Focal amplification and activating point mutation of the MET gene are well-characterized oncogenic drivers that confer susceptibility to targeted MET inhibitors. Recurrent somatic splice site ...alterations at MET exon 14 (METex14) that result in exon skipping and MET activation have been characterized, but their full diversity and prevalence across tumor types are unknown. Here, we report analysis of tumor genomic profiles from 38,028 patients to identify 221 cases with METex14 mutations (0.6%), including 126 distinct sequence variants. METex14 mutations are detected most frequently in lung adenocarcinoma (3%), but also frequently in other lung neoplasms (2.3%), brain glioma (0.4%), and tumors of unknown primary origin (0.4%). Further in vitro studies demonstrate sensitivity to MET inhibitors in cells harboring METex14 alterations. We also report three new patient cases with METex14 alterations in lung or histiocytic sarcoma tumors that showed durable response to two different MET-targeted therapies. The diversity of METex14 mutations indicates that diagnostic testing via comprehensive genomic profiling is necessary for detection in a clinical setting.
Here we report the identification of diverse exon 14 splice site alterations in MET that result in constitutive activity of this receptor and oncogenic transformation in vitro. Patients whose tumors harbored these alterations derived meaningful clinical benefit from MET inhibitors. Collectively, these data support the role of METex14 alterations as drivers of tumorigenesis, and identify a unique subset of patients likely to derive benefit from MET inhibitors.
Background.
Esophageal squamous cell carcinomas (ESCCs) and esophageal adenocarcinomas (EACs) account for >95% of esophageal malignancies and represent a major global health burden. ESCC is the ...dominant histology globally but represents a minority of U.S. cases, with EAC accounting for the majority of U.S. cases. The patient outcomes for advanced ESCC and EAC are poor, and new therapeutic options are needed. Using a sensitive sequencing assay, we compared the genomic profiles of ESCC and EAC with attention to identification of therapeutically relevant genomic alterations.
Methods.
Next‐generation sequencing‐based comprehensive genomic profiling was performed on hybridization‐captured, adaptor ligation‐based libraries to a median coverage depth of >650× for all coding exons of 315 cancer‐related genes plus selected introns from 28 genes frequently rearranged in cancer. Results from a single sample were evaluated for all classes of genomic alterations (GAs) including point mutations, short insertions and deletions, gene amplifications, homozygous deletions, and fusions/rearrangements. Clinically relevant genomic alterations (CRGAs) were defined as alterations linked to approved drugs and those under evaluation in mechanism‐driven clinical trials.
Results.
There were no significant differences by sex for either tumor type, and the median age for all patients was 63 years. All ESCCs and EACs were at an advanced stage at the time of sequencing. All 71 ESCCs and 231 EACs featured GAs on profiling, with 522 GAs in ESCC (7.4 per sample) and 1,303 GAs in EAC (5.6 per sample). The frequency of clinically relevant GAs in ESCC was 94% (2.6 per sample) and 93% in EAC (2.7 per sample). CRGAs occurring more frequently in EAC included KRAS (23% EAC vs. 6% ESCC) and ERBB2 (23% EAC vs. 3% ESCC). ESCC samples were enriched for CRGA in PIK3CA (24% ESCC vs. 10% EAC), PTEN (11% ESCC vs. 4% EAC), and NOTCH1 (17% ESCC vs. 3% EAC). Other GAs that differed significantly between histologic tumor types included SMAD4 (14% EAC vs. 1% ESCC), RB1 (14% ESCC vs. 2% EAC), SOX2 (18% ESCC vs. 1% EAC), and NFE2L2 (24% ESCC vs. 1% EAC).
Conclusion.
ESCC and EAC share similarly high frequencies of overall and clinically relevant genomic alterations; however, the profiles of genomic alterations in the two diseases differ widely, with KRAS and ERBB2 far more frequently altered in EAC compared with ESCC and with mammalian target of rapamycin (MTOR) pathway genes (PIK3CA and PTEN) and NOTCH1 more frequently altered in ESCC compared with EAC. Comprehensive genomic profiling highlights the promise of identifying clinically relevant genomic alterations in both ESCC and EAC and suggests new avenues for molecularly directed therapies in esophageal cancer.
Implications for Practice:
Both esophageal squamous cell carcinoma and esophageal adenocarcinoma are aggressive cancers with poor patient response to conventional chemotherapy and radiation treatment. In this study, comprehensive genomic profiling was performed for 302 advanced esophageal cancers, and it was found that the frequently altered genes and biological pathways differed between the two subtypes. Also, a high frequency of clinically relevant genomic alterations was noted for both types of esophageal cancer as a means of finding a potential targeted therapy to be used in addition to or as an alternative to conventional treatment.
Esophageal squamous cell carcinoma and esophageal adenocarcinoma are aggressive cancers with poor patient response to conventional chemotherapy and radiation treatment. In this study, comprehensive genomic profiling showed that the frequently altered genes and biological pathways differed between the two subtypes, and a high frequency of clinically relevant genomic alterations was noted as a means of finding a potential targeted therapy to be used in addition or as an alternative to conventional treatment.
Inflammatory breast cancer (IBC) is a distinct clinicopathologic entity that carries a worse prognosis relative to non-IBC breast cancer even when matched for standard biomarkers (ER/PR/HER2). The ...objective of this study was to identify opportunities for benefit from targeted therapy, which are not currently identifiable in the standard workup for advanced breast cancer. Comprehensive genomic profiling on 53 IBC formalin-fixed paraffin-embedded specimens (mean, 800× + coverage) using the hybrid capture-based FoundationOne assay. Academic and community oncology clinics. From a series of 2208 clinical cases of advanced/refractory invasive breast cancers, 53 cases with IBC were identified. The presence of clinically relevant genomic alterations (CRGA) in IBC and responses to targeted therapies. CRGA were defined as genomic alterations (GA) associated with on label targeted therapies and targeted therapies in mechanism-driven clinical trials. For the 44 IBCs with available biomarker data, 19 (39 %) were ER−/PR−/HER2− (triple-negative breast cancer, TNBC). For patients in which the clinical HER2 status was known, 11 (25 %) were HER2+ with complete (100 %) concordance with
ERBB2
(
HER2
) amplification detected by the CGP assay. The 53 sequenced IBC cases harbored a total of 266 GA with an average of 5.0 GA/tumor (range 1–15). At least one alteration associated with an FDA approved therapy or clinical trial was identified in 51/53 (96 %) of cases with an average of 2.6 CRGA/case. The most frequently altered genes were
TP53
(62 %),
MYC
(32 %),
PIK3CA
(28 %),
ERBB2
(26 %),
FGFR1
(17 %),
BRCA2
(15 %), and
PTEN
(15 %). In the TNBC subset of IBC, 8/19 (42 %) showed
MYC
amplification (median copy number 8X, range 7–20) as compared to 9/32 (28 %) in non-TNBC IBC (median copy number 7X, range 6–21). Comprehensive genomic profiling uncovered a high frequency of GA in IBC with 96 % of cases harboring at least 1 CRGA. The clinical benefit of selected targeted therapies in individual IBC cases suggests that a further study of CGP in IBC is warranted.
Prompted by the revolution in high-throughput sequencing and its potential impact for treating cancer patients, we initiated a clinical research study to compare the ability of different sequencing ...assays and analysis methods to analyze glioblastoma tumors and generate real-time potential treatment options for physicians.
A consortium of seven institutions in New York City enrolled 30 patients with glioblastoma and performed tumor whole genome sequencing (WGS) and RNA sequencing (RNA-seq; collectively WGS/RNA-seq); 20 of these patients were also analyzed with independent targeted panel sequencing. We also compared results of expert manual annotations with those from an automated annotation system, Watson Genomic Analysis (WGA), to assess the reliability and time required to identify potentially relevant pharmacologic interventions.
WGS/RNAseq identified more potentially actionable clinical results than targeted panels in 90% of cases, with an average of 16-fold more unique potentially actionable variants identified per individual; 84 clinically actionable calls were made using WGS/RNA-seq that were not identified by panels. Expert annotation and WGA had good agreement on identifying variants mean sensitivity = 0.71, SD = 0.18 and positive predictive value (PPV) = 0.80, SD = 0.20 and drug targets when the same variants were called (mean sensitivity = 0.74, SD = 0.34 and PPV = 0.79, SD = 0.23) across patients. Clinicians used the information to modify their treatment plan 10% of the time.
These results present the first comprehensive comparison of technical and machine augmented analysis of targeted panel and WGS/RNA-seq to identify potential cancer treatments.
Following publication of the original article 1, it was reported that the given name of the fourteenth author was incorrectly published. The incorrect and the correct names are given below.
Abstract Background Collecting duct carcinoma (CDC) is a rare type of renal cell carcinoma (RCC) originating from the renal medulla. Clinical outcomes are poor, and there are no consensus guidelines ...to guide therapy. Objective To determine genomic alterations (GAs) in a series of patients with locally advanced or metastatic CDC for whom genomic profiling was performed during the course of clinical care. Design, setting, and participants Formalin-fixed, paraffin-embedded blocks or slides were obtained for 17 patients with CDC. DNA was extracted and comprehensive genomic profiling was performed in a laboratory certified under the Clinical Laboratory Improvement Amendments. Outcome measurements and statistical analysis Bayesian algorithms and local alignment algorithms were used to detect substitutions and insertions/deletions, respectively. A comparison to normal control samples was used to detect copy number alterations. Clinically relevant GAs (CRGAs) were defined as those linked to approved or investigational targeted therapies. Results and limitations The median age in the cohort was 53 yr (range 26–73), and 14 primary tumors and three metastatic sites assessed. A total of 36 GAs were detected in this series of patients, with an average of 2.1 GAs per case. The most common GAs were in NF2 (5/17, 29%), SETD2 (4/17, 24%), SMARCB1 (3/17, 18%), and CDKN2A (2/17, 12%). Of nine cases assessed for FH GAs, two patients had FH homozygous loss. A limitation is that targeted interrogation of genes known to be implicated in other cancers was performed, so mutations outside of these cannot be excluded. Conclusions Recurrent CRGAs were detected in this series of CDC cases and suggest a possible benefit from targeted therapy. In particular, mTOR inhibitors may be of interest in patients with NF2 alterations. Alterations in FH and SMARCB1 also occurred in a mutually exclusive manner to NF2 alterations. Patient summary This report provides important genomic insights into collecting duct carcinoma, a rare type of renal cell carcinoma with a very aggressive course. These insights could further rationalize the use of targeted therapies for rare tumors according to the individual genomic alterations harbored.
We developed and validated a clinical whole-genome and transcriptome sequencing (WGTS) assay that provides a comprehensive genomic profile of a patient's tumor. The ability to fully capture the ...mappable genome with sufficient sequencing coverage to precisely call DNA somatic single nucleotide variants, insertions/deletions, copy number variants, structural variants, and RNA gene fusions was analyzed. New York State's Department of Health next-generation DNA sequencing guidelines were expanded for establishing performance validation applicable to whole-genome and transcriptome sequencing. Whole-genome sequencing laboratory protocols were validated for the Illumina HiSeq X Ten platform and RNA sequencing for Illumina HiSeq2500 platform for fresh or frozen and formalin-fixed, paraffin-embedded tumor samples. Various bioinformatics tools were also tested, and CIs for sensitivity and specificity thresholds in calling clinically significant somatic aberrations were determined. The validation was performed on a set of 125 tumor normal pairs. RNA sequencing was performed to call fusions and to confirm the DNA variants or exonic alterations. Here, we present our results and WGTS standards for variant allele frequency, reproducibility, analytical sensitivity, and present limit of detection analysis for single nucleotide variant calling, copy number identification, and structural variants. We show that The New York Genome Center WGTS clinical assay can provide a comprehensive patient variant discovery approach suitable for directed oncologic therapeutic applications.
Purpose
Pure mucinous breast carcinoma (pmucBC) is a distinctive variant of breast cancer (BC) featuring an excellent overall prognosis. However, on rare occasions, pmucBC pursues an aggressive ...clinical course. We queried whether comprehensive genomic profiling (CGP) would uncover clinically relevant genomic alterations (CRGA) that could lead to targeted therapy treatment for patients with an advanced and metastatic form of pmucBC.
Methods
From a series of 51,238 total cancer samples, which included 5605 cases of clinically advanced BC and 22 cases of stage IV pmucBC, DNA was extracted from 40 microns of FFPE sections. Comprehensive genomic profiling was performed using a hybrid-capture, adaptor ligation-based next generation sequencing assay to a mean coverage depth of 564X. The results were analyzed for all classes of genomic alterations (GA) including base substitutions, insertions and deletions, select rearrangements, and copy number changes. Clinically relevant genomic alterations were defined as those indicating possible treatment with anti-cancer drugs on the market or in registered clinical trials.
Results
Samples were obtained from breast (11), lymph nodes (3), chest wall (2), liver (2), soft tissue (2), bone (1), and pleura (1). The median age of the 22 pmucBC patients was 57 years (range 32–79 years). Three pmucBCs were grade 1, 17 were grade 2, and 2 were grade 3. Twenty-one (95 %) pmucBC were ER+, 18 (82 %) were PR+, and 3 (14 %) were HER2+ by IHC and/or FISH. A total of 132 GA were identified (6.0 GA per tumor), including 53 CRGA, for a mean of 2.4 GA per tumor. Amplification of
FGFR1
or
ZNF703
, located within the same amplicon, was found in 8 of 22 cases (36 %). This enrichment of
FGFR1
amplification in 36 % of pmucBC versus 11 % of non-mucinous ER+ BC (601 cases) was significant (
p
< 0.005). Other frequently altered genes of interest in pmucBC were
CCND1
and the
FGF3/FGF4/FGF19
amplicon (27 %), often co-amplified together.
ERBB2/HER2
alterations were identified in 5 pmucBC (23 %):
ERBB2
amplification was found in 3 of 3 cases (100 %) that were HER2+ by IHC and/or FISH; 1 pmucBC was negative for HER2 overexpression by IHC, but positive for amplification by CGP; and 2 pmucBC harbored the
ERBB2
substitutions D769Y and V777L (one sample also featured
ERBB2
amplification). The enrichment of
ERBB2
GA in metastatic pmucBC versus non-metastatic primary pmucBC was significant (
p
= 0.03). CRGA were also found in 20 additional genes including
PIK3CA
(5),
BRCA1
(1),
TSC2
(1),
STK11
(1),
AKT3
(1), and
ESR1
(1).
Conclusions
Metastatic pmucBC is a distinct form of breast cancer that features a relatively high frequency of CRGA, including a significant enrichment of
FGFR1
alterations and a high frequency of
ERBB2
alterations when compared with non-metastatic pmucBC. These findings suggest that CGP can identify a variety of known and emerging therapy targets that have the potential to improve outcomes for patients with clinically advanced and metastatic forms of this disease.