Clinically relevant subtypes exist for pancreatic ductal adenocarcinoma (PDAC), but molecular characterization is not yet standard in clinical care. We implemented a biopsy protocol to perform ...time-sensitive whole-exome sequencing and RNA sequencing for patients with advanced PDAC. Therapeutically relevant genomic alterations were identified in 48% (34/71) and pathogenic/likely pathogenic germline alterations in 18% (13/71) of patients. Overall, 30% (21/71) of enrolled patients experienced a change in clinical management as a result of genomic data. Twenty-six patients had germline and/or somatic alterations in DNA-damage repair genes, and 5 additional patients had mutational signatures of homologous recombination deficiency but no identified causal genomic alteration. Two patients had oncogenic in-frame
deletions, and we report the first clinical evidence that this alteration confers sensitivity to MAPK pathway inhibition. Moreover, we identified tumor/stroma gene expression signatures with clinical relevance. Collectively, these data demonstrate the feasibility and value of real-time genomic characterization of advanced PDAC.
Molecular analyses of metastatic PDAC tumors are challenging due to the heterogeneous cellular composition of biopsy specimens and rapid progression of the disease. Using an integrated multidisciplinary biopsy program, we demonstrate that real-time genomic characterization of advanced PDAC can identify clinically relevant alterations that inform management of this difficult disease.
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BRAF mutations occur in approximately 10% of colorectal cancers. Although RAF inhibitor monotherapy is highly effective in BRAF-mutant melanoma, response rates in BRAF-mutant colorectal cancer are ...poor. Recent clinical trials of combined RAF/EGFR or RAF/MEK inhibition have produced improved efficacy, but patients ultimately develop resistance. To identify molecular alterations driving clinical acquired resistance, we performed whole-exome sequencing on paired pretreatment and postprogression tumor biopsies from patients with BRAF-mutant colorectal cancer treated with RAF inhibitor combinations. We identified alterations in MAPK pathway genes in resistant tumors not present in matched pretreatment tumors, including KRAS amplification, BRAF amplification, and a MEK1 mutation. These alterations conferred resistance to RAF/EGFR or RAF/MEK combinations through sustained MAPK pathway activity, but an ERK inhibitor could suppress MAPK activity and overcome resistance. Identification of MAPK pathway reactivating alterations upon clinical acquired resistance underscores the MAPK pathway as a critical target in BRAF-mutant colorectal cancer and suggests therapeutic options to overcome resistance.
RAF inhibitor combinations represent promising approaches in clinical development for BRAF-mutant colorectal cancer. Initial characterization of clinical acquired resistance mechanisms to these regimens identified several MAPK pathway alterations driving resistance by reactivating MAPK signaling, highlighting the critical dependence of BRAF-mutant colorectal cancers on MAPK signaling and offering potential strategies to overcome resistance.
Treatment of BRAF-mutant melanoma with combined dabrafenib and trametinib, which target RAF and the downstream MAP-ERK kinase (MEK)1 and MEK2 kinases, respectively, improves progression-free survival ...and response rates compared with dabrafenib monotherapy. Mechanisms of clinical resistance to combined RAF/MEK inhibition are unknown. We performed whole-exome sequencing (WES) and whole-transcriptome sequencing (RNA-seq) on pretreatment and drug-resistant tumors from five patients with acquired resistance to dabrafenib/trametinib. In three of these patients, we identified additional mitogen-activated protein kinase (MAPK) pathway alterations in the resistant tumor that were not detected in the pretreatment tumor, including a novel activating mutation in MEK2 (MEK2(Q60P)). MEK2(Q60P) conferred resistance to combined RAF/MEK inhibition in vitro, but remained sensitive to inhibition of the downstream kinase extracellular signal-regulated kinase (ERK). The continued MAPK signaling-based resistance identified in these patients suggests that alternative dosing of current agents, more potent RAF/MEK inhibitors, and/or inhibition of the downstream kinase ERK may be needed for durable control of BRAF-mutant melanoma.
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1519
Background: Angiosarcoma (AS) is a rare soft tissue sarcoma, with an incidence of 300/yr and a 5-year DSS of 30%. The low incidence has impeded large-scale research efforts that ...may lead to improved clinical outcomes. To address this, we launched a nationwide study, which seeks to empower patients (pts) to accelerate research by sharing their samples and clinical information remotely. Methods: With pts and advocacy groups we developed a website to allow AS pts to participate across the US. Pts are mailed a saliva and blood draw kit for germline and cell free (cf) DNA analysis. We then obtain medical records and stored tumor samples. Whole exome sequencing will be performed on tumor, cfDNA and saliva samples. Transcriptome analysis will be performed on tumor samples. A clinically annotated genomic database will be generated and shared widely to identify genomic drivers and mechanisms of response and resistance to therapies. Study updates will be shared with pts regularly. Results: We conducted a 3-week pilot study to test the feasibility of enrolling geographically dispersed AS pts through a direct-to-patient (DTP) approach. Through social media, we identified 100+ pts willing to participate, 90 within the first day of outreach. We enrolled 15 pts from 10 states to test our ability to remotely obtain pt reported data, online consent, and samples. The average age of pts is 48, ranging 23-71 yrs. Primary locations of AS are breast 6 pts (40%), cardiac 4 pts (27%), scalp 2 pts (13%), liver 1 pt (6%), bladder 1 pt (6%), forehead 1 pt (6%). 9 pts (60%) reported being disease free, 4 pts (27%) reported having AS spread to lung, lymph, bone, and hip. Requests for medical records and tissue samples are underway, and initial saliva samples have been received. We are now opening this study to all AS pts in the USA. Conclusions: A DTP approach enabled rapid identification of an initial cohort of AS pts willing to share tumors, saliva, blood and medical records. We were able to obtain detailed clinical experiences and samples to perform genomic analysis. This study serves as proof of principle that DTP genomics efforts can democratize cancer research for exceedingly rare cancers, which to date have been disproportionately understudied.
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LBA1519
Background: The challenge in studying tumors from patients (pts) with metastatic breast cancer (MBC) has been that most tumors are not available for research, largely because ...most pts are cared for in community settings where genomics studies are not conducted. To address this, we launched a nationwide study, The Metastatic Breast Cancer Project, which seeks to empower patients to accelerate research by sharing their samples and clinical information. Methods: In collaboration with pts and advocacy groups, we developed a website to allow MBC pts to participate across the U.S. Enrolled pts are sent a saliva kit and asked to mail back a saliva sample, which is used to extract germline DNA. We contact participants’ medical providers and obtain medical records and part of their tumor biopsy. Whole exome and transcriptome sequencing is performed on tumor and germline. Clinically annotated genomic data are used to identify mechanisms of response and resistance to therapies. The database is shared widely with researchers. Study updates and discoveries are shared with participants regularly. Results: In the first 3 months, 1227 MBC pts enrolled. 1178 (96%) completed the 16-question survey about their cancer and treatments. Median age was 54 years (yrs) (range 25-91). Median time between initial diagnosis (dx) of breast cancer and MBC was 2 yrs; 424 pts were dx’d with de novo MBC. 1022 (87%) reported having a biopsy at or following their dx of MBC. Median time since MBC dx was 3 yrs; 87 reported having MBC >10 yrs. 436 (37%) reported being on a therapy for >2 yrs; 672 (57%) reported an “extraordinary response” to a therapy. For example, 77 reported long and/or extraordinary responses to capecitabine ; 44 to platinums, and 20 to everolimus. Initial medical records, saliva, and tumors have been received. Conclusions: A direct-to-patient approach enabled rapid identification of large numbers of MBC pts willing to share tumors, saliva, and medical records. This includes many with rare phenotypes, a group that has been challenging to identify with traditional approaches. Genomic analysis of pts with extraordinary responses and with de novo MBC are underway. Pt reported data has also identified unanticipated research questions.
Abstract
Angiosarcoma (AS) is an exceedingly rare soft tissue sarcoma, with an incidence of 300 cases/yr and a 5-year disease-specific survival of 30%. The low incidence has impeded large-scale ...research efforts that may lead to improved clinical outcomes. To address this, we launched a nationwide clinical-genomics study in order to empower patients to accelerate research by sharing their normal and tumor samples and clinical information remotely. Patients can access the study through an online portal (ASCproject.org). Enrolled patients are mailed saliva and blood draw kits. The study team obtains medical records and stored FFPE tumor samples. All received FFPE samples are examined by an expert pathologist to confirm a diagnosis of angiosarcoma. In order to validate that our processes would enable the generation of a robust dataset from tissues acquired from multiple institutions, we sought to characterize previously described genes known to be altered in angiosarcoma (e.g., TP53, NF1, KDR, BRCA2, MET, ARID1A, POT1, BRCA1, ASXL1, KDM6A, BRAF, SETD2, PTPRB, NRAS). A total of 251 patients have enrolled since the project launched in March of 2017. Primary locations of AS are primary breast 59 (25%), breast with prior radiation 45 (19%), head/face/neck/scalp 52 (22%), bone/limb 26 (11%), abdomen 5 (2%), heart 5 (2%), lung 2 (1%), liver 1 (1%), lymph 1 (0.4%), multiple locations 25 (11%), and other locations 12 (5%); 107 (52%) reported being disease free at the time of enrollment. To date, we have received 129 saliva kits, 106 medical records, 19 blood samples, and 36 tissue samples. Whole-exome sequencing (WES) was performed on 21 FFPE/saliva matched pairs with a goal mean target coverage of 150x for tumors. Ultra-low pass whole-genome sequencing (0.1x) was performed on cell free DNA (cfDNA) from plasma in order to determine tumor fraction. Of 10 cfDNA samples sequenced, 4 samples met criteria to perform WES. Additionally, transcriptome sequencing was performed on 9 FFPE samples. Sequence data processing and analysis has been completed on the first 10 samples and is in progress for the subsequent samples. Alterations were detected in genes previously described to be affected in angiosarcoma. Recurrent mutations in TP53 were detected in 50% (5/10) of analyzed samples, comprising 3 missense mutations, 1 frameshift deletion, and 1 frameshift insertion. Alterations were seen in at least one sample in all other genes selected for this initial analysis. This initiative demonstrates the feasibility of studying tissues from geographically dispersed patients and serves as proof of concept that patient-driven genomics efforts can democratize research for exceedingly rare cancers. Enrollment is still in progress, and additional samples will be sequenced and analyzed at scale. The data generated from these studies will be deposited into the public domain in six-month intervals.
Citation Format: Michael Dunphy, Esha Jain, Elana Anastasio, Mary McGillicuddy, Rachel Stoddard, Beena Thomas, Sara Balch, Kristin Anderka, Katie Larkin, Niall Lennon, Yen-Lin Chen, Andrew Zimmer, Esme O. Baker, Simone Maiwald, Jen Hendrey Lapan, Jason Hornick, Chandrajit Raut, George Demetri, Eric Lander, Todd Golub, Nikhil Wagle, Corrie Painter. The Angiosarcoma Project: Generating the genomic landscape of an exceedingly rare cancer through a nationwide patient-driven initiative abstract. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 5384.
Abstract
Pancreatic ductal adenocarcinoma (PDAC) is currently the fourth-leading cause of cancer-related death in the United States and is projected to become the second leading cause by 2030. Most ...patients present with advanced disease and die within 12 months of diagnosis. Recent genomic studies of primary pancreatic cancer resection specimens have identified several molecular alterations and genomic subtypes of the disease that may guide precision medicine approaches to clinical management. However, the molecular landscape of metastatic PDAC has been less well characterized. Moreover, biopsy-driven studies in metastatic PDAC have been historically very challenging due to the aggressive course of this disease as well as the low-volume and heterogeneous nature of biopsies that makes deep molecular characterization difficult. Insufficient genomic analysis of a patient’s tumor early in their disease course is a major barrier to enrollment on clinical trials of targeted therapies. To address these limitations, we have implemented a multi-disciplinary clinical and research biopsy protocol to enable real time comprehensive molecular characterization of metastatic PDAC biopsy specimens. We have performed core needle biopsies of metastatic lesions in the liver or peritoneal cavity in 42 patients at the time of initial presentation. A low rate of complications was observed, with only a single patient having a self-limited hemorrhagic complication after liver biopsy. On average, 4-6 separate biopsy specimens were collected from each patient for histopathology and genomic analysis. Whole exome sequencing (WES) was performed in a CLIA-certified laboratory and a comprehensive molecular report of somatic alterations and selected pathogenic germline variants was returned to the referring clinician with a typical turn-around time of 3-5 weeks. We observed a striking incidence of recurrent germline and somatic alterations in DNA-damage repair genes, such as BRCA2, ATM and CHEK2. We also observed alterations in genes with known therapeutic implications, such as BRAF, RNF43, STK11 and ROS, and in select cases, these results guided choice of second or third line therapy. In parallel to WES, we performed RNA sequencing on bulk tumor tissue and readily identified expression signatures defining multiple subtypes of tumor and stroma that may have prognostic or therapeutic implications for tumor- or stroma-directed therapies. Collectively, these results demonstrate the feasibility and value of real-time genomic characterization of metastatic PDAC and provide a path forward for improved stratification and enrollment of PDAC patients on molecularly defined clinical trials.
Citation Format: Andrew J. Aguirre, Scott Carter, Nicholas Camarda, Arezou Ghazani, Jonathan Nowak, Annacarolina Da Silva, Lauren Brais, Dorisanne Ragon, Devin McCabe, Lori Marini, Kristin Anderka, Karla Helvie, Nelly Oliver, Ana Babic, Paul Shyn, Douglas Rubinson, Anuj Patel, James Cleary, Nadine McCleary, Matthew Kulke, Thomas Clancy, Leona Doyle, Jason Hornick, Christine Ardito-Abraham, Ruth Yu, Michael Downes, Ronald Evans, Richard A. Moffitt, Jen Jen Yeh, William C. Hahn, Charles Fuchs, Robert Mayer, Nikhil Wagle, David Tuveson, Levi A. Garraway, Brian M. Wolpin. Real-time genomic characterization of metastatic pancreatic cancer to enable precision medicine abstract. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 3036. doi:10.1158/1538-7445.AM2017-3036
Abstract
Objective: Angiosarcoma (AS) is a rare soft tissue sarcoma, with an incidence of 300 cases/yr and a 5-year DSS of 30%. The low incidence has impeded large-scale research efforts. To address ...this, we launched a patient-partnered genomics study which seeks to empower patients to accelerate research by remotely sharing their samples and clinical information. Methods: We developed a website (ASCproject.org) to allow remote acquisition of medical records (MR), saliva, blood, and archival tissue from patients in the US and Canada. Whole-exome sequencing (WES) of ~20,000 genes is performed on tumor and matched germline DNA. Transcriptome analysis is performed on tumor RNA. Ultra-low pass whole-genome sequencing (ULP-WGS) and in some cases WES is performed on cell free DNA (cfDNA) obtained from blood samples. Clinical data including information about demographics, diagnosis, treatments, and responses are obtained via patient-reported data (PRD) and through MR abstraction. The resulting clinically annotated genomic database is shared widely to identify genomic drivers and mechanisms of response and resistance to therapies. Results: Since launch on March 13 2017, 321 patients with AS have registered. The average age of patients is 56 yrs (range 22-89). Primary locations of AS were primary breast (24%), breast with prior radiation (20%), head/face/neck/scalp (HFNS) (21%), bone/limb (9%), abdominal (3%), heart (3%), lung (1%), liver (1%), lymph (0.5%), multiple locations (11%), and other locations (5%). 142 (48%) reported being disease free at the time of enrollment. To date, 153 saliva kits, 167 MRs, 43 blood samples, and 97 tissue samples have been obtained. WES analysis is complete for 14 samples.ULP-WGS is complete for 10 cfDNA samples, and WES on 4 cfDNA samples. Transcriptome sequencing is complete for 9 tumor samples. We identified several previously described genes known to be altered in AS, including recurrent alterations in KDR and TP53. Tumor mutational burden (TMB) and mutational signature activities were quantified for each tumor sample. All three of the AS from the HFNS in the initial cohort exhibited a high TMB (>150 mutations) and dominant UV light signature (COSMIC Signature 7). Based on this, we hypothesized that HFNS AS might respond well to immune checkpoint inhibitors. We identified through PRD 56 patients with HFNS AS who reported what medications they received. Of these, 2 reported receiving immune checkpoint inhibitors for the treatment of metastatic disease. Both patients had refractory metastatic HFNS AS and reported receiving off-label anti-PD1 therapy. Both had complete or near-complete responses following immunotherapy, and currently report having no evidence of disease. Clinical responses were confirmed through review of MRs. Sequencing is currently being performed on tumor samples from both patients. Conclusion: A patient-partnered approach enabled rapid identification and enrollment of over 300 patients with AS, an exceedingly rare cancer, in 15 months. We were able to obtain tumor, blood, saliva samples to perform genomic analyses, which were then merged with detailed clinical information. PRD, clinical, and genomic data generated from the first 12 patients and 14 samples have been released on cbioportal.org. Additional data will be released in six-month intervals. Initial results show high TMB and a UV signature in 3 out of 3 patients with HFNS AS. In addition, we identified 2 patients with HFNS AS who had extraordinary responses to immunotherapy. These findings suggest a common genomic basis for HFNS AS and could provide rationale for clinical interventions using checkpoint inhibitors for these AS. Analyses of additional samples are under way to further characterize mutational signatures in HFNS AS and implications for patient care. This study serves as proof of principle that patient-partnered genomics efforts can democratize cancer research for exceedingly rare cancers.
Citation Format: Corrie Painter, Esha Jain, Michael Dunphy, Elana Anastasio, Mary McGillicuddy, Rachel Stoddard, Beena Thomas, Sara Balch, Kristin Anderka, Katie Larkin, Niall Lennon, Yen-Lin Chen, Andrew Zimmer, Esme O. Baker, Simone Maiwald, Jen Lapan, Jason L. Hornick, Chandrajit Raut, George Demetri, Eric S. Lander, Todd Golub. High mutation burden and response to immune checkpoint inhibitors in angiosarcomas of the scalp and face abstract. In: Proceedings of the Fourth CRI-CIMT-EATI-AACR International Cancer Immunotherapy Conference: Translating Science into Survival; Sept 30-Oct 3, 2018; New York, NY. Philadelphia (PA): AACR; Cancer Immunol Res 2019;7(2 Suppl):Abstract nr B085.
Abstract
BRAF V600E mutations occur in ∼10% of colorectal cancer (CRC), and are associated with poor prognosis. RAF inhibition alone has not been an effective treatment in BRAF-mutant (BRAFm) CRC ...patients, with response rates of only 5%, due to persistence of MAPK signaling. Combined RAF/EGFR, RAF/MEK, or RAF/MEK/EGFR inhibitors have produced improved efficacy in BRAFm CRC patients, yet ultimately resistance develops after an initial treatment response. Understanding the mechanisms of clinical acquired resistance that arise to RAF inhibitor combinations in BRAFm CRC patients may lead to valuable opportunities to overcome resistance and prolong clinical response.
We sought to identify clinically relevant mechanisms of acquired resistance to RAF inhibitor combinations by obtaining tumor biopsies from BRAFm CRC patients upon disease progression, after initial response to RAF/EGFR or RAF/MEK inhibitor combinations. Matched pre-treatment, post-progression, and normal DNA were analyzed by whole exome sequencing (WES) and RNA-seq.
In one BRAFm CRC patient with prolonged stable disease on a RAF/EGFR combination, WES identified KRAS amplification in a progressing lesion. FISH confirmed the presence of KRAS amplification in the post-progression biopsy, and RNA-seq revealed KRAS transcript overexpression. Interestingly, in resistant clones generated from BRAFm CRC cell lines selected with either RAF/EGFR or RAF/MEK inhibitors, KRAS exon 2 mutations were identified. Either KRAS amplification or KRAS mutation led to sustained MAPK pathway activity and cross-resistance to either RAF/EGFR or RAF/MEK inhibitor combinations.
In a second patient with a minor response to a RAF/EGFR inhibitor combination, BRAF amplification was identified in a progressing lesion, which was confirmed by FISH and was not present in a pre-treatment biopsy of the same lesion. BRAF amplification led to cross-resistance to the BRAF/MEK inhibitor combination.
In a third patient with a minor response to a RAF/MEK inhibitor combination, WES identified the presence of an ARAF Q489L mutation and a MEK1 F53L mutation in a single progressing lesion, suggesting possible intra-lesional heterogeneity of acquired resistance mechanisms. However, utilizing a cell line derived from the patient's post-progression biopsy, we found that 30 out of 30 single-cell clones harbored both the ARAF and MEK1 mutations, and that MEK1 F53L seemed to function as the primary driver of acquired resistance in these resistant cells. MEK1 F53L expression markedly abrogated the ability of RAF/MEK and RAF/EGFR inhibitor combinations to suppress MAPK signaling.
Despite developing resistance to upstream MAPK pathway inhibitors, we found that each of the acquired resistance mechanisms we detected remained sensitive to ERK inhibition, which could effectively suppress MAPK signaling. Our findings demonstrate the central importance of MAPK pathway activity in BRAFm CRC, and highlight the critical need for MAPK pathway inhibition in the prevention of disease progression. Additionally, our work indicates ERK inhibitors may be valuable additions to future therapeutic combinations for BRAFm CRC patients. Further efforts to understand acquired resistance mechanisms will be vital to developing novel therapeutic strategies to overcome resistance and extend clinical benefit in this lethal CRC subtype.
Citation Format: Leanne G. Ahronian, Erin M. Sennott, Eliezer M. Van Allen, Nikhil Wagle, Eunice L. Kwak, Jason E. Faris, Jason T. Godfrey, Koki Nishimura, Kerry D. Lynch, Craig H. Mermel, Elizabeth L. Lockerman, Anuj Kalsy, Joseph M. Gurski, Samira Bahl, Kristin Anderka, Lisa M. Green, Niall J. Lennon, Tiffany G. Huynh, Mari Mino-Kenudson, Gad Getz, Dora Dias-Santagata, A. John Iafrate, Jeffrey A. Engelman, Levi A. Garraway, Ryan B. Corcoran. Clinical acquired resistance to RAF inhibitor combinations in BRAF-mutant colorectal cancer through MAPK pathway alterations. 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 LB-055. doi:10.1158/1538-7445.AM2015-LB-055