Kelly A. Shimabukuro

On the Road to Precision Cancer Medicine: Analysis of Genomic Biomarker Actionability in 439 Patients

Despite the increased use of molecular diagnostics, the extent to which patients who have these tests harbor potentially actionable aberrations is unclear. We retrospectively reviewed 439 patients with diverse cancers, for whom next-generation sequencing (mostly 236-gene panel) had been performed. Data pertaining to the molecular alterations identified, as well as associated treatment suggestions (on- or off-label, or experimental), were extracted from molecular diagnostic reports. Most patients (420/439; 96%) had at least one molecular alteration: 1,813 alterations (in 207 distinct genes) were identified [the majority being mutations (62%) or amplifications (29%)]. The three most common gene abnormalities were TP53 (44%), KRAS (16%), and PIK3CA (12%). The median number of alterations per patient was 3 (range, 0–16). Nineteen patients (4%) had no alterations; 48 patients (11%) had only one alteration; and 372 patients had two or more abnormalities (85%). The median number of potentially actionable anomalies per patient was 2 (range, 0–8). Most patients (393/439; 90%) had at least one potentially actionable alteration, and in all these cases the aberration could at least be targeted by an experimental drug in a clinical trial. A total of 307 patients (70%) had an alteration that was actionable with an approved drug, but in only 89 patients (20%) was the drug approved for their disease (on-label). Next-generation sequencing identified theoretically actionable aberrations in 90% of our patients. Many of the drugs are, however, experimental or would require off-label use. Strategies to address drug access for patients harboring potentially actionable mutations are needed. Mol Cancer Ther; 14(6); 1488–94. ©2015 AACR.

Fibroblast growth factor family aberrations in cancers: clinical and molecular characteristics

Fibroblast growth factor ligands and receptors (FGF and FGFR) play critical roles in tumorigenesis, and several drugs have been developed to target them. We report the biologic correlates of FGF/FGFR abnormalities in diverse malignancies. The medical records of patients with cancers that underwent targeted next generation sequencing (182 or 236 cancer-related genes) were reviewed. The following FGF/FGFR genes were tested: FGF3, 4, 6, 7, 10, 12, 14, 19, 23 and FGFR1, 2, 3, and 4. Of 391 patients, 56 (14.3%) had aberrant FGF (N = 38, all amplifications) and/or FGFR (N = 22 including 5 mutations and one FGFR3-TACC3 fusion). FGF/FGFR aberrations were most frequent in breast cancers (26/81, 32.1%, p = 0.0003). In multivariate analysis, FGF/FGFR abnormalities were independently associated with CCND1/2, RICTOR, ZNF703, RPTOR, AKT2, and CDK8 alterations (all P < 0.02), as well as with an increased median number of alterations (P < 0.0001). FGF3, FGF4, FGF19 and CCND1 were co-amplified in 22 of 391 patients (5.6%, P < 0.0001), most likely because they co-localize on the same chromosomal region (11q13). There was no significant difference in time to metastasis or overall survival when comparing patients harboring FGF/FGFR alterations versus those not. Overall, FGF/FGFR was one of the most frequently aberrant pathways in our population comprising patients with diverse malignancies. These aberrations frequently co-exist with anomalies in a variety of other genes, suggesting that tailored combination therapy may be necessary in these patients.

Cyclin-dependent kinase pathway aberrations in diverse malignancies: clinical and molecular characteristics

Aberrations in the cyclin-dependent kinase (CDK) pathways that regulate the cell cycle restriction point contribute to genomic instability and tumor proliferation, and can be targeted by recently developed CDK inhibitors. We therefore investigated the clinical correlates of CDK4/6 and CDKN2A/B abnormalities in diverse malignancies. Patients with various cancers who underwent molecular profiling by targeted next generation sequencing (Foundation Medicine; 182 or 236 cancer-related genes) were reviewed. Of 347 patients analyzed, 79 (22.8%) had aberrant CDK 4/6 or CDKN2A/B. Only TP53 mutations occurred more frequently than those in CDK elements. Aberrations were most frequent in glioblastomas (21/26 patients; 81%) and least frequent in colorectal cancers (0/26 patients). Aberrant CDK elements were independently associated with EGFR and ARID1A gene abnormalities (P < 0.0001 and p = 0.01; multivariate analysis). CDK aberrations were associated with poor overall survival (univariate analysis; HR[95% CI] = 2.09 [1.35–4.70]; p = 0.004). In multivariate analysis, PTEN and TP53 aberrations were independently associated with poorer survival (HR = 4.83 and 1.92; P < 0.0001 and p = 0.01); CDK aberrations showed a trend toward worse survival (HR = 1.67; p = 0.09). There was also a trend toward worse progression-free survival (PFS) with platinum-containing regimens in patients with abnormal CDK elements (3.5 versus 5.0 months, p = 0.13). In conclusion, aberrations in the CDK pathway were some of the most common in cancer and independently associated with EGFR and ARID1A alterations. Patients with abnormal CDK pathway genes showed a trend toward poorer survival, as well as worse PFS on platinum-containing regimens. Further investigation of the prognostic and predictive impact of CDK alterations across cancers is warranted.

Molecular inimitability amongst tumors: implications for precision cancer medicine in the age of personalized oncology.

Tumor sequencing has revolutionized oncology, allowing for detailed interrogation of the molecular underpinnings of cancer at an individual level. With this additional insight, it is increasingly apparent that not only do tumors vary within a sample (tumor heterogeneity), but also that each patients individual tumor is a constellation of unique molecular aberrations that will require an equally unique personalized therapeutic regimen. We report here the results of 439 patients who underwent Clinical Laboratory Improvement Amendment (CLIA)-certified next generation sequencing (NGS) across histologies. Among these patients, 98.4% had a unique molecular profile, and aside from three primary brain tumor patients with a single genetic lesion (IDH1 R132H), no two patients within a given histology were molecularly identical. Additionally, two sets of patients had identical profiles consisting of two mutations in common and no other anomalies. However, these profiles did not segregate by histology (lung adenocarcinoma-appendiceal cancer (KRAS G12D and GNAS R201C), and lung adenocarcinoma-liposarcoma (CDK4 and MDM2 amplification pairs)). These findings suggest that most advanced tumors are molecular singletons within and between histologies, and that tumors that differ in histology may still nonetheless exhibit identical molecular portraits, albeit rarely.

Next generation sequencing demonstrates association between tumor suppressor gene aberrations and poor outcome in patients with cancer

Next generation sequencing is transforming patient care by allowing physicians to customize and match treatment to their patients’ tumor alterations. Our goal was to study the association between key molecular alterations and outcome parameters. We evaluated the characteristics and outcomes (overall survival (OS), time to metastasis/recurrence, and best progression-free survival (PFS)) of 392 patients for whom next generation sequencing (182 or 236 genes) had been performed. The Kaplan-Meier method and Cox regression models were used for our analysis, and results were subjected to internal validation using a resampling method (bootstrap analysis). In a multivariable analysis (Cox regression model), the parameters that were statistically associated with a poorer overall survival were the presence of metastases at diagnosis (P = 0.014), gastrointestinal histology (P < 0.0001), PTEN (P < 0.0001), and CDKN2A alterations (P = 0.0001). The variables associated with a shorter time to metastases/recurrence were gastrointestinal histology (P = 0.004), APC (P = 0.008), PTEN (P = 0.026) and TP53 (P = 0.044) alterations. TP53 (P = 0.003) and PTEN (P = 0.034) alterations were independent predictors of a shorter best PFS. A personalized treatment approach (matching the molecular aberration with a cognate targeted drug) also correlated with a longer best PFS (P = 0.046). Our study demonstrated that, across diverse cancers, anomalies in specific tumor suppressor genes (PTEN, CDKN2A, APC, and/or TP53) were independently associated with a worse outcome, as reflected by time to metastases/recurrence, best PFS on treatment, and/or overall survival. These observations suggest that molecular diagnostic tests may provide important prognostic information in patients with cancer.

Early outcome of a phase I study of interrupted pulse dosed axitinib combined with FOLFOX or FOLFIRI in refractory metastatic colorectal cancer.

473 Background: In mCRC, bevacizumab studies have shown improved survival in 5-FU based chemotherapy. Therapeutic inhibition of angiogenesis pathways may improve response of chemotherapy refractory malignancies. We evaluated the combination of axitinib, a VEGF receptor inhibitor, used intermittently with 5-FU based chemotherapy for refractory mCRC. We hypothesized that intermittent pulse dosed axitinib may improve response by delivering chemotherapy during tumor reperfusion after release from angiogenesis inhibition. We present preliminary data of the Phase I portion evaluating the safety and efficacy of interrupted pulse dosed axitinib + FOLFIRI. METHODS Initially, Pfizer A4061020 was a phase IB study of axitinib + bevacizumab + FOLFOX vs. FOLFIRI to evaluate potential overlapping toxicities. In cohorts 8 and 9, A4061020 was expanded to determine the MTD of 7 days of intermittent pulse dosed axitinib at 14mg vs. 20mg + FOLFIRI or FOLFOX. Enrollment was open to mCRC with progression on both oxaliplatin and irinotecan-based regimens. The primary outcome was MTD; while secondary outcomes included: PFS, TTP, and OS. RESULTS Preliminary data of 10 mCRC subjects show intermittent pulse dosed axitinib at 14mg and 20mg in combination treatment is safe and tolerable (few grade 3 and one grade 4 AE). We observed PFS up to 16.8 mos (avg 8.7 mos, 6 subjects) and TTP up to 17.1 mos (avg 11.8 mos, 4 subjects) vs. average 6 mos on the last line of chemotherapy. To date, the OS endpoint has not been achieved ( Table ). CONCLUSIONS In 10 heavily pre-treated mCRC subjects, intermittent pulse dosed axitinib demonstrates safety, tolerability, and improved PFS and TTP. Intermittent pulse-dosed VEGF receptor inhibition may enhance tumor response that warrants further exploration. [Table: see text].

Abstract 4957: Next generation sequencing demonstrates association between tumor suppressor gene aberrations and poor outcome in patients with cancer

Next generation sequencing is advancing at a breathtaking pace, and is transforming patient care by allowing physicians to customize and match treatment to their patients’ tumor alterations. Our goal was to study the association between key molecular alterations and outcome parameters. We retrospectively reviewed the clinicopathologic and clinical outcomes of 392 patients for whom molecular testing had been performed. Potential associations between clinical characteristics and outcome parameters (overall survival (OS), time to metastasis/recurrence, and best progression-free survival (PFS)) were examined. The Kaplan-Meier method and Cox regression models were used for our analysis, and results were subjected to internal validation using a resampling method (bootstrap analysis). In a multivariable analysis (Cox regression model), the parameters that were statistically associated with a poorer overall survival were the presence of metastases at diagnosis (P = 0.014), gastrointestinal histology (P Citation Format: Maria Schwaederle, Gregory A. Daniels, David E. Piccioni, Paul T. Fanta, Richard B. Schwab, Kelly A. Shimabukuro, Barbara A. Parker, Razelle Kurzrock. Next generation sequencing demonstrates association between tumor suppressor gene aberrations and poor outcome in patients with cancer. [abstract]. In: Proceedings of the 106th Annual Meeting of the American Association for Cancer Research; 2015 Apr 18-22; Philadelphia, PA. Philadelphia (PA): AACR; Cancer Res 2015;75(15 Suppl):Abstract nr 4957. doi:10.1158/1538-7445.AM2015-4957