cell lines and the BAF3 model as well as several patient-derived xenograft (PDX) models and genetically engineered mouse models (GEMMs) of exon 20 insertion. We launched a phase 2 investigator-initiated trial of poziotinib in patients with metastatic NSCLC with EGFR exon 20 insertions (NCT03066206).
Result:
In vitro poziotinib was approximately 100x more potent than osimertinib and 40x more potent than afatinib against a common panel of EGFR exon 20 insertions. Furthermore, it had ~65-fold greater potency against common exon 20 insertions compared with EGFR T790M mutations; 3[rd] generation inhibitors osimertinib, EGF816, and rociletinib were all significantly less potent for exon 20 mutations/insertions compared with T790M. in vivo poziotinib led to >85% reduction in tumor burden in GEM models of EGFR exon 20 insertion (D770insNPG) NSCLC and the PDX model LU0387 (H773insNPH). To date, 8 platinum-refractory patients with EGFR exon 20 insertion mutation metastatic NSCLC have been enrolled in the clinical trial and treated with poziotinib at a dose of 16 mg PO daily. Two patients have reached the first interval-imaging time point (at 8 weeks of therapy per protocol). Both patients exhibited dramatic partial response, with one patient reporting improvement in dyspnea and cough at one week of therapy. In this early stage of the study, one case of grade 3 paronchycia was observed. One additional platinum- and erlotinib-refractory patient with EGFR exon 20 insertion was treated with poziotinib on compassionate basis. The patient achieved partial response after three weeks of treatment.
Conclusion:
Poziotinib has selective activity against EGFR exon 20 mutations and potent activity in cell lines, PDX, and GEM models. Three platinum-refractory patients with EGFR exon 20 mutations have been treated thus far and are evaluable for response; all three had partial responses at the time of the initial scan. Updated data from the ongoing phase 2 clinical trial of poziotinib will be presented at the meeting.
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P1.07 - Immunology and Immunotherapy (ID 693)
- Event: WCLC 2017
- Type: Poster Session with Presenters Present
- Track: Immunology and Immunotherapy
- Presentations: 1
- Moderators:
- Coordinates: 10/16/2017, 09:30 - 16:00, Exhibit Hall (Hall B + C)
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P1.07-007 - Interleukin-17A Promotes Lung Tumor Progression Through Neutrophil Attraction to Tumor Sites and Mediating Resistance to PD-1 Blockade. (ID 8342)
09:30 - 09:30 | Author(s): Kwok-Kin Wong
- Abstract
Background:
Proinflammatory cytokine Interleukin (IL)-17A (IL-17A) is the prototypical member of the IL-17 family of pro-inflammatory cytokines. It is produced by Th17 cells, CD8 T cells, γδT cells, and Natural Killer (NK) cells in the tumor microenvironment. The inflammatory milieu can contribute to lung cancer growth by further production of tumor promoting cytokines, reduction in cytotoxic T cells, and development of myeloid derived suppressor cells. IL-17A and its receptors are expressed across different tumor types; however, their exact role in tumor development, progression, and response to therapeutic regimens is unclear. IL-17A is overexpressed in a subset of patients with lung cancer. We hypothesized that IL-17A promotes a pro-tumorigenic inflammatory phenotype, and inhibits anti-tumor immune responses.
Method:
IL-17A is expressed at high levels in a subset of lung cancers. Interestingly, we observed that IL-17A could not be detected in Bronchoalveolar lavage fluids (BALFs) from immunocompetent mouse lung cancer models. To characterize the role of IL-17A in Kras mutant lung tumors, we developed a mouse model of chronic inflammation that more closely resembles human KRAS mutant lung cancer through expressing IL-17A constitutively in the lung epithelium and then introducing this allele into lox-stop-lox Kras G12D mutant mice. We performed immune phenotyping of mouse lungs, survival analysis, and treatment studies with antibodies either blocking PD-1 or IL6, or depleting neutrophils. To support preclinical findings, we analyzed human gene expression datasets and immune profiled patient lung tumors.
Result:
Tumors in IL-17:Kras G12D[]mice grew more rapidly, resulting in a significantly shorter survival as compared to Kras G12D. IL-6, G-CSF, MFG-E8, and CXCL1 were increased in the lungs of IL17:Kras mice. Time course analysis revealed that tumor-associated neutrophils were significantly elevated, and lymphocyte recruitment was significantly reduced in IL17:Kras G12D mice as compared to Kras G12D. In therapeutic studies PD-1 blockade was not effective in treating IL-17:Kras G12D tumors. In contrast, blocking IL-6 or depleting neutrophils with an anti-Ly-6G antibody in the IL17:Kras G12D tumors resulted in a clinical response associated with T cell activation. In tumors from lung cancer patients with KRAS mutation we found a correlation among higher levels of IL-17A and the colony stimulating factor (CSF3), and a significant correlation among high neutrophil and lower T cell numbers.
Conclusion:
Here we show that an increase in a single cytokine, IL-17A, without additional mutations, can promote lung cancer growth by promoting inflammation, which contributes to resistance to PD-1 blockade and sensitizes tumors to cytokine/neutrophil depletion.