Your search keyword '"Daniel P, Cahill"' showing total 416 results

201. PATH-37. DISTINCT GENOMIC SUBCLASSES OF HIGH-GRADE/PROGRESSIVE MENINGIOMAS: NF2-ASSOCIATED, NF2-EXCLUSIVE, AND NF2-AGNOSTIC

Author

Erik A. Williams, Shakti H. Ramkissoon, Hiroaki Wakimoto, Fred G. Barker, Daniel P. Cahill, Tareq A. Juratli, Priscilla K. Brastianos, Sandro Santagata, and Brian M. Alexander

Subjects

Combinatorics, Cancer Research, Oncology, Computer science, Path (graph theory), otorhinolaryngologic diseases, Neurology (clinical)

Abstract

BACKGROUND Genomic studies of high-grade/progressive meningiomas have reported a heterogeneous mutation spectrum. Here, we present a genomic survey of one of the largest multi-institutional cohorts of high-grade/progressive meningiomas to date. METHODS 850 high-grade/progressive meningiomas, including 441 WHO grade 2 and 176 WHO grade 3 meningiomas and 220 progressive WHO grade 1 meningiomas, were tested as part of a clinical testing program by hybridization capture of 406 cancer-related genes. Information from histopathology review and patient clinical data was assessed. RESULTS Genomic analyses converged to identify at least three distinct patterns of biologically-aggressive meningiomas. The first and most common contained NF2-mutant tumors (n = 426, 50%), was associated with male sex (64.4%, p = 0.0001) and often harbored additional mutations in CDKN2A/B (24%), and the chromatin regulators ARID1A (9%), and KDM6A (6%). A second group (NF2-agnostic) featured TERTp (n = 56) or TP53 mutations (n = 25) and were either NF2-mutant or wild-type, and displayed no association with either sex. The remaining group generally lacked NF2 mutations, and accounted for 40% of the cases-with three subgroups. One consistent primarily of grade 3 lesions harboring alterations in chromatin regulators BAP1 (n = 22) or PBRM1 (n = 16). A second subgroup contained AKT1 (n = 26), PIK3CA (n = 14) and SMO (n = 7) mutant skull-based meningiomas, and a third mixed subgroup included 237 meningiomas with a heterogeneous spectrum of low frequency and non-recurrent alterations. CONCLUSIONS Our findings indicate that the patterns of genomic alterations in high-grade/progressive meningiomas commonly group into three different categories. The most common NF2-associated canonical group frequently harbored CDKN2A/B alterations, which is potentially amenable to targeted therapies. An NF2-agnostic group harbored frequent TERTp and TP53 mutations. The final subclass, distinct from the canonical NF2 mutant associated pathway, was partly characterized by BAP1/PBRM1 alterations (rhabdoid/papillary histology) or skull-base disease.

Published

2021

202. CTNI-53. RADIATION TREATMENT VOLUMES BEFORE AND AFTER BRAF/MEK THERAPY IN NEWLY DIAGNOSED PAPILLARY CRANIOPHARYNGIOMAS: A CORRELATIVE ANALYSIS OF THE ALLIANCE A071601 PHASE II TRIAL

Author

Elizabeth R. Gerstner, Sandro Santagata, Fred G. Barker, Helen A. Shih, Evanthia Galanis, Erin Twohy, Brian Kabat, Michael W. Ruff, Macarena I. de la Fuente, Michael V. Knopp, Priscilla K. Brastianos, Shervin Tabrizi, Daniel P. Cahill, Susan Geyer, David A. Reardon, Adam B. Cohen, Shivangi Vora, Pankaj K Agarwalla, Priya Kumthekar, Timothy J. Kaufmann, Daniela A. Bota, Jian Campian, Paul D. Brown, and Glen Lesser

Subjects

Oncology, Cancer Research, medicine.medical_specialty, medicine.medical_treatment, Oncology and Carcinogenesis, Newly diagnosed, Papillary craniopharyngioma, chemistry.chemical_compound, Rare Diseases, MICROBIOLOGY PROCEDURES, Clinical Research, Internal medicine, Troponin I, Genetics, medicine, Oncology & Carcinogenesis, Vemurafenib, Cancer, Cobimetinib, business.industry, Neurosciences, medicine.disease, Craniopharyngioma, Radiation therapy, chemistry, Neurology (clinical), business, medicine.drug

Abstract

PURPOSE Standard of care for craniopharyngiomas is surgery with or without radiotherapy (RT). Cohort A of Alliance A071601 evaluated the efficacy of BRAF/MEK inhibition with vemurafenib/cobimetinib in patients with previously untreated papillary craniopharyngiomas (PCP), which carry the BRAF V600E mutation. Cohort B is currently enrolling patients with recurrence after RT. In a correlative analysis, we examined changes in RT volumes after BRAF/MEK therapy in Cohort A. METHODS Previously unirradiated patients with BRAF-mutated PCP were treated with vemurafenib/cobimetinib. Sixteen patients had scans available before starting vemurafenib/cobimetinib (“pre-therapy”) and after completing therapy (“post-therapy”). Two patients went off study treatment after 8 and 9 days due to side-effects and were excluded for this analysis. Gross target volumes (GTV) were contoured on pre-therapy and post-therapy scans. On post-therapy scans, an additional target comprising gross disease and at-risk regions for microscopic residual disease (GTV-micro) was defined and considered the treatment volume. Clinical target volume (CTV) was a 5-mm uniform expansion on pre-therapy GTV and post-therapy GTV-micro. Volumes were independently reviewed by two radiation oncologists. Changes in volumes from pre- versus post-therapy were compared using the Wilcoxon signed rank test. RESULTS In 14 patients evaluated, 57% were female and median age at enrollment was 49.5 years (range 33-83). Median time on treatment was 8.9 months (range 4.0-18.0). Median GTV pre-therapy was 3.8 mL (range 0.2-23.4) versus 0.3 mL (range 0.0-3.2) post-therapy (p=0.0001) and 1.7 mL (range 0.1-8.0) post-therapy GTV-micro (p=0.0001). Median CTV pre-therapy was 13.7 mL (range 2.8-51.8) versus 9.1 mL (range 2.2-27.5) post-therapy (p=0.0001). All tumors abutted the optic chiasm pre-therapy, only 6 did post-therapy. CONCLUSIONS Vemurafenib/cobimetinib resulted in smaller RT volumes. BRAF/MEK inhibitors could reduce RT volumes and spare dose to surrounding normal structures. Enrollment to Cohort B of Alliance A071601 should be considered for patients with recurrent tumors after RT. SUPPORT https://acknowledgments.alliancefound.org

Published

2021

203. IMMU-08. PHASE II TRIAL OF PEMBROLIZUMAB AND LENVATINIB FOR LEPTOMENINGEAL METASTASES

Author

Priscilla K. Brastianos, Kevin S. Oh, Jennifer E Cahill, Nancy Wang, Elizabeth R. Gerstner, and Daniel P. Cahill

Subjects

Oncology, medicine.medical_specialty, chemistry.chemical_compound, chemistry, business.industry, Internal medicine, Phase (matter), medicine, Pembrolizumab, Lenvatinib, business

Abstract

Leptomeningeal metastasis (LMD) is a late complication of cancer with poor prognosis and median survival of approximately 4-6 weeks without treatment. Whole brain radiation remains the mainstay of treatment, however it can cause significant neurocognitive sequelae and has not been shown to prolong overall survival. Thus, new treatment strategies are urgently needed to improve outcomes in patients with LMD. Results from recent Phase 2 studies of immune checkpoint inhibitors in LMD shows promising improvement in overall survival. Combining anti-VEGF therapy and immunotherapy may control symptoms due to inflammation and tumor-induced irritation, minimize steroid use, and promote improved efficacy of immunotherapy through modulation of the tumor immune microenvironment. We designed a multi-institutional, single-arm Phase 2 study of pembrolizumab in combination with lenvatinib in patients with LMD from any solid tumor. The primary objective is to estimate the overall survival rate at 6 months (OS6). A Simon two-stage design with a total sample size of 19 evaluable patients will be used to compare a null hypothesis of OS6 of 25% against an alternative hypothesis of 55%. Secondary objectives include assessing safety of pembrolizumab and lenvatinib in this patient population, systemic response rate, intracranial/intraspinal response rate, and progression-free survival. We will also explore clinician-reported neurologic outcomes and patient-reported quality of life and symptom burden. Blood, cerebrospinal fluid, and tissue biomarkers will be analyzed to determine predictors of response. Patients must be on minimal doses of steroids prior to study enrollment and cannot have received prior immune checkpoint inhibitor or anti-VEGF therapy. Response to treatment will be determined using RANO-BM for intracranial disease and RECIST 1.1 for systemic disease. Study accrual is anticipated over 12-24 months with anticipated total study duration of 30 months.

Published

2021

204. P04.09 Frequent inactivating mutations of PBRM1 in meningioma with papillary features

Author

Erik A. Williams, Sandro Santagata, Tareq A. Juratli, Priscilla Kaliopi Brastianos, Shakti H. Ramkissoon, and Daniel P. Cahill

Subjects

Genetics, Cancer Research, Intron, Cancer, Biology, medicine.disease, Genome, PBRM1, Meningioma, Gene expression profiling, Oncology, Mutation (genetic algorithm), medicine, Neurology (clinical), Gene

Abstract

BACKGROUND Papillary meningiomas (PM) are rare WHO grade III tumors that are associated with frequent recurrences and metastatic disease in spite of surgery and radiation. Due to their low incidence and scarcity of tumor tissues available for genomic analyses, the genetic alterations associated with PM remain unclear. MATERIAL AND METHODS We mined data collected as part of our clinical comprehensive genomic profiling (CGP) initiative which has to date analyzed 8 PM (>50% papillary morphology) and 22 meningiomas with focal papillary features (10–50%) amongst over 500 additional meningiomas of other subtypes. The samples were analyzed in a CAP/CLIA-accredited laboratory (Foundation Medicine, Cambridge, MA). GCP was performed on hybridization-captured, adaptor ligation-based libraries to a mean coverage depth of >650x for 236 or 315 genes plus the introns from 19 or 28 genes frequently involved in cancer. RESULTS In our cohort of 8 PMs, we identified three cases with inactivation of PBRM1; two cases with a truncating mutation in PBRM1 and one with homozygous deletion of PBRM1. Of the 22 meningiomas with only focal papillary features, 8 cases were PBRM1-mutant. Thus, 11 of 30 cases (36.7%) with at least focal (>10%) papillary morphology had inactivation of PBRM1.In the entire cohort of 562 meningiomas, we identified five additional cases with inactivating alterations in PBRM1 that did not display overt papillary morphology in the H&E sections available for analysis. Thus, 11 of 16 PBRM1-mutant cases (69%) occurred in meningioma with papillary histologic features as opposed to 19 of 546 wild-type cases (3.5%), supporting a significant association between papillary features and PBRM1 mutation (p CONCLUSION We identified the tumor suppressor gene PBRM1 as a recurrently altered gene in meningiomas with papillary histomorphology. Further investigational studies are needed to assess outcomes of PBRM1-mutant meningioma and to determine whether mutation is an independent negative prognostic biomarker.

Published

2021

205. SPDR-05 PARP INHIBITORS RESTORE TEMOZOLOMIDE SENSITIVITY IN MSH6-DEFICIENT TEMOZOLOMIDE-RESISTANT GLIOBLASTOMA CELLS

Author

Higuchi, Fumi, primary, Nagashima, Hiroaki, primary, Wakimoto, Hiroaki, primary, and Daniel P, Cahill, primary

Published

2019

206. Intratumoral heterogeneity and TERT promoter mutations in progressive/higher-grade meningiomas

Author

Dietmar Krex, Julie J. Miller, Mechthild Krause, Heather Ely, Tristan Penson, Matthias Kirsch, Steffen Appold, Hiroaki Wakimoto, Priscilla K. Brastianos, Mara V.A. Koerner, Jason Christiansen, Matthias Meinhardt, Maria Martinez-Lage, Thomas Pinzer, Dirk Daubner, Christian Thiede, Ganesh M. Shankar, Tareq A. Juratli, Shilpa S. Tummala, Ian M. Silverman, Gabriele Schackert, Silke Soucek, Erik A. Williams, Daniel P. Cahill, and Katja Robel

Subjects

fusion, medicine.medical_specialty, Early detection, meningioma, Tert promoter, Meningioma, 03 medical and health sciences, 0302 clinical medicine, Radiation oncology, medicine, rearrangements, Mutational status, WHO Grade III Meningioma, General hospital, Gynecology, telomere, business.industry, medicine.disease, 3. Good health, Oncology, 030220 oncology & carcinogenesis, Tert gene, heterogeneity, business, 030217 neurology & neurosurgery, Research Paper

Abstract

// Tareq A. Juratli 1, 2 , Christian Thiede 3 , Mara V.A. Koerner 1 , Shilpa S. Tummala 1 , Dirk Daubner 4 , Ganesh M. Shankar 1 , Erik A. Williams 5 , Maria Martinez-Lage 5 , Silke Soucek 2 , Katja Robel 2 , Tristan Penson 1 , Mechthild Krause 6, 7, 8 , Steffen Appold 6, 7, 8 , Matthias Meinhardt 9 , Thomas Pinzer 2 , Julie J. Miller 10 , Dietmar Krex 2, 7 , Heather A. Ely 11 , Ian M. Silverman 11 , Jason Christiansen 11 , Gabriele Schackert 2, 7 , Hiroaki Wakimoto 1 , Matthias Kirsch 2, 7, * , Priscilla K. Brastianos 12, * and Daniel P. Cahill 1, * 1 Translational Neuro-Oncology Laboratory, Department of Neurosurgery, Massachusetts General Hospital Cancer Center, Harvard Medical School, Boston, Massachusetts, USA 2 Department of Neurosurgery, Medizinische Fakultat Carl Gustav Carus, Technische Universitat Dresden, Dresden, Germany 3 Department of Medicine I, Medizinische Fakultat Carl Gustav Carus, Technische Universitat Dresden, Dresden, Germany 4 Institute of Neuroradiology, Medizinische Fakultat Carl Gustav Carus, Technische Universitat Dresden, Dresden, Germany 5 Department of Pathology, Massachusetts General Hospital and Harvard Medical School, Boston, Massachusetts, USA 6 Institute of Radiooncology, Helmholtz-Zentrum Dresden - Rossendorf, Dresden, Germany 7 German Cancer Consortium (DKTK) Dresden and German Cancer Research Center (DKFZ), Heidelberg, Germany 8 Department of Radiation Oncology and OncoRay, Medizinische Fakultat Carl Gustav Carus, Technische Universitat Dresden, Dresden, Germany 9 Institute of Pathology, Medizinische Fakultat Carl Gustav Carus, Technische Universitat Dresden, Dresden, Germany 10 Department of Neurology, Massachusetts General Hospital and Harvard Medical School, Boston, Massachusetts, USA 11 Ignyta, Inc., San Diego, California, USA 12 Department of Medicine, Department of Neurology, Massachusetts General Hospital and Harvard Medical School, Boston, Massachusetts, USA * These authors have contributed equally to this work Correspondence to: Daniel P. Cahill, email: cahill@mgh.harvard.edu Priscilla K. Brastianos, email: PBRASTIANOS@mgh.harvard.edu Matthias Kirsch, email: Matthias.kirsch@uniklinikum-dresden.de Keywords: meningioma; telomere; heterogeneity; rearrangements; fusion Received: August 18, 2017 Accepted: October 30, 2017 Published: November 24, 2017 ABSTRACT Background: Recent studies have reported mutations in the telomerase reverse transcriptase promoter ( TERT p) in meningiomas. We sought to determine the frequency, clonality and clinical significance of telomere gene alterations in a cohort of patients with progressive/higher-grade meningiomas. Methods: We characterized 64 temporally- and regionally-distinct specimens from 26 WHO grade III meningioma patients. On initial diagnoses, the meningiomas spanned all WHO grades (3 grade I, 13 grade II and 10 grade III). The tumor samples were screened for TERT p and ATRX/DAXX mutations, and TERT rearrangements. Additionally, TERT p was sequenced in a separate cohort of 19 patients with radiation-associated meningiomas. We examined the impact of mutational status on patients’ progression and overall survival. Results: Somatic TERT p mutations were detected in six patients (6/26 = 23%). Regional intratumoral heterogeneity in TERT p mutation status was noted. In 4 patients, TERT p mutations were detected in recurrent specimens but not in the available specimens of the first surgery. Additionally, a TERT gene fusion ( LPCAT1-TERT ) was found in one sample. In contrary, none of the investigated samples harbored an ATRX or DAXX mutation. In the cohort of radiation-induced meningiomas, TERT p mutation was detected in two patients (10.5%). Importantly, we found that patients with emergence of TERT p mutations had a substantially shorter OS than their TERT p wild-type counterparts (2.7 years, 95% CI 0.9 – 4.5 years versus 10.8 years, 95% CI 7.8 -12.8 years, p=0.003). Conclusions: In progressive/higher-grade meningiomas, TERT p mutations are associated with poor survival, supporting a model in which selection of this alteration is a harbinger of aggressive tumor development. In addition, we observe spatial intratumoral heterogeneity of TERT p mutation status, consistent with this model of late emergence in tumor evolution. Thus, early detection of TERT p mutations may define patients with more aggressive meningiomas. Stratification for TERT alterations should be adopted in future clinical trials of progressive/higher-grade meningiomas.

Published

2017

207. Isocitrate dehydrogenase-mutant glioma: Evolving clinical and therapeutic implications

Author

Helen A. Shih, Ovidiu C. Andronesi, Julie J. Miller, and Daniel P. Cahill

Subjects

0301 basic medicine, Cancer Research, Mutation, IDH1, business.industry, Cancer, Alpha-thalassemia, medicine.disease, medicine.disease_cause, IDH2, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Isocitrate dehydrogenase, Oncology, 030220 oncology & carcinogenesis, Glioma, Cancer research, Medicine, business, ATRX

Abstract

The metabolic genes isocitrate dehydrogenase 1 (IDH1) and IDH2 are commonly mutated in low-grade glioma and in a subset of glioblastoma. These mutations co-occur with other recurrent molecular alterations, including 1p/19q codeletions and tumor suppressor protein 53 (TP53) and alpha thalassemia/mental retardation (ATRX) mutations, which together help to define a molecular signature that aids in the classification of gliomas and helps to better predict clinical behavior. A confluence of research suggests that glioma development in IDH-mutant and IDH wild-type tumors is driven by different oncogenic processes and responds differently to current treatment paradigms. Herein, the authors discuss the discovery of IDH mutations and associated molecular alterations in glioma, review clinical features common to patients with IDH-mutant glioma, and highlight current understanding of IDH mutation-driven gliomagenesis with implications for emerging treatment strategies. Cancer 2017;123:4535-4546. © 2017 American Cancer Society.

Published

2017

208. Resolving the phylogenetic origin of glioblastoma via multifocal genomic analysis of pre-treatment and treatment-resistant autopsy specimens

Author

Naema Nayyar, Elizabeth R. Gerstner, Andrew S. Chi, Corey M. Gill, Mario L. Suvà, Daniel Rosebrock, Ugonma Chukwueke, Gad Getz, Daniel P. Cahill, Elisa Aquilanti, Andrew Kaneb, Dimitri Livitz, Ignaty Leshchiner, Mathew P. Frosch, Mia Bertalan, Scott R. Plotkin, Kaitlin Hoang, Priscilla K. Brastianos, Megan R. D'Andrea, and Tracy T. Batchelor

Subjects

0301 basic medicine, Chromosome 7 (human), Genetics, Cancer Research, education.field_of_study, IDH1, Phylogenetic tree, Population, Cancer, Biology, medicine.disease, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Somatic evolution in cancer, lcsh:RC254-282, Article, Human genetics, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Oncology, 030220 oncology & carcinogenesis, medicine, education, Exome sequencing

Abstract

Glioblastomas are malignant neoplasms composed of diverse cell populations. This intratumoral diversity has an underlying architecture, with a hierarchical relationship through clonal evolution from a common ancestor. Therapies are limited by emergence of resistant subclones from this phylogenetic reservoir. To characterize this clonal ancestral origin of recurrent tumors, we determined phylogenetic relationships using whole exome sequencing of pre-treatment IDH1/2 wild-type glioblastoma specimens, matched to post-treatment autopsy samples (n = 9) and metastatic extracranial post-treatment autopsy samples (n = 3). We identified “truncal” genetic events common to the evolutionary ancestry of the initial specimen and later recurrences, thereby inferring the identity of the precursor cell population. Mutations were identified in a subset of cases in known glioblastoma genes such as NF1(n = 3), TP53(n = 4) and EGFR(n = 5). However, by phylogenetic analysis, there were no protein-coding mutations as recurrent truncal events across the majority of cases. In contrast, whole copy-loss of chromosome 10 (12 of 12 cases), copy-loss of chromosome 9p21 (11 of 12 cases) and copy-gain in chromosome 7 (10 of 12 cases) were identified as shared events in the majority of cases. Strikingly, mutations in the TERT promoter were also identified as shared events in all evaluated pairs (9 of 9). Thus, we define four truncal non-coding genomic alterations that represent early genomic events in gliomagenesis, that identify the persistent cellular reservoir from which glioblastoma recurrences emerge. Therapies to target these key early genomic events are needed. These findings offer an evolutionary explanation for why precision therapies that target protein-coding mutations lack efficacy in GBM., Brain cancer: Non-coding genomic changes fuel glioblastoma growth Non-coding and structural alterations may be early drivers of brain cancer development. A team led by Priscilla Brastianos and Tracy Batchelor from Massachusetts General Hospital, Boston, USA, analyzed the genetic landscape of glioblastoma by comparing pre-treatment and autopsy tumor specimens from 12 patients who died of the aggressive brain cancer. They identified a common set of four genetic events that occurred early in the evolution of nearly every patient’s cancer: three losses or gains of chromosome regions or entire chromosomes, and mutations in the gene-activating promoter of TERT, which encodes an enzyme implicated in the cancer’s growth. The findings help explain why therapies that target protein-coding mutations don’t work in brain cancer when they do in other tumor types. They also point to new drug targets.

Published

2017

209. IDH1 Mutation and World Health Organization 2016 Diagnostic Criteria for Adult Diffuse Gliomas

Author

Daniel P. Cahill, Hiroaki Wakimoto, and Kensuke Tateishi

Subjects

Oncology, medicine.medical_specialty, Pathology, Surgical strategy, business.industry, Extramural, MEDLINE, General Scientific Session 4, medicine.disease, World health, 03 medical and health sciences, 0302 clinical medicine, 030220 oncology & carcinogenesis, Internal medicine, Glioma, IDH1 Mutation, Mutation (genetic algorithm), medicine, Surgery, Neurology (clinical), business, 030217 neurology & neurosurgery

Published

2017

210. Targeted sequencing of SMO and AKT1 in anterior skull base meningiomas

Author

Daniel P. Cahill, Tareq A. Juratli, Naema Nayyar, Fred G. Barker, Priscilla K. Brastianos, Matthew R. Strickland, Megan R. D'Andrea, Corey M. Gill, Christian Thiede, Gabriele Schackert, Matthew P. Frosch, Darrell R. Borger, and Sandro Santagata

Subjects

Mutation, Pathology, medicine.medical_specialty, business.industry, Genomic research, AKT1, General Medicine, medicine.disease_cause, medicine.disease, Large cohort, Meningioma, 03 medical and health sciences, Skull, 0302 clinical medicine, medicine.anatomical_structure, 030220 oncology & carcinogenesis, medicine, business, Genotyping, 030217 neurology & neurosurgery, Anterior skull base

Abstract

OBJECTIVEMeningiomas located in the skull base are surgically challenging. Recent genomic research has identified oncogenic SMO and AKT1 mutations in a small subset of meningiomas.METHODSThe authors performed targeted sequencing in a large cohort of patients with anterior skull base meningiomas (n = 62) to better define the frequency of SMO and AKT1 mutations in these tumors.RESULTSThe authors found SMO mutations in 7 of 62 (11%) and AKT1 mutations in 12 of 62 (19%) of their cohort. Of the 7 meningiomas with SMO mutations, 6 (86%) occurred in the olfactory groove. Meningiomas with an SMO mutation presented with significantly larger tumor volume (70.6 ± 36.3 cm3) compared with AKT1-mutated (18.2 ± 26.8 cm3) and wild-type (22.7 ± 23.9 cm3) meningiomas, respectively.CONCLUSIONSCombined, these data demonstrate clinically actionable mutations in 30% of anterior skull base meningiomas and suggest an association between SMO mutation status and tumor volume. Genotyping of SMO and AKT1 is likely to be high yield in anterior skull base meningiomas with available surgical tissue.

Published

2017

211. The Alkylating Chemotherapeutic Temozolomide Induces Metabolic Stress in IDH1-Mutant Cancers and Potentiates NAD+ Depletion–Mediated Cytotoxicity

Author

Kensuke Tateishi, Tracy T. Batchelor, Ganesh M. Shankar, Shota Tanaka, A. John Iafrate, Julie J. Miller, Mara V.A. Koerner, Fumi Higuchi, Andrew S. Chi, Nina Lelic, Daniel P. Cahill, Hiroaki Wakimoto, and David E. Fisher

Subjects

0301 basic medicine, Cancer Research, Temozolomide, IDH1, DNA damage, Poly ADP ribose polymerase, Nicotinamide phosphoribosyltransferase, Biology, Pharmacology, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, 0302 clinical medicine, Isocitrate dehydrogenase, Oncology, chemistry, 030220 oncology & carcinogenesis, Cancer cell, medicine, NAD+ kinase, medicine.drug

Abstract

IDH1-mutant gliomas are dependent upon the canonical coenzyme NAD+ for survival. It is known that PARP activation consumes NAD+ during base excision repair (BER) of chemotherapy-induced DNA damage. We therefore hypothesized that a strategy combining NAD+ biosynthesis inhibitors with the alkylating chemotherapeutic agent temozolomide could potentiate NAD+ depletion–mediated cytotoxicity in mutant IDH1 cancer cells. To investigate the impact of temozolomide on NAD+ metabolism, patient-derived xenografts and engineered mutant IDH1-expressing cell lines were exposed to temozolomide, in vitro and in vivo, both alone and in combination with nicotinamide phosphoribosyltransferase (NAMPT) inhibitors, which block NAD+ biosynthesis. The acute time period (

Published

2017

212. Prospective Randomized Trial of Post-operative Stereotactic Radiosurgery versus Observation for Completely Resected Brain Metastases

Author

Daniel P. Cahill, Syed Azeem, Sherise D. Ferguson, Anita Mahajan, Jeffrey S. Weinberg, Ganesh Rao, Ian E. McCutcheon, Frederick F. Lang, James Chih-Hsin Yang, Mary Frances McAleer, Nicholas B. Levine, Susan L. McGovern, Stephen H. Settle, Erik P. Sulman, Salmaan Ahmed, Raymond Sawaya, Shaan M. Raza, Paul D. Brown, Claudio E. Tatsui, Amy B. Heimberger, Nandita Guha-Thakurta, Sujit S. Prabhu, Kenneth R. Hess, Amol J. Ghia, Franco DeMonte, and Jing Li

Subjects

Adult, Male, medicine.medical_specialty, Time Factors, medicine.medical_treatment, Population, Radiosurgery, Disease-Free Survival, Article, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Clinical endpoint, Medicine, Humans, Single-Blind Method, Cognitive decline, Adverse effect, education, Watchful Waiting, Aged, Aged, 80 and over, education.field_of_study, business.industry, Brain Neoplasms, Hazard ratio, Metastasectomy, Middle Aged, medicine.disease, Magnetic Resonance Imaging, 3. Good health, Surgery, Tumor Burden, Radiation therapy, Survival Rate, Oncology, 030220 oncology & carcinogenesis, Female, Radiotherapy, Adjuvant, Neoplasm Recurrence, Local, business, 030217 neurology & neurosurgery, Brain metastasis, Follow-Up Studies

Abstract

Summary Background After brain metastasis resection, whole brain radiotherapy decreases local recurrence, but might cause cognitive decline. We did this study to determine if stereotactic radiosurgery (SRS) to the surgical cavity improved time to local recurrence compared with that for surgical resection alone. Methods In this randomised, controlled, phase 3 trial, we recruited patients at a single tertiary cancer centre in the USA. Eligible patients were older than 3 years, had a Karnofsky Performance Score of 70 or higher, were able to have an MRI scan, and had a complete resection of one to three brain metastases (with a maximum diameter of the resection cavity ≤4 cm). Patients were randomly assigned (1:1) with a block size of four to either SRS of the resection cavity (within 30 days of surgery) or observation. Patients were stratified by histology of the primary tumour, metastatic tumour size, and number of metastases. The primary endpoint was time to local recurrence in the resection cavity, assessed by blinded central review of brain MRI scans by the study neuroradiologist in the modified intention-to-treat population that analysed patients by randomised allocation but excluded patients found ineligible after randomisation. Participants and other members of the treatment team (excluding the neuroradiologist) were not masked to treatment allocation. The trial is registered with ClinicalTrials.gov, number NCT00950001, and is closed to new participants. Findings Between Aug 13, 2009, and Feb 16, 2016, 132 patients were randomly assigned to the observation group (n=68) or SRS group (n=64), with 128 patients available for analysis; four patients were ineligible (three from the SRS group and one from the observation group). Median follow-up was 11·1 months (IQR 4·8–20·4). 12-month freedom from local recurrence was 43% (95% CI 31–59) in the observation group and 72% (60–87) in the SRS group (hazard ratio 0·46 [95% CI 0·24–0·88]; p=0·015). There were no adverse events or treatment-related deaths in either group. Interpretation SRS of the surgical cavity in patients who have had complete resection of one, two, or three brain metastases significantly lowers local recurrence compared with that noted for observation alone. Thus, the use of SRS after brain metastasis resection could be an alternative to whole-brain radiotherapy. Funding National Institutes of Health.

Published

2017

213. Clinically-actionable Mutations in Posterior Skull Base Meningiomas

Author

Sally R. Williams, Daniel P. Cahill, Fred G. Barker, Brandyn A. Castro, Tyler T. Lazaro, Corey M. Gill, Naema Nayyar, Matthew P. Frosch, Matthew R. Strickland, and Priscilla K. Brastianos

Subjects

0301 basic medicine, Gerontology, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Posterior skull base, business.industry, 030220 oncology & carcinogenesis, Medicine, Neurology (clinical), Anatomy, business

Published

2017

214. TAMI-36. CONNEXIN 43 BLOCKADE INHIBITS PROLIFERATION IN IDH1-MUTANT GLIOMA CELLS

Author

Hiroaki Nagashima, Daniel P. Cahill, Hiroaki Wakimoto, Julie J. Miller, Christine K. Lee, and Lisa Melamed

Subjects

Cancer Research, IDH1, Oncology, Chemistry, Glioma, Mutant, Cancer research, medicine, Connexin, Tumor Microenvironment/Angiogenesis/Metabolism/Invasion, Neurology (clinical), medicine.disease, Blockade

Abstract

IDH1-mutant gliomas are characteristically sensitive to NAD+ depletion. It is known that NAD+ can move between cells through gap junctions, which provides an opportunity for treatments that prevent NAD+ sharing across tumor cells, effectively decreasing available NAD+. Previous studies have also shown the role of connexin 43 (Cx43) in mediating communication in glioma cell networks and have identified Cx43 as a potential mediator of temozolomide resistance in glioma. We hypothesized that blocking Cx43 would prevent intercellular NAD+ sharing in IDH-mutant gliomas, causing tumor cells to be more vulnerable to metabolic NAD+ depletion via nicotinamide phosphoribosyltransferase (NAMPT) inhibitors and temozolomide (TMZ) treatment. Here, we show that blockade of Cx43 with α-connexin carboxyl-terminal (ACT1) is able to inhibit growth of patient-derived IDH1-mutant tumor cells. ACT1 sensitizes cells to TMZ and inhibits growth of IDH1-mutant gliomas via an NAD-dependent mechanism. We also found that ACT1 can be used in combination with other NAD-depleting drugs, such as NAMPT inhibitors, to enhance its effect and provide a viable therapeutic window. Overall, our results suggest that ACT1 may enhance the efficacy of treatments for IDH1-mutant tumors by blocking metabolic buffering through tumor cell gap junctions.

Published

2020

215. CSIG-19. THE DEUBIQUITINASE BRCC3 LINKS ALT TELOMERES TO SUPPRESSION OF INNATE IMMUNITY IN IDH1-MUTANT GLIOMA

Author

Russell O. Pieper, Joydeep Mukherjee, Ajay Pandita, Yongjian Tang, Shigeo Ohba, Tor-Christian Johanessen, and Daniel P. Cahill

Subjects

Cancer Research, Innate immune system, biology, Mutant, Cell Signaling and Signaling Pathways, medicine.disease, Telomere, Deubiquitinating enzyme, Cell biology, BRCC3, Immune system, Oncology, Glioma, biology.protein, medicine, Neurology (clinical), Gene

Abstract

Approximately 10% of tumors including all IDH1-mutant lower-grade glioma resolve telomeric shortening using Alternative Lengthening of Telomere (ALT) mechanism. Although the ALT process lengthens telomeres, it also generates small bits of extrachromosomal, telomere-containing DNA (ECTRs). These ECTRs can bind and activate cyclic GMP-AMP synthase (cGAS), the major cytosolic sensor of double-stranded DNA, which in turn can activate expression of stimulator of IFN genes (STING) and the interferon-based innate immune response. To limit the immune response, ALT cells inactivate the cGAS-STING pathway, although the mechanism by which this occurs is unknown. Here we show that the deubiquitinase BRCC3 links ALT telomeres to suppression of the cGAS-STING pathway and the innate immune response. Astrocytoma cells dependent on the ALT-mechanism (IDH1-mutant and ATRX-deficient genetically-modified human astrocytes and MGG119 PDX) contained ECTR and had reduced expression of the cGAS and the downstream components of the cGAS-STING pathway (STING, and IFN-β) relative to matched non-ALT (isogenic ATRX WT astrocytes and MGG152 PDX) cells lacking ECTRs. Decreased levels of cGAS in ALT cells were in turn associated with deubiquitiantion and destabilization of cGAS. The telomere-derived ECTR in ALT-dependent cells lacked two proteins normally found in ALT telomeres (TRF2 or PARP), but retained two other proteins, Mre11 and its binding partner, normally nuclear deubiquitinase BRCC3. Furthermore, either pharmacologic inhibition or genetic suppression of BRCC3 levels had no effect on ECTR levels but stabilized cGAS and activated the cGAS-STING pathway. This cGAS-mediated activation could be blocked by exogenous expression of WT BRCC3, but not by expression of a mutant BRCC3 incapable of deubiquitination. These results show that BRCC3 translocated along with ECTRs to the cytoplasm degrades cGAS and protects ALT-dependent cells from activating the innate immune response. The BRCC3-controlled cGAS-STING pathway may therefore represent a therapeutically targetable means to enhance the immune response in IDH1-mutant lower grade glioma.

Published

2020

216. MGMT promoter methylation and hypermutant recurrence in IDH mutant lower-grade glioma

Author

Daniel P. Cahill and Julie J. Miller

Subjects

Cancer Research, Lower grade, Temozolomide, business.industry, Mutant, medicine.disease, Oncology, Glioma, IDH1 Mutation, Promoter methylation, medicine, Cancer research, Neurology (clinical), business, medicine.drug

Published

2020

217. 53. Genomic characterization of brain metastases identifies drivers of metastatic lung adenocarcinoma

Author

Sandro Santagata, Daniel P. Cahill, Priscilla K. Brastianos, Matthias Preusser, Bruce E. Johnson, Scott L. Carter, David Shih, Ivanna Bihun, and Naema Nayyar

Subjects

Cancer Research, Genetics, Cancer research, Biology, Molecular Biology, Metastatic Lung Adenocarcinoma

Published

2020

218. MRS for D-2HG Detection in IDH-Mutant Glioma

Author

Tracy T. Batchelor, Daniel P. Cahill, and Ovidiu C. Andronesi

Subjects

Isocitrate dehydrogenase, IDH1, medicine.medical_treatment, Glioma, medicine, Cancer research, Cancer, Epigenetics, Biology, medicine.disease, IDH2, Targeted therapy, Biomarker (cell)

Abstract

Recurrent heterozygous mutations of isocitrate dehydrogenase (IDH1 and IDH2) are primary genetic events in gliomagenesis and largely determine the subsequent evolution and clinical phenotype of this class of brain tumors. Mutations in the residues R132 of IDH1 or R172 of IDH2 switch the enzymatic activity towards the production of D-2-hydroxyglutarate (D-2HG) at high intracellular concentration. IDH1 and IDH2 are important hubs in the metabolic network and their mutations result in metabolic reprogramming of mutant glioma cells with far-reaching downstream effects such as epigenetic modifications and modulation of immune response that promote cancer. D-2HG has emerged as a versatile and multipurpose biomarker for gliomas to diagnose IDH mutations, for treatment planning, and to monitor response to standard chemoradiation or targeted therapies. Noninvasive imaging of D-2HG based on magnetic resonance spectroscopy is feasible in patients and may enable precision oncology in glioma patients. However, optimized MRS acquisitions for 2HG detection are necessary to reduce false positive and false negative results.

Published

2019

219. RARE-04. TARGETED TREATMENT OF PAPILLARY CRANIOPHARYNGIOMAS HARBORING BRAFV600E MUTATIONS

Author

Simon Aylwin, Nancy Wang, Tareq A. Juratli, Joon H. Uhm, Daniel P. Cahill, Pamela S. Jones, Sandro Santagata, Brian A. Shaw, Priscilla K. Brastianos, Fred G. Barker, Yazmin Odia, Elham Rostami, Olafur Gudjonsson, Evanthia Galanis, and Megha Subramanian

Subjects

Oncology, Cobimetinib, Cancer Research, medicine.medical_specialty, medicine.diagnostic_test, business.industry, Rare Tumors, medicine.disease, Craniopharyngioma, chemistry.chemical_compound, Papillary craniopharyngioma, Pharmaceutical Adjuvants, chemistry, Internal medicine, Mutation (genetic algorithm), Biopsy, medicine, Drug approval, Neurology (clinical), Vemurafenib, business, medicine.drug

Abstract

Craniopharyngiomas are surgically challenging brain tumors. Postoperatively, quality of life is often significantly impaired due to neurological and endocrinological complications. Currently, FDA approved systemic treatments are not available for patients in whom craniopharyngiomas recur after surgery and radiation. Papillary craniopharyngiomas are characterized by the presence of BRAFV600E mutations. To date, five case reports have been published on the treatment of BRAFV600E mutant papillary craniopharyngiomas with BRAF and/or MEK inhibitors. In this presentation, authors from all five previously published reports share their collective experience and provide updated follow-up on their patients, thus generating an overview of all currently available information on targeted therapy in patients with BRAFV600E mutant papillary craniopharyngiomas. We have also included information on an additional patient with a papillary craniopharyngioma recently treated with BRAF and MEK inhibitors after tumor biopsy alone, in the absence of recurrence, highlighting the potential for a neo-adjuvant therapeutic approach. All six cases in our series showed dramatic responses to targeted treatment with BRAF (and MEK) inhibitors. Collectively, our cases are highly promising and informative for patient treatment, although uncertainty remains with regards to the optimal timing, the specific agents (single agent or dual therapy) to be used and the duration of treatment. The ongoing multicenter phase II Alliance A071601 trial (NCT03224767) of vemurafenib and cobimetinib for patients with biopsy-proven residual or recurrent papillary craniopharyngiomas should provide additional information to help guide patient management.

Published

2019

220. INNV-27. THE IMPACT OF A DEDICATED MULTIDISCIPLINARY TUMOR BOARD ON CARE FOR PATIENTS WITH BRAIN METASTASES

Author

Daniel P. Cahill, Brian V. Nahed, Nancy Wang, Kevin S. Oh, Priscilla K. Brastianos, Nathaniel Goss, Justine V. Cohen, Mia Bertalan, Maura Keeley, and Michael W. Parsons

Subjects

Cancer Research, medicine.medical_specialty, Oncology, business.industry, Multidisciplinary approach, General surgery, Innovations in Patient Care, Medicine, Tumor board, Neurology (clinical), business

Abstract

Brain metastases (BM) are the most common tumors to affect the central nervous system (CNS). Treatment options have recently evolved with the use of new targeted therapies, immune checkpoint inhibitors, and increased access to clinical trials. We describe our institutional experience with a weekly tumor board dedicated to BM. METHODS We conducted a single-institution cohort study at an academic hospital. Attendance at tumor board included representatives from neuro-oncology, medical oncology, radiation oncology, neurosurgery, neuropsychology, and neuroradiology. We prospectively gathered data on patient demographics, clinical history, and tumor board recommendations. Patients were followed to assess treatment course and survival. The Kaplan Meier method was used to calculate time to progression. RESULTS A total of 49 patients were presented over 2 months. The median age at presentation was 63 yrs with a median ECOG of 1. The primary malignancy was 35% melanoma, 29% lung, 23% breast, the remainder other. Most patients had advanced, heavily pretreated disease: 69% had Stage IV disease with a median of 2 prior lines of systemic therapy, 73% had multiple BM, 39% had prior surgical resection of BM, and 57% had prior CNS radiation. Change in management was recommended in 26/53 case presentations, with active BM-directed therapy (surgery, radiation, systemic therapy) recommended in 25/26 patients. The median time to start active therapy was 7 days. Only 3 patients have died at a median follow-up of 62 days. 9 patients have progressed, with a median time to progression of 57 days. CONCLUSIONS Multidisciplinary BM tumor board provides unique opportunities in the management of complex BM patients in an era of rapidly evolving therapeutic options. Additional follow-up is needed to assess long-term outcomes.

Published

2019

221. NIMG-09. NONINVASIVE PERFUSION IMAGING BIOMARKER OF MALIGNANT GENOTYPE IN ISOCITRATE DEHYDROGENASE MUTANT GLIOMAS

Author

Dimitris G. Placantonakis, Sylvia Kurz, Matija Snuderl, Seema Patel, Martin Bendszus, Chih-Chin Wu, Victor Ng, Daniel P. Cahill, Ingrid Aguiar Littig, Andreas von Deimling, Andrew S. Chi, Rajan Jain, Laila M. Poisson, Lucidio Neto, Sohil H. Patel, Monica Mureb, Jonathan Serrano, Philipp Kickingereder, and John G. Golfinos

Subjects

Cancer Research, business.industry, Mutant, Perfusion scanning, Isocitrate dehydrogenase, Oncology, Genotype, Cancer research, Neuro-Imaging, Medicine, Biomarker (medicine), Neurology (clinical), business, neoplasms

Abstract

OBJECTIVE A small subset of IDHmut astrocytomas behave aggressively, similarly to IDHwt glioblastoma. Genomic correlates of poor prognosis IDHmut astrocytomas include global relative DNA hypomethylation, MYCN amplification copy number variation (CNV) abundance, and CDKN2A/B homozygous deletion. We sought to identify a non-invasive imaging correlate of poor prognosis IDHmut astrocytomas. METHODS 30 IDHmut astrocytomas (NYU=18, TCGA=12) were included. Relative cerebral blood volume was obtained from 4 regions of interest within the highest perfusion areas. Genomic CNV analysis and CDKN2A/B copy number status was obtained using Illumina Infinium 450k or Illumina EPIC methylation array data. Associations between rCBV, survival, and genomic alterations were evaluated. An additional 22 IDHmut astrocytomas were obtained from another institution for validation. RESULTS CNV stable (CNV-S, n=14) astrocytomas demonstrated significantly lower mean rCBV than and CNV unstable (CNV-U, n=16) (P=0.0.0155) ones. IDHmut astrocytomas with CDKN2A/B homozygous deletion (n=7) had higher rCBV (3.9 ± 2.3, mean ± SD) compared to those without this alteration (n=22; 1.8 ± 1.9, mean ± SD; P=0.0489). In the validation set, there was no significant evidence in rCBV between CNV-S and CNV-U tumors (P=0.3976). These results were sensitive to a single outlier in the CNV-S group. Excluding this case with rCBV=7.15, the CNV-S tumors demonstrated significantly lower mean rCBV (P=0.0279). IDHmut astrocytomas with CDKN2A/B homozygous deletion (n=9) tended to have higher rCBV (4.2 ± 1.8, mean ± SD) compared to those without this alteration (n=16; 2.5 ± 1.5, mean ± SD; P=0.0757, t-test). This led to significant discrimination (P=0.0328, Wilcoxon). CONCLUSION Our study is the first to identify a non-invasive imaging biomarker for prognostic genomic alterations in IDHmut astrocytomas. Greater CNV abundance and/or CDKN2A/B homozygous deletion have higher rCBV and worse prognosis. Our methods can be applied to standard clinical practice and may enhance informed treatment decisions in the preoperative and immediate postoperative settings.

Published

2019

222. CBMT-19. THE ALTERNATIVE LENGTHENING OF TELOMERE (ALT) MECHANISM PROVIDES COLLATERAL SENSITIVITY TO LETHAL TELOMERIC FUSION INDUCED BY TRAPPING PARP INHIBITORS

Author

Russell O. Pieper, Tor-Christian Johanessen, Cecelia Dalle-Ore, Ajay Pandita, Joydeep Mukherjee, Daniel P. Cahill, and Shigeo Ohba

Subjects

Cancer Research, Fusion, Oncology, Mechanism (biology), Chemistry, Poly ADP ribose polymerase, Neurology (clinical), Sensitivity (control systems), Cell Biology and Metabolism, Cell biology, Telomere

Abstract

A subset of human tumors, including all IDH1-mutant astrocytomas, use a homologous recombination-based alternative lengthening of telomere (ALT) pathway to resolve telomeric dysfunction in the absence of TERT. Because ALT is not used by normal cells, targeting of the process may provide new therapeutic options for patients with ALT-dependent tumors. We here report that reliance on the ALT mechanism makes tumors collaterally hypersensitive to clinically-available trapping PARPi (t-PARPi). Specifically we noted that astrocytoma cells dependent on the ALT-mechanism (IDH1-mutant and ATRX-deficient genetically-modified human astrocytes and MGG119 PDX) were significantly more sensitive to trapping PARPi than matched ALT-independent isogenic ATRXWT astrocytes and MGG152 PDX cells, respectively) both in vitro and in vivo. Surprisingly this hypersensitivity was not associated with BRCA-ness, the extent of PARP inhibition, or with t-PARPi-created genomic DNA damage as is the case in most PARPi-sensitive populations. Rather the enhanced activity of t-PARPi in ALT-dependent cells was associated with a novel t-PARPi-induced, lethal telomere fusion. Furthermore, the extent of chromosomal fusion was proportional to the PARP-trapping ability of the five PARP inhibitors tested, and could be prevented by exogenous expression of TERT, which eliminated reliance on ALT but did not alter levels of PARPi-induced genomic DNA damage. The extent of tPARPi-induced telomeric fusion in ALT-dependent cells, which could be directly measured in small amounts of DNA using a q-PCR approach, was also directly proportional to tPARPi-induced cell death in vitro and to prolonged survival of tumor-bearing mice in vivo. These results therefore identify clinically available tPARPi as a new treatment modality for a select and easily genetically definable group of ALT tumors, and also define telomeric fusion as a biomarker of drug action in these tumors.

Published

2019

223. GENE-63. GENOMIC CHARACTERIZATION OF HUMAN BRAIN METASTASES IDENTIFIES NOVEL DRIVERS OF LUNG ADENOCARCINOMA PROGRESSION

Author

Juan Carlos Martinez-Gutierrez, Michael White, Elizabeth R. Gerstner, Corey M. Gill, Darrell R. Borger, Benjamin Kaufman, Kaitlin Hoang, Scott L. Carter, Ibiayi Dagogo-Jack, Naema Nayyar, Sandro Santagata, Daniel P. Cahill, Tracy T. Batchelor, Matthias Preusser, Megan R. D'Andrea, Ivanna Bihun, Franziska M. Ippen, Priscilla K. Brastianos, A. John Iafrate, Maria Martinez-Lage, Emily Batchelor, Devin McCabe, Ryan P. Frazier, Anna S. Berghoff, Matthew Lastrapes, Parker H. Merrill, Matthew R. Strickland, Christopher Alvarez-Breckenridge, Sung Hye Park, Deepika Nagabhushan, Mia Bertalan, Sun Ha Paek, Nicholas D. Camarda, Elisa Aquilanti, David Shih, Andrew Kaneb, Benjamin M. Kuter, Bruce E. Johnson, Alexander Kaplan, Ugonma Chukwueke, Brandyn A. Castro, Matthew P. Frosch, and Magali De Sauvage

Subjects

Genetics and Epigenetics, Cancer Research, Lung, Tumor cells, Human brain, Biology, medicine.disease, Genome, Intracardiac injection, medicine.anatomical_structure, Oncology, Cancer research, medicine, Adenocarcinoma, Neurology (clinical), Gene, Exome sequencing

Abstract

Although lung adenocarcinomas frequently metastasize to the brain, treatment options for lung adenocarcinoma brain metastases are limited. We discovered novel candidate drivers of progression by using case-control analyses to compare whole-exome sequencing data from a cohort of 73 lung adenocarcinoma brain metastases to a control cohort of 503 primary lung adenocarcinomas. We identified 3 genomic regions with significantly more frequent amplifications in brain metastases compared to the control cohort: MYC (12% vs 6%), YAP1 (7% vs 0.8%) and MMP13 (10% vs 0.6%). We also identified CDKN2A/B as a region deleted at a significantly greater frequency in brain metastases compared to primary lung adenocarcinomas (27% vs 13%, respectively). We confirmed frequent amplifications of MYC and YAP1/MMP13 in an independent validation cohort of 105 lung adenocarcinoma brain metastasis samples using fluorescence in situ hybridization. We further validated that MYC, YAP1 and MMP13 can drive brain metastases in a patient-derived xenograft mouse model. We found a higher incidence of metastases to the brain in mice receiving intracardiac injections of tumor cells expressing the candidate drivers compared to tumor cells expressing LacZ as a control. These results indicate that somatic alterations can drive lung adenocarcinomas to metastasize to the brain. The candidate brain metastasis drivers that we identified may serve as therapeutic targets in patients with lung adenocarcinomas who develop this devastating complication.

Published

2019

224. Inhibitory CD161 receptor identified in glioma-infiltrating T cells by single-cell analysis

Author

Matthew P. Frosch, Orr Ashenberg, Mirco Friedrich, Hiroaki Wakimoto, Heather L. Cahill, Prafulla C. Gokhale, Gordon J. Freeman, Jason Pyrdol, X. Shirley Liu, Kai W. Wucherpfennig, Priscilla K. Brastianos, Rony Chanoch-Myers, Michael J. Poitras, Daniel P. Cahill, Itay Tirosh, David A. Reardon, Marni E. Shore, Wubing Zhang, Olamide Olawoyin, L. Nicolas Gonzalez Castro, Yoshinaga Ito, Nathan Mathewson, Simon Gritsch, David N. Louis, Toshiro Hara, Pamela S. Jones, Alexander Marson, Orit Rozenblatt-Rosen, Keith L. Ligon, Livnat Jerby-Arnon, E. Antonio Chiocca, Aviv Regev, Christine M. Hebert, Sascha Marx, Matthew Drummond, Alyssa R. Richman, Brian A. Shaw, Kathrin Schumann, Elizabeth M. Perez, and Mario L. Suvà

Subjects

medicine.medical_treatment, T-Lymphocytes, Cell, Receptors, Cell Surface, Biology, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Mice, 0302 clinical medicine, Lymphocytes, Tumor-Infiltrating, Single-cell analysis, Antigens, Neoplasm, T-Lymphocyte Subsets, Glioma, Gene expression, medicine, Cytotoxic T cell, Animals, Lectins, C-Type, Receptor, 030304 developmental biology, 0303 health sciences, Gene Expression Profiling, Immunotherapy, medicine.disease, Killer Cells, Natural, KLRB1, Disease Models, Animal, medicine.anatomical_structure, Cancer research, Tumor Escape, Single-Cell Analysis, 030217 neurology & neurosurgery, NK Cell Lectin-Like Receptor Subfamily B

Abstract

Summary T cells are critical effectors of cancer immunotherapies, but little is known about their gene expression programs in diffuse gliomas. Here, we leverage single-cell RNA sequencing (RNA-seq) to chart the gene expression and clonal landscape of tumor-infiltrating T cells across 31 patients with isocitrate dehydrogenase (IDH) wild-type glioblastoma and IDH mutant glioma. We identify potential effectors of anti-tumor immunity in subsets of T cells that co-express cytotoxic programs and several natural killer (NK) cell genes. Analysis of clonally expanded tumor-infiltrating T cells further identifies the NK gene KLRB1 (encoding CD161) as a candidate inhibitory receptor. Accordingly, genetic inactivation of KLRB1 or antibody-mediated CD161 blockade enhances T cell-mediated killing of glioma cells in vitro and their anti-tumor function in vivo. KLRB1 and its associated transcriptional program are also expressed by substantial T cell populations in other human cancers. Our work provides an atlas of T cells in gliomas and highlights CD161 and other NK cell receptors as immunotherapy targets.

Published

2019

225. A Multi-Institutional Analysis of Factors Influencing Surgical Outcomes for Patients with Newly Diagnosed Grade I Gliomas

Author

Albert H. Kim, Bhuvic Patel, Matthew D. Smyth, Randy L. Jensen, Gavin P. Dunn, John J. Evans, Garnette R. Sutherland, Jeffrey R. Leonard, Yu Tao, Alexander T. Yahanda, Daniel P. Cahill, Eric C. Leuthardt, Mitesh V. Shah, Keith M. Rich, Michael R. Chicoine, Ralph G. Dacey, Joshua L. Dowling, Steven R Abram, John Honeycutt, David D. Limbrick, and Gregory J. Zipfel

Subjects

Adult, Male, medicine.medical_specialty, Adolescent, Interventional magnetic resonance imaging, Newly diagnosed, Kaplan-Meier Estimate, Extent of resection, Neurosurgical Procedures, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Risk Factors, Medicine, Humans, Child, neoplasms, Aged, Intraoperative Care, medicine.diagnostic_test, Pilocytic astrocytoma, business.industry, Brain Neoplasms, Infant, Magnetic resonance imaging, Glioma, Middle Aged, medicine.disease, Gross Total Resection, Clinical research, Treatment Outcome, 030220 oncology & carcinogenesis, Child, Preschool, Surgery, Female, Neurology (clinical), Neurosurgery, Radiology, business, 030217 neurology & neurosurgery

Abstract

To assess the impact of intraoperative magnetic resonance imaging (iMRI), extent of resection (EOR), and other factors on overall survival (OS) and progression-free survival (PFS) for patients with newly diagnosed grade I gliomas.A multicenter database was queried to identify patients with grade I gliomas. Retrospective analyses assessed the impact of patient, treatment, and tumor characteristics on OS and PFS.A total of 284 patients underwent treatment for grade I gliomas, including 248 resections (205 with iMRI, 43 without), 23 biopsies, and 13 laser interstitial thermal therapy treatments. Log-rank analyses of Kaplan-Meier plots showed improved 5-year OS (P = 0.0107) and PFS (P = 0.0009) with increasing EOR, and a trend toward improved 5-year OS for patients with lower American Society of Anesthesiologists score (P = 0.0528). Greater EOR was associated with significantly increased 5-year PFS for pilocytic astrocytoma (P0.0001), but not for ganglioglioma (P = 0.10) or dysembryoplastic neuroepithelial tumor (P = 0.57). Temporal tumors (P = 0.04) and location of "other" (P = 0.04) were associated with improved PFS, and occipital/parietal tumors (P = 0.02) were associated with decreased PFS compared with all other locations. Additional tumor resection was performed after iMRI in 49.7% of cases using iMRI, which produced gross total resection in 64% of these additional resection cases.Patients with grade I gliomas have extended OS and PFS, which correlates positively with increasing EOR, especially for patients with pilocytic astrocytoma. iMRI may increase EOR, indicated by the rate of gross total resection after iMRI use but was not independently associated with increased OS or PFS.

Published

2019

226. An integrative model of cellular states, plasticity and genetics for glioblastoma

Author

Daniel P. Cahill, Tracy T. Batchelor, Priscilla K. Brastianos, William T. Curry, Orit Rozenblatt-Rosen, Dennis M. Bonal, John M. DeWitt, Ivan Stamenkovic, Anoop P. Patel, Inder M. Verma, Irene Slavc, Aviv Regev, Ravindra Mylvaganam, René Geyeregger, Mario L. Suvà, Christine M. Hebert, Anat Stemmer-Rachamimov, Julia L. Small, Lisa Mayr, Nicholas Druck, Alexander Kaplan, Simon Gritsch, Sarah Becker, L. Nicolas Gonzalez Castro, David N. Louis, Toshiro Hara, Danielle Dionne, Brian V. Nahed, Rachel L. Servis, Xiaoyang Lan, McKenzie Shaw, Keith L. Ligon, Cyril Neftel, Christopher Rodman, Kristine Pelton, Johannes Gojo, Mariella G. Filbin, Matthew P. Frosch, Esther Rheinbay, Tony Hunter, Michelle Monje, Marni E. Shore, Dana Silverbush, Elizabeth M. Perez, Gilbert J. Rahme, Hiroaki Wakimoto, Jeremy M. Fung, Quang-Dé Nguyen, Itay Tirosh, Maria Martinez-Lage, Julie Laffy, Alyssa R. Richman, Mia Bertalan, Thomas Czech, Christine Haberler, Bradley E. Bernstein, Nicolo Riggi, Bob S. Carter, Massachusetts Institute of Technology. Department of Biology, and Koch Institute for Integrative Cancer Research at MIT

Subjects

Male, Adolescent, Cell Plasticity, Locus (genetics), Computational biology, PDGFRA, Biology, General Biochemistry, Genetics and Molecular Biology, Article, Cohort Studies, 03 medical and health sciences, Genetic Heterogeneity, Mice, 0302 clinical medicine, Single-cell analysis, Mice, Inbred NOD, Cell Line, Tumor, Tumor Microenvironment, Animals, Humans, Cell Lineage, Epigenetics, RNA-Seq, Child, neoplasms, 030304 developmental biology, Aged, 0303 health sciences, Tumor microenvironment, Genetic diversity, Genetic heterogeneity, Brain Neoplasms, Infant, Middle Aged, Mice, Inbred C57BL, Disease Models, Animal, Mutation, Heterografts, Female, Single-Cell Analysis, Glioblastoma, 030217 neurology & neurosurgery

Abstract

Diverse genetic, epigenetic, and developmental programs drive glioblastoma, an incurable and poorly understood tumor, but their precise characterization remains challenging. Here, we use an integrative approach spanning single-cell RNA-sequencing of 28 tumors, bulk genetic and expression analysis of 401 specimens from the The Cancer Genome Atlas (TCGA), functional approaches, and single-cell lineage tracing to derive a unified model of cellular states and genetic diversity in glioblastoma. We find that malignant cells in glioblastoma exist in four main cellular states that recapitulate distinct neural cell types, are influenced by the tumor microenvironment, and exhibit plasticity. The relative frequency of cells in each state varies between glioblastoma samples and is influenced by copy number amplifications of the CDK4, EGFR, and PDGFRA loci and by mutations in the NF1 locus, which each favor a defined state. Our work provides a blueprint for glioblastoma, integrating the malignant cell programs, their plasticity, and their modulation by genetic drivers. Single-cell analyses of glioblastoma samples reveal multiple cellular states, their plasticity and the genetic underpinnings of state proportions in a given tumor., National Cancer Institute (U.S.) (Grants 1U24CA180922, R33CA202820, P30CA14051)

Published

2019

227. Neurologic complications of melanoma

Author

Daniel P. Cahill, Vyshak Alva Venur, Matthew J. Hadfield, Priscilla K. Brastianos, Kevin S. Oh, Nancy Wang, and Justine V. Cohen

Subjects

Male, Cancer Research, medicine.medical_specialty, Poor prognosis, Neuro oncology, Neurosurgery, Neuroimaging, Disease, 03 medical and health sciences, 0302 clinical medicine, Radiation oncology, medicine, Humans, In patient, 030212 general & internal medicine, Intensive care medicine, Melanoma, business.industry, medicine.disease, Prognosis, Treatment Outcome, Oncology, 030220 oncology & carcinogenesis, Radiation Oncology, Treatment strategy, Female, Nervous System Diseases, business

Abstract

Neurologic complications are common in patients with melanoma and are often associated with a poor prognosis. In an era with new, effective treatments, patients are living longer, and this has resulted in an increase in complications of both the disease and the therapy. A multidisciplinary approach to neurologic complications in patients with melanoma, with involvement from medical oncology, neuro-oncology, radiation oncology, and often neurosurgery, is necessary. In this review, neurologic complications of melanoma, including clinical implications and treatment strategies, are described.

Published

2019

228. The dual PI3K/mTOR-pathway inhibitor GDC-0084 achieves antitumor activity in PIK3CA-mutant breast cancer brain metastases

Author

Anita Giobbie-Hurder, Megha Subramanian, Daniel P. Cahill, Alexandria Fink, Christopher Alvarez-Breckenridge, Ivanna Bihun, Gregory R. Wojtkiewicz, Hiroaki Wakimoto, Stephen P. Schmidt, Maria Martinez-Lage, Tristan Penson, Priscilla K. Brastianos, Scott L. Carter, Jianfang Ning, Matthew Lastrapes, Benjamin M. Kuter, and Franziska M. Ippen

Subjects

0301 basic medicine, Cancer Research, Class I Phosphatidylinositol 3-Kinases, Antineoplastic Agents, Apoptosis, Breast Neoplasms, Article, 03 medical and health sciences, chemistry.chemical_compound, Mice, 0302 clinical medicine, Breast cancer, In vivo, Cell Line, Tumor, Oxazines, medicine, Animals, Humans, Viability assay, Protein kinase B, neoplasms, Protein Kinase Inhibitors, PI3K/AKT/mTOR pathway, Cell Proliferation, business.industry, Brain Neoplasms, TOR Serine-Threonine Kinases, medicine.disease, Immunohistochemistry, Disease Models, Animal, 030104 developmental biology, Pyrimidines, Oncology, chemistry, 030220 oncology & carcinogenesis, Cancer research, Female, Growth inhibition, business, Brain metastasis, Signal Transduction

Abstract

Purpose: Previous studies have shown that the PI3K/Akt/mTOR pathway is activated in up to 70% of breast cancer brain metastases, but there are no approved agents for affected patients. GDC-0084 is a brain penetrant, dual PI3K/mTOR inhibitor that has shown promising activity in a preclinical model of glioblastoma. The aim of this study was to analyze the efficacy of PI3K/mTOR blockade in breast cancer brain metastases models. Experimental Design: The efficacy of GDC-0084 was evaluated in PIK3CA-mutant and PIK3CA wild-type breast cancer cell lines and the isogenic pairs of PIK3CA wild-type and mutant (H1047R/+) MCF10A cells in vitro. In vitro studies included cell viability and apoptosis assays, cell-cycle analysis, and Western blots. In vivo, the effect of GDC-0084 was investigated in breast cancer brain metastasis xenograft mouse models and assessed by bioluminescent imaging and IHC. Results: In vitro, GDC-0084 considerably decreased cell viability, induced apoptosis, and inhibited phosphorylation of Akt and p70 S6 kinase in a dose-dependent manner in PIK3CA-mutant breast cancer brain metastatic cell lines. In contrast, GDC-0084 led only to growth inhibition in PIK3CA wild-type cell lines in vitro. In vivo, treatment with GDC-0084 markedly inhibited the growth of PIK3CA-mutant, with accompanying signaling changes, and not PIK3CA wild-type brain tumors. Conclusions: The results of this study suggest that the brain-penetrant PI3K/mTOR targeting GDC-0084 is a promising treatment option for breast cancer brain metastases with dysregulated PI3K/mTOR signaling pathway conferred by activating PIK3CA mutations. A national clinical trial is planned to further investigate the role of this compound in patients with brain metastases.

Published

2019

229. Performance of a Hospital Pathway for Patients With a New Single Brain Mass

Author

Alona Muzikansky, Brian V. Nahed, Robert L. Martuza, Susann J. Jarhult, Isabel Arrillaga-Romany, Aneesh B. Singhal, William T. Curry, Jay S. Loeffler, Justin T. Jordan, Daniel P. Cahill, Joshua N. Goldstein, Tracy T. Batchelor, and Adam B. Cohen

Subjects

Adult, Male, medicine.medical_specialty, Biopsy, MEDLINE, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Time to surgery, Medicine, Electronic Health Records, Humans, 030212 general & internal medicine, Young adult, Disease management (health), Aged, Aged, 80 and over, Brain Diseases, medicine.diagnostic_test, Oncology (nursing), business.industry, Critical pathways, Health Policy, Brain Mass, Disease Management, Middle Aged, Readmission rate, Hospitals, Oncology, Emergency medicine, Critical Pathways, Female, business, Emergency Service, Hospital, Tomography, X-Ray Computed, 030217 neurology & neurosurgery

Abstract

WHAT WE FOUND: Length of stay and time to surgery were significantly reduced after implementation of this admission pathway. Readmission rate was not adversely affected by this change. The protocol also significantly reduced the number of unnecessary body computed tomography imaging studies obtained in this patient population. CONFOUNDING FACTORS/REAL-LIFE IMPLICATIONS: The results of this study should be interpreted with their retrospective nature in mind. Further, analysis of this admission pathway did not take into consideration patient perspective or cost implications. Finally, the authors recognize that the resources for such an operational shift may only be found in large, tertiary, referral centers. Optimized specialized care for patients with new single brain masses promotes improved health care outcomes. It may also predictively reduce health care costs and improve patient satisfaction. More research is needed in this field. Limitations to our study included the inherent limitations of a retrospective pre-post design that can make it difficult to separate the effect of a specific intervention from other factors that change over time. In addition, assessment of patient satisfaction, use of diagnostic tests beyond body imaging, and advanced cost analysis could have strengthened this study. Lastly, it should be noted that the applicability of our approach may be limited to major tertiary centers with enough resources to implement such a pathway.

Published

2019

230. Advanced imaging to assess longitudinal vascular changes in brain metastases treated with checkpoint inhibition

Author

Albert Eusik Kim, Ken Chang, Kyrre E. Emblem, Jayashree Kalpathy-Cramer, Eudocia Quant Lee, Nancy U. Lin, Sara M. Tolaney, Lakshmi Nayak, Ugonma Nnenna Chukwueke, Kevin S. Oh, Helen Alice Shih, Michael White, Don P. Lawrence, Beverly Moy, Justine Vanessa Cohen, Anita Giobbie-Hurder, Daniel P. Cahill, Ryan J. Sullivan, Priscilla Kaliopi Brastianos, and Elizabeth Robins Gerstner

Subjects

Cancer Research, Oncology

Abstract

3059 Background: Immune checkpoint inhibitors (ICI) have recently been shown to be effective for brain metastases (BM) in melanoma and lung cancer. Several studies demonstrate that 20-50% of BM patients respond to ICI. The reasons behind this wide variability in treatment response is not clear. Therefore, using physiologic imaging, we seek to identify the longitudinal biological changes exerted on BM as a result of ICI administration. Methods: Given the importance of aberrant tumor vasculature in cancer proliferation, we have focused on assessing changes in vascular physiology. We analyzed standard post-contrast and dynamic susceptibility contrast (DSC) MRI to identify characteristic vascular signatures as part of an ongoing Phase 2 study of pembrolizumab for patients with untreated or progressive, previously treated BM from any histology. Tumor volume measurements were calculated by summating all enhancing voxels. As per modified RECIST and RANO criteria for immunotherapy, volumetric increase of > 40% was defined as progressive disease (PD), a decrease of > 60% as partial response (PR), and stable disease (SD) as between -60% and +40%. Results: 35 patients, out of the total cohort of 60, have undergone DSC-MRI analysis. Histologies include 15 with breast cancer, 6 with non-small cell lung cancer, 4 with melanoma, and 10 with other cancers. At baseline, the total number of BM was 1-50+ per patient. Based on summing the entire enhancing intracranial disease burden, best volumetric responses for the 35 evaluable patients include 4 PR, 12 SD, and 19 PD. Thus far, we found that ICI-resistant BM had a 50% increase in cerebral blood flow (CBF), 105% increase in cerebral blood volume (CBV), a 15% increase in mean transit time (MTT), and an 80% increase in vessel caliber at 6 weeks post-treatment. On the other hand, ICI-responsive BM had no change in CBF, a 33% increase in CBV, a 10% decrease in MTT, and no change in vessel caliber. Ongoing analysis to uncover additional vascular changes (e.g. tumor oxygenation, vessel size index) within BM to ICI are pending. Conclusions: Our data provides evidence that effective ICI for BM is associated with unique intra-tumoral vascular physiology. With final analysis, we will uncover other facets of vascular physiology that correlate with ICI response, and may reveal mechanisms of response/resistance within tumors to ICI.

Published

2021

231. Local Targeting of NAD+ Salvage Pathway Alters the Immune Tumor Microenvironment and Enhances Checkpoint Immunotherapy in Glioblastoma

Author

Giovanni Traverso, Juri Kiyokawa, Daniel P. Cahill, Ming Li, Zain A. Tirmizi, Hiroaki Wakimoto, Ameya R. Kirtane, Christine K. Lee, Aaron Lopes, and Hiroaki Nagashima

Subjects

0301 basic medicine, Cancer Research, Tumor microenvironment, Chemistry, medicine.medical_treatment, Nicotinamide phosphoribosyltransferase, Immunotherapy, medicine.disease, Immune checkpoint, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, 0302 clinical medicine, Immune system, Oncology, Downregulation and upregulation, 030220 oncology & carcinogenesis, Glioma, Cancer research, medicine, NAD+ kinase

Abstract

The aggressive primary brain tumor glioblastoma (GBM) is characterized by aberrant metabolism that fuels its malignant phenotype. Diverse genetic subtypes of malignant glioma are sensitive to selective inhibition of the NAD+ salvage pathway enzyme nicotinamide phosphoribosyltransferase (NAMPT). However, the potential impact of NAD+ depletion on the brain tumor microenvironment has not been elaborated. In addition, systemic toxicity of NAMPT inhibition remains a significant concern. Here we show that microparticle-mediated intratumoral delivery of NAMPT inhibitor GMX1778 induces specific immunologic changes in the tumor microenvironment of murine GBM, characterized by upregulation of immune checkpoint PD-L1, recruitment of CD3+, CD4+, and CD8+ T cells, and reduction of M2-polarized immunosuppressive macrophages. NAD+ depletion and autophagy induced by NAMPT inhibitors mediated the upregulation of PD-L1 transcripts and cell surface protein levels in GBM cells. NAMPT inhibitor modulation of the tumor immune microenvironment was therefore combined with PD-1 checkpoint blockade in vivo, significantly increasing the survival of GBM-bearing animals. Thus, the therapeutic impacts of NAMPT inhibition extended beyond neoplastic cells, shaping surrounding immune effectors. Microparticle delivery and release of NAMPT inhibitor at the tumor site offers a safe and robust means to alter an immune tumor microenvironment that could potentiate checkpoint immunotherapy for glioblastoma. SIGNIFICANCE: Microparticle-mediated local inhibition of NAMPT modulates the tumor immune microenvironment and acts cooperatively with anti-PD-1 checkpoint blockade, offering a combination immunotherapy strategy for the treatment of GBM.

Published

2021

232. The effect of IDH1 mutation on the structural connectome in malignant astrocytoma

Author

Daniel P. Cahill, Shelli R. Kesler, Jeffrey S. Wefel, Ganesh Rao, and Kyle R. Noll

Subjects

Adult, Male, 0301 basic medicine, Oncology, Cancer Research, medicine.medical_specialty, Pathology, Neurology, Astrocytoma, Article, Lesion, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Connectome, Humans, Medicine, Cognitive Dysfunction, Effects of sleep deprivation on cognitive performance, Cognitive reserve, Brain Neoplasms, business.industry, Wild type, Brain, Cognition, Middle Aged, medicine.disease, Magnetic Resonance Imaging, Isocitrate Dehydrogenase, 030104 developmental biology, Mutation, Female, Neurology (clinical), medicine.symptom, business, 030217 neurology & neurosurgery

Abstract

Mutation of the IDH1 gene is associated with differences in malignant astrocytoma growth characteristics that impact phenotypic severity, including cognitive impairment. We previously demonstrated greater cognitive impairment in patients with IDH1 wild type tumor compared to those with IDH1 mutant, and therefore we hypothesized that brain network organization would be lower in patients with wild type tumors. Volumetric, T1-weighted MRI scans were obtained retrospectively from 35 patients with IDH1 mutant and 32 patients with wild type malignant astrocytoma (mean age = 45 ± 14 years) and used to extract individual level, gray matter connectomes. Graph theoretical analysis was then applied to measure efficiency and other connectome properties for each patient. Cognitive performance was categorized as impaired or not and random forest classification was used to explore factors associated with cognitive impairment. Patients with wild type tumor demonstrated significantly lower network efficiency in several medial frontal, posterior parietal and subcortical regions (p < 0.05, corrected for multiple comparisons). Patients with wild type tumor also demonstrated significantly higher incidence of cognitive impairment (p = 0.03). Random forest analysis indicated that network efficiency was inversely, though nonlinearly associated with cognitive impairment in both groups (p < 0.0001). Cognitive reserve appeared to mediate this relationship in patients with mutant tumor suggesting greater neuroplasticity and/or benefit from neuroprotective factors. Tumor volume was the greatest contributor to cognitive impairment in patients with wild type tumor, supporting our hypothesis that greater lesion momentum between grades may cause more disconnection of core neurocircuitry and consequently lower efficiency of information processing.

Published

2016

233. Spatial Proximity to Fibroblasts Impacts Molecular Features and Therapeutic Sensitivity of Breast Cancer Cells Influencing Clinical Outcomes

Author

Andrew E. Place, Jennifer L. Guerriero, Andrii I. Rozhok, Saumyadipta Pyne, Daniel P. Cahill, Alexander Ishkin, Rachel Schiff, Mothaffar F. Rimawi, Anne Trinh, Antony Letai, Kornelia Polyak, Timothy A. Chan, Michalina Janiszewska, Shaokun Shu, Doris P. Tabassum, Yuri Nikolsky, Muhammad B. Ekram, Kent Osborne, Andriy Marusyk, and Susan G. Hilsenbeck

Subjects

0301 basic medicine, Oncology, Cancer Research, medicine.medical_specialty, Stromal cell, Breast Neoplasms, Synthetic lethality, Lapatinib, Article, 03 medical and health sciences, Breast cancer, Cell Line, Tumor, Internal medicine, Carcinoma, Humans, Medicine, skin and connective tissue diseases, business.industry, Gene Expression Profiling, Cancer, Fibroblasts, medicine.disease, Treatment Outcome, 030104 developmental biology, Cell culture, Cancer cell, business, medicine.drug

Abstract

Using a three-dimensional coculture model, we identified significant subtype-specific changes in gene expression, metabolic, and therapeutic sensitivity profiles of breast cancer cells in contact with cancer-associated fibroblasts (CAF). CAF-induced gene expression signatures predicted clinical outcome and immune-related differences in the microenvironment. We found that fibroblasts strongly protect carcinoma cells from lapatinib, attributable to its reduced accumulation in carcinoma cells and an elevated apoptotic threshold. Fibroblasts from normal breast tissues and stromal cultures of brain metastases of breast cancer had similar effects as CAFs. Using synthetic lethality approaches, we identified molecular pathways whose inhibition sensitizes HER2+ breast cancer cells to lapatinib both in vitro and in vivo, including JAK2/STAT3 and hyaluronic acid. Neoadjuvant lapatinib therapy in HER2+ breast tumors lead to a significant increase of phospho-STAT3+ cancer cells and a decrease in the spatial proximity of proliferating (Ki67+) cells to CAFs impacting therapeutic responses. Our studies identify CAF-induced physiologically and clinically relevant changes in cancer cells and offer novel approaches for overcoming microenvironment-mediated therapeutic resistance. Cancer Res; 76(22); 6495–506. ©2016 AACR.

Published

2016

234. Neurocognitive function varies by IDH1 genetic mutation status in patients with malignant glioma prior to surgical resection

Author

Daniel P. Cahill, Kyle R. Noll, Jeffrey S. Wefel, and Ganesh Rao

Subjects

Adult, Male, Oncology, Cancer Research, medicine.medical_specialty, Pathology, IDH1, Brain tumor, Astrocytoma, Neuropsychological Tests, Biology, Fluid-attenuated inversion recovery, Lesion, Executive Function, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Memory, Internal medicine, Glioma, medicine, Humans, Learning, Attention, Aged, Aged, 80 and over, Brain Neoplasms, Neuropsychology, Reply to Letter, Middle Aged, medicine.disease, Isocitrate Dehydrogenase, 030220 oncology & carcinogenesis, Mutation, Immunohistochemistry, Female, Neurology (clinical), medicine.symptom, Glioblastoma, Psychomotor Performance, 030217 neurology & neurosurgery

Abstract

Background Patients with malignant gliomas present with variation in neurocognitive function (NCF) not attributable to lesion size or location alone. A potential contributor is the rate at which tumors grow, or "lesion momentum." Isocitrate dehydrogenase 1 wild type (IDH1-WT) are more proliferative and aggressive than IDH1-mutant (IDH1-M) tumors. We hypothesized that patients with IDH1-WT would exhibit worse NCF than patients with IDH1-M tumors. Methods Comprehensive NCF testing was completed in 119 patients with malignant glioma prior to surgical resection. IDH1 status was determined with immunohistochemistry and sequencing. Rates of impairment and mean test performances were compared by IDH1. Results NCF impairment was significantly more frequent in patients with IDH1-WT tumors in memory, processing speed, visuoconstruction, language, executive functioning, and manual dexterity. Mean performances of patients with IDH1-WT were also significantly lower than those with IDH1-M tumors on measures of learning and memory, processing speed, language, executive functioning, and dexterity. Lesion volume was not statistically different between IDH1-WT and IDH1-M tumors. Tumor and lesion volume on T1-weighted and fluid attenuated inversion recovery MRI were significantly associated with most NCF tests in patients with IDH1-WT, but only significantly associated with a single measure in patients with IDH1-M tumors. Conclusion Patients with IDH1-WT show reduced NCF compared with those with IDH1-M malignant gliomas. Lesion volume is inversely associated with NCF for patients with IDH1-WT, but not IDH1-M tumors. These findings are consistent with the hypothesis that patients with IDH1-WT tumors present with more severe NCF impairment due to greater lesion momentum, which may impede compensatory neuroplasticity and cerebral reorganization.

Published

2016

235. Treatment of Adult Lower-Grade Glioma in the Era of Genomic Medicine

Author

Minesh P. Mehta, Susan M. Chang, Daniel P. Cahill, and Kenneth Aldape

Subjects

Oncology, medicine.medical_specialty, Pathology, Cell of origin, Context (language use), World health, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Glioma, Biomarkers, Tumor, medicine, Humans, Genomic medicine, Clinical significance, Molecular Targeted Therapy, Neoplasm Grading, Lower grade, Genome, Human, business.industry, Genomics, General Medicine, Prognosis, medicine.disease, 030220 oncology & carcinogenesis, Mutation, business, 030217 neurology & neurosurgery

Abstract

By convention, gliomas are histopathologically classified into four grades by the World Health Organization (WHO) legacy criteria, in which increasing grade is associated with worse prognosis and grades also are subtyped by presumed cell of origin. This classification has prognostic value but is limited by wide variability of outcome within each grade, so the classification is rapidly undergoing dramatic re-evaluation in the context of a superior understanding of the biologic heterogeneity and molecular make-up of these tumors, such that we now recognize that some low-grade gliomas behave almost like malignant glioblastoma, whereas other anaplastic gliomas have outcomes comparable to favorable low-grade gliomas. This clinical spectrum is partly accounted for by the dispersion of several molecular genetic alterations inherent to clinical tumor behavior. These molecular biomarkers have become important not only as prognostic factors but also, more critically, as predictive markers to drive therapeutic decision making. Some of these, in the near future, will likely also serve as potential therapeutic targets. In this article, we summarize the key molecular features of clinical significance for WHO grades II and III gliomas and underscore how the therapeutic landscape is changing.

Published

2016

236. Treatment Response Assessment in IDH-Mutant Glioma Patients by Noninvasive 3D Functional Spectroscopic Mapping of 2-Hydroxyglutarate

Author

Tracy T. Batchelor, Małgorzata Marjańska, A. John Iafrate, Daniel P. Cahill, Bruce R. Rosen, Andrew S. Chi, Franziska Loebel, Jorg Dietrich, Wolfgang Bogner, Elizabeth R. Gerstner, William G. Kaelin, Matthew G. Vander Heiden, Ovidiu C. Andronesi, Koch Institute for Integrative Cancer Research at MIT, and Vander Heiden, Matthew G.

Subjects

Male, In vivo magnetic resonance spectroscopy, Oncology, Cancer Research, medicine.medical_specialty, Pathology, Magnetic Resonance Spectroscopy, medicine.medical_treatment, Article, Glutarates, 03 medical and health sciences, Imaging, Three-Dimensional, 0302 clinical medicine, In vivo, Internal medicine, Glioma, Image Processing, Computer-Assisted, medicine, Humans, Neoplasm Staging, Chemotherapy, Brain Neoplasms, business.industry, Brain, Cancer, Chemoradiotherapy, Adjuvant, medicine.disease, Isocitrate Dehydrogenase, Isocitrate dehydrogenase, 030220 oncology & carcinogenesis, Mutation, Biomarker (medicine), Female, Neoplasm Grading, business, Biomarkers, 030217 neurology & neurosurgery, Chemoradiotherapy

Abstract

Purpose: Measurements of objective response rates are critical to evaluate new glioma therapies. The hallmark metabolic alteration in gliomas with mutant isocitrate dehydrogenase (IDH) is the overproduction of oncometabolite 2-hydroxyglutarate (2HG), which plays a key role in malignant transformation. 2HG represents an ideal biomarker to probe treatment response in IDH-mutant glioma patients, and we hypothesized a decrease in 2HG levels would be measureable by in vivo magnetic resonance spectroscopy (MRS) as a result of antitumor therapy. Experimental Design: We report a prospective longitudinal imaging study performed in 25 IDH-mutant glioma patients receiving adjuvant radiation and chemotherapy. A newly developed 3D MRS imaging was used to noninvasively image 2HG. Paired Student t test was used to compare pre- and posttreatment tumor 2HG values. Test–retest measurements were performed to determine the threshold for 2HG functional spectroscopic maps (fSM). Univariate and multivariate regression were performed to correlate 2HG changes with Karnofsky performance score (KPS). Results: We found that mean 2HG (2HG/Cre) levels decreased significantly (median = 48.1%; 95% confidence interval = 27.3%–56.5%; P = 0.007) in the posttreatment scan. The volume of decreased 2HG correlates (R2 = 0.88, P = 0.002) with clinical status evaluated by KPS. Conclusions: We demonstrate that dynamic measurements of 2HG are feasible by 3D fSM, and the decrease of 2HG levels can monitor treatment response in patients with IDH-mutant gliomas. Our results indicate that quantitative in vivo 2HG imaging may be used for precision medicine and early response assessment in clinical trials of therapies targeting IDH-mutant gliomas. Clin Cancer Res; 22(7); 1632–41. ©2015 AACR.

Published

2016

237. TMOD-13. RESEARCH RESOURCES FOR OLIGODENDROGLIOMA NOW AVAILABLE TO RESEARCH COMMUNITY

Author

Roel G.W. Verhaak, Bob Abraham, Jeremy N. Rich, Brock Greene, Mario L. Suvà, Daniel P. Cahill, Michelle Monje, and Duane Mitchell

Subjects

Cancer Research, Medical education, Oncology, Tumor Models, Political science, Research community, medicine, Neurology (clinical), Oligodendroglioma, medicine.disease, neoplasms, nervous system diseases

Abstract

There are ~1,400 oligodendroglioma diagnoses in the U.S. annually, with up to 15,000 persons living with this disease today. However, there have not been any new treatments approved for oligodendroglioma in the past 25 years. A lack of funding and advocacy has contributed to this, but the lack of reagents allowing researchers to study the disease may be the most critical factor. Oligodendroglioma tissue and disease models, including cell lines and xenograft models, are crucial resources needed for researchers to understand oligodendroglioma biology, identify new treatment strategies, and perform preclinical research. Oligo Nation has created a collection of oligo tissue large enough to enable adequately-sized studies and meet the needs of researchers interested in studying Oligodendroglioma. Oligo Nation is also investing in developing new models of the disease as well as acquiring existing models to make them easily accessible to the research community. A number of resources are now available to support academic researchers: An oligodendroglioma biobank with over 100 patient tissue samples; WGS and RNA sequencing data, including long reads for these samples; An oligodendroglioma cell line repository with 3 lines available (to date) to researchers; An oligodendroglioma PDX repository will be available in the coming year through the NCI Patient Derived Model Repository; GEMM models that include both IDH1 (R132) and CIC mutations, two of the most common mutations in oligodendroglioma, will be available by the end of 2020. Extensive analysis including high-throughput and CRISPR knockout screens will be performed on all existing and new cell lines. The data generated on these models will be stored in a public repository and made available to the research community. Making these reagents available to the research community will hopefully increase research in oligodendroglioma, and will set us on a path to discover improved and ultimately curative treatments for this disease.

Published

2020

238. IMMU-01. SINGLE CELL SEQUENCING OF MELANOMA BRAIN METASTASES UNVEILS HETEROGENEITY OF THE TUMOR MICROENVIRONMENT IN RESPONSE TO IMMUNE CHECKPOINT BLOCKADE

Author

Matt Lastrapes, Jackson Stocking, Scott L. Carter, Daniel P. Cahill, Benjamin Izar, Priscilla K. Brastianos, Christopher Alvarez-Breckenridge, Naema Nayyar, Mia Bertalan, Alexander Kaplan, Samuel Markson, Mario L. Suvà, Maria Martinez-Lage Alvarez, and Ryan J. Sullivan

Subjects

Cancer Research, Tumor microenvironment, Cell cycle checkpoint, medicine.medical_treatment, Melanoma, Immunology, Immunotherapy, Biology, medicine.disease, Immune checkpoint, Blockade, Immune system, Oncology, Single cell sequencing, Cancer research, medicine, Neurology (clinical)

Abstract

Immune checkpoint inhibitors (ICI) have revolutionized oncologic treatment for metastatic melanoma. With improved systemic control, there has been increasing prevalence of patients with brain metastases. Recent evidence has demonstrated intracranial responses in a subset of these patients treated with ICI. We hypothesize that the response to ICI in melanoma brain metastases (MBM) is reflective of unique features within the tumor microenvironment of the brain. A cohort of 27 patients, encompassing 8 pre- and 19 post-immunotherapy MBM underwent single cell RNA sequencing (Smart-Seq2). The cohort includes patients with longitudinal cranial resections and simultaneously resected, spatially distinct tumors. Each tumor underwent unsupervised transcriptomic analysis, differential gene expression, inferred copy number variation, and T-cell receptor (TCR) clonotyping. Published extracranial melanoma single cell datasets were used to compare the tumor microenvironment of the brain and periphery in response to ICI. A total of 14,027 cells (6,189 malignant, 7,838 non-malignant) were sequenced. Brain metastases demonstrated a heterogeneous distribution of macrophage states. Intracranial macrophages were found to be more tumor-supportive than their extracranial counterparts. MBM also included a distribution of reactive neutrophils and astrocytes. Analysis across pre- and post-treatment MBM demonstrated an increase in clonally expanded T cells in patients responding to ICI. Across longitudinal brain metastases collected from the same patients, there was evidence of identical T cell clones across timepoints and locations. Single cell sequencing of MBM provides insights into the cellular composition of the tumor and microenvironment. Our data suggest the cellular heterogeneity within MBM is unique when compared to extracranial disease. Additionally, T cell clonal expansion is found following ICI and T cells of the same clonotype infiltrate spatially and temporally separated brain metastases. These findings raise potential therapeutic implications as we learn to target the differential features of the innate and adaptive immune system within brain metastases and their extracranial counterparts.

Published

2020

239. NIMG-05. ADVANCED IMAGING TO ASSESS LONGITUDINAL VASCULAR CHANGES IN BRAIN METASTASES TREATED WITH CHECKPOINT INHIBITION

Author

Jonathan Cardona, Ken Chang, James M. Brown, Kyrre E. Emblem, Albert H. Kim, Priscilla K. Brastianos, Beverly Moy, Michael White, Sara M. Tolaney, Eudocia Q. Lee, Justine V. Cohen, Helen A. Shih, Ugonma Chukwueke, Ryan J. Sullivan, Anita Giobbie-Hurder, Jayashree Kalpathy-Cramer, Elizabeth R. Gerstner, Andrew Beers, Kevin S. Oh, Nan Lin, Donald P. Lawrence, Lakshmi Nayak, and Daniel P. Cahill

Subjects

Cancer Research, Oncology, business.industry, Immune checkpoint inhibitors, Cancer research, Medicine, Neuroimaging, Neurology (clinical), business

Abstract

Immune checkpoint inhibitors (ICI) have recently been shown to be effective for brain metastases (BM) in melanoma and lung cancer. However, accurately assessing intracranial response in patients undergoing ICI is a challenge, as current measures cannot reliably distinguish pseudoprogression from true tumor progression. To identify potential biomarkers of response, we analyzed standard post-contrast and dynamic susceptibility contrast MRI to identify characteristic vascular signatures as part of an ongoing Phase 2 study of pembrolizumab for patients with untreated or progressive, previously treated BM from any histology. Tumor volume measurements were calculated by summating all enhancing voxels. A volumetric increase of >40% was categorized as progressive disease (PD), a decrease of >60% as partial response (PR), and stable disease (SD) as between -60% and +40%. 78 patients have been enrolled, of whom 44 have received at least baseline advanced MR imaging. Histologies include 21 with breast cancer, 5 with non-small cell lung cancer, 4 with melanoma, and 13 with other cancers. At baseline, the total number of BM was 1-50+ per patient. Based on summing the entire enhancing intracranial disease burden, best volumetric responses for the 33 evaluable patients include 4 PR, 10 SD, and 19 PD. On preliminary analysis, there was a correlation between increased tumor cerebral blood volume/flow with tumor progression. Correlation of additional vascular physiologic parameters (e.g. vessel caliber, tissue oxygenation) to volumetric response, patient outcome, and standardized response criteria (iRANO) are ongoing. Our data provides potential evidence that effective ICI is associated with a decrease in perfusion. Ongoing analyses to uncover additional vascular changes – specifically longitudinal metrics reflecting vascular structure and function - within BM to ICI are pending. These findings have potential to explore mechanisms of ICI response and resistance, as well as biomarkers of response.

Published

2020

240. TAMI-30. LOCAL TARGETING OF NAD+ SALVAGE PATHWAY ALTERS THE IMMUNE TUMOR MICROENVIRONMENT AND ENHANCES CHECKPOINT IMMUNOTHERAPY IN GLIOBLASTOMA

Author

Hiroaki Nagashima, Juri Kiyokawa, Daniel P. Cahill, Ming Li, Ameya R. Kirtane, Giovanni Traverso, and Hiroaki Wakimoto

Subjects

Cancer Research, Tumor microenvironment, business.industry, medicine.medical_treatment, Tumor Microenvironment/Angiogenesis/Metabolism/Invasion, Immunotherapy, medicine.disease, Immune system, Oncology, Cancer research, Medicine, Neurology (clinical), business, NAD salvage pathway, Glioblastoma

Abstract

The aggressive primary brain tumor glioblastoma (GBM) is characterized by aberrant metabolism that fuels its malignant phenotype. Diverse genetic sub-types of malignant glioma are sensitive to selective inhibition of the NAD+ salvage pathway enzyme nicotinamide phosphoribosyltransferase (NAMPT). However, the potential impact of NAD+ depletion on the brain tumor microenvironment has not been elaborated. In addition, systemic toxicity of NAMPT inhibition remains a significant concern. Here, we show that microparticle-mediated intratumoral delivery of NAMPT inhibitor GMX1778 induces specific immunological changes in the tumor microenvironment of murine GBM, characterized by upregulation of immune checkpoint PD-L1, recruitment of CD3+, CD4+ and CD8+ T cells and reduction of M2-polarized immunosuppressive macrophages. NAD+ depletion and autophagy induced by NAMPT inhibitors mediated the upregulation of PD-L1 transcripts and cell surface protein levels in GBM cells. NAMPT inhibitor modulation of the tumor immune microenvironment was therefore combined with PD-1 checkpoint blockade in vivo, significantly increasing the survival of GBM bearing animals. Thus, the therapeutic impacts of NAMPT inhibition extended beyond neoplastic cells, shaping surrounding immune effectors. Microparticle delivery and release of NAMPT inhibitor at the tumor site offers a safe and robust means to alter an immune tumor microenvironment that could potentiate checkpoint immunotherapy for glioblastoma.

Published

2020

241. BIOM-54. A RAPID GENOTYPING PANEL FOR SENSITIVE AND SPECIFIC SEGREGATION OF CNS PATHOLOGIES

Author

Naema Nayyar, Julia Thierauf, Daniel P. Cahill, Priscilla K. Brastianos, Javier Romero, Ryan P. Burns, Ganesh M. Shankar, Kensuke Tateishi, Hetal D. Marble, Evan J. Burns, Jochen K. Lennerz, Jorg Dietrich, Mihir Gupta, Nicholas Zeke Georgantas, and Jose Maria Velarde

Subjects

Genetics, Cancer Research, Intra operative, Time to treatment, Biology, Tissue specimen, MYD88 gene, Oncology, hemic and lymphatic diseases, Radiology Specialty, Brain lesions, Neurology (clinical), Genotyping, Biomarkers, Genotype determination

Abstract

Primary central nervous system lymphoma (PCNSL) remains challenging to diagnose due to nonspecific clinical and radiologic features and low diagnostic yields of cerebrospinal fluid (CSF) studies. We sought to characterize the diagnostic approach of suspected PCNSL, in order to improve clinical workflow. We first reviewed 1,007 new brain lesions of unknown etiology that included PCNSL in the radiologic differential diagnosis. The most common final diagnoses included high-grade glioma (28.2%) and PCNSL (14.6%). Diagnostic biopsies were frequently performed for high-grade glioma (100%) and PCNSL (94.4%), while CSF was frequently sampled for PCNSL (78.7%). We next identified 159 patients with an established new diagnosis of PCNSL. CSF studies were non-diagnostic in 86.7% of cases, whereas biopsy was positive in 93%. However, intraoperative histopathology was inconclusive for PNCSL in 54.5%, likely contributing to 22% of patients undergoing surgical resection. These challenges resulted in 12 days median time to treatment initiation, and readmission for further workup or treatment initiation in 27% of patients. These results indicated the need for a rapid, sensitive and specific platform to segregate PCNSL and glioma using CSF and tissue samples. We developed a qPCR-based assay to genotype the MYD88 L265P hotspot mutation from CSF and plasma within 80 minutes of sample acquisition. Results were concordant with orthogonal DNA sequencing in extracts from 87 archived specimens, with detection limits of 490pg of input genomic DNA and 0.15% mutant allele frequency. When performed simultaneously with assays for TERT promoter, IDH1/2, H3F3A and BRAF point mutations, the resulting panel accurately segregated PCNSL and adult diffuse glioma molecular diagnoses in 87 archived specimens and 19 prospective liquid biopsies, including cases of lymphoma and glioma. We propose that inclusion of targeted analysis of these mutually exclusive recurrent molecular alterations characterizing gliomas and PCNSL will facilitate rapid, sensitive diagnosis from solid and liquid biopsies.

Published

2020

242. Abstract 4729: Identifying genomic drivers of lung adenocarcinoma brain metastases

Author

Megan R. D'Andrea, Tracy T. Batchelor, Naema Nayyar, Ibiayi Dagogo-Jack, Christopher Alvarez-Breckenridge, Michael White, Brandyn A. Castro, Matthew P. Frosch, Sun Hye Park, Daniel P. Cahill, Sandro Santagata, Elizabeth R. Gerstner, Ryan P. Frazier, Ben Kuter, Magali De Sauvage, David Shih, Corey M. Gill, Scott L. Carter, A. John Iafrate, Juan Carlos Martinez-Gutierrez, Anna S. Berghoff, Kaitlin Hoang, Matthew R. Strickland, Alexander Kaplan, Elisa Aquilanti, Ugonma Chukwueke, Darrell R. Borger, Parker H. Merrill, Sun Ha Paek, Matthew Lastrapes, Priscilla K. Brastianos, Deepika Nagabhushan, Mia Bertalan, Matthias Preusser, Ivanna Bihun, and Maria Martinez-Lage

Subjects

Oncology, Cancer Research, medicine.medical_specialty, Lung, business.industry, Sequencing data, Treatment options, Cancer, Tumor cells, medicine.disease, medicine.anatomical_structure, Internal medicine, Medicine, Adenocarcinoma, In patient, business

Abstract

Although lung adenocarcinomas frequently metastasize to the brain, treatment options for lung adenocarcinoma brain metastases (BM-LUAD) are limited. We discovered novel candidate drivers of progression by using case-control analyses to compare whole-exome sequencing data from a cohort of 73 BM-LUAD to a control cohort of 503 primary lung adenocarcinomas. We identified MYC, YAP1 and MMP13 as genomic regions with significantly more frequent amplifications in BM-LUAD compared to control cohort. We validated that MYC, YAP1 and MMP13 can drive brain metastases in a patient-derived xenograft mouse model, where incidence of brain metastases was higher in mice injected with tumor cells expressing the candidate drivers compared to tumor cells expressing LacZ. These results indicate that somatic alterations can drive lung adenocarcinomas to metastasize to the brain. These candidate drivers may serve as therapeutic targets in patients with brain metastatic lung adenocarcinomas. Citation Format: Naema Nayyar, David J. Shih, Ivanna Bihun, Ibiayi Dagogo-Jack, Corey M. Gill, Elisa Aquilanti, Mia Bertalan, Alexander Kaplan, Megan R. D'Andrea, Ugonma Chukwueke, Christopher Alvarez-Breckenridge, Matthew Lastrapes, Ben Kuter, Matthew R. Strickland, Juan Carlos Martinez-Gutierrez, Deepika Nagabhushan, Magali De Sauvage, Michael D. White, Brandyn A. Castro, Kaitlin Hoang, Sun Ha Paek, Sun Hye Park, Maria Martinez-Lage, Anna S. Berghoff, Parker Merrill, Elizabeth R. Gerstner, Tracy T. Batchelor, Matthew P. Frosch, Ryan P. Frazier, Darrell R. Borger, A John Iafrate, Sandro Santagata, Matthias Preusser, Daniel P. Cahill, Scott L. Carter, Priscilla K. Brastianos. Identifying genomic drivers of lung adenocarcinoma brain metastases [abstract]. In: Proceedings of the Annual Meeting of the American Association for Cancer Research 2020; 2020 Apr 27-28 and Jun 22-24. Philadelphia (PA): AACR; Cancer Res 2020;80(16 Suppl):Abstract nr 4729.

Published

2020

243. MMR欠損-TMZ抵抗性神経膠腫細胞に対するPARP阻害剤併用治療によるTMZ抵抗性の克服

Author

Daniel P , Cahill

Published

2020

244. Publisher Correction: Single-arm, open-label phase 2 trial of pembrolizumab in patients with leptomeningeal carcinomatosis

Author

Nancy Wang, Maura Mahar, Christopher Alvarez-Breckenridge, Brian V. Nahed, Tracy T. Batchelor, Daniel P. Cahill, Elizabeth R. Gerstner, Michael White, Sara M. Tolaney, Scott L. Carter, Ian E. Krop, Ugonma Chukwueke, Nan Lin, Megha Subramanian, Anita Giobbie-Hurder, Joana L. Mora, Eudocia Q. Lee, Mia Bertalan, Brian A. Shaw, Priscilla K. Brastianos, Deborah Forst, Donald P. Lawrence, Beverly Moy, Lakshmi Nayak, Justine V. Cohen, Jorg Dietrich, Nathaniel Goss, Naema Nayyar, Kevin S. Oh, Helen A. Shih, Albert H. Kim, and Ryan J. Sullivan

Subjects

medicine.medical_specialty, business.industry, Medicine, In patient, General Medicine, Pembrolizumab, Radiology, Open label, business, General Biochemistry, Genetics and Molecular Biology

Published

2020

245. Advanced imaging to assess longitudinal vascular changes in brain metastases treated with immune checkpoint inhibition

Author

Ugonma Chukwueke, Lakshmi Nayak, Anita Giobbie-Hurder, Priscilla Kaliopi Brastianos, Jayashree Kalpathy-Cramer, Kevin S. Oh, Helen A. Shih, Justine V. Cohen, Daniel P. Cahill, Michael White, Sara M. Tolaney, Beverly Moy, Ken Chang, Albert E. Kim, Nan Lin, Kyrre E. Emblem, D. P. Lawrence, Ryan J. Sullivan, Elizabeth R. Gerstner, and Eudocia Q. Lee

Subjects

Cancer Research, Oncology, business.industry, Immune checkpoint inhibitors, Melanoma, Cancer research, Medicine, business, Lung cancer, medicine.disease, Immune checkpoint

Abstract

2529 Background: Immune checkpoint inhibitors (ICI) have recently been shown to be effective for brain metastases (BM) for melanoma and lung cancer. This breakthrough has prompted interest in evaluating ICI in BM of other histologies. However, accurately assessing intracranial response in patients undergoing ICI is a challenge, as current measures cannot distinguish pseudoprogression from true tumor progression. To shed light on potential biomarkers of response, we prospectively use perfusion MRI to identify characteristic vascular signatures in a BM-specific trial of ICI. Methods: As part of an ongoing phase II study of pembrolizumab for patients with untreated or progressive, previously treated BM from any histology, patients underwent advanced MRI that includes tumor volume measurements and perfusion imaging with dynamic susceptibility contrast MRI. To calculate volumetric radiographic response, all enhancing voxels were summated. A volumetric increase of >40% was categorized as progressive disease (PD), a decrease of >60% as partial response (PR), and stable disease (SD) as between -60% and +40%. Results: 53 patients have been enrolled, of whom 44 have received at least baseline advanced MR imaging. Histologies include 21 with breast cancer, 5 with non-small cell lung cancer, 4 with melanoma, and 13 with other cancers. At baseline, the total number of BM was 1-50+ per patient. Based on summing the entire enhancing intracranial disease burden, best volumetric responses for the 33 evaluable patients include 4 PR, 10 SD, and 19 PD. On preliminary analysis, there was a correlation between increased tumor cerebral blood volume/flow with tumor progression. Correlation of additional vascular physiologic parameters (e.g. vessel caliber, tissue oxygenation) and volumetric response to patient outcome and standardized response criteria (iRANO) are ongoing. Conclusions: Pembrolizumab likely has anti-tumor efficacy in BM. Our data provides potential evidence that effective ICI is associated with a decrease in perfusion. Ongoing analyses to uncover additional vascular changes – specifically longitudinal metrics reflecting vascular structure and function - within BM to ICI are pending. These findings have potential to illustrate mechanisms of efficacy for ICI and biomarkers of response in this patient population.

Published

2020

246. Alliance A071401: Phase II trial of FAK inhibition in meningiomas with somatic NF2 mutations

Author

Alliance A Investigators, Erin Twohy, Thomas Kaley, Daniel P. Cahill, Sandro Santagata, Fred G. Barker, Evanthia Galanis, David Piccioni, Suriya A. Jeyapalan, Elizabeth R. Gerstner, A. John Iafrate, David Schiff, Susan Geyer, Sajeel Chowdhary, Jennie Taylor, Camilo E. Fadul, Andrew B. Lassman, Priscilla Kaliopi Brastianos, Tara Morrison, Timothy J. Kaufmann, and Priya Kumthekar

Subjects

Oncology, Cancer Research, medicine.medical_specialty, business.industry, Somatic cell, Treatment options, Clinical trial, 03 medical and health sciences, 0302 clinical medicine, 030220 oncology & carcinogenesis, Internal medicine, otorhinolaryngologic diseases, medicine, business, 030215 immunology

Abstract

2502 Background: Patients with progressive or recurrent meningiomas have limited treatment options. Clinical trials of systemic therapies for meningiomas have failed to demonstrate benefit. FAK inhibition has a synthetic lethal relationship with NF2 loss. Given the predominance of NF2 mutations in meningiomas, we evaluated the efficacy of GSK2256098, a FAK inhibitor, as part of the first genomically-driven phase II study in recurrent or progressive grade I-III meningiomas. Methods: Eligible patients (pts) whose tumors screened positively for NF2 mutations were treated with GSK2256098 750mg po bid until progressive disease in 2 separate cohorts: grade I or II/III meningiomas. Two co-primary endpoints were used: progression-free survival at 6 months (PFS6) and response rate (RR) by Macdonald criteria; per study design, the trial would be declared positive if either endpoint was met. RR was evaluated across the overall cohort; PFS6 was evaluated within each subgroup. Historical benchmark data was obtained from Kaley et al. Neuro Oncol 2014. In the grade I group, 12 evaluable pts provided >79% power to detect a PFS6 rate >65% (vs. null hypothesis of 25%; alpha=0.014). In the grade II/III group, 24 evaluable pts provided >85% power to detect a PFS6 >41.5% (vs. null 15%; alpha=0.02). The threshold for promising results for PFS6 was: 7+/12(grade I) and 8+/24(grade II/III) pts. For RR, 36 evaluable pts provided >94% power to detect RR >20% (vs. null 2.5%; alpha= 0.012). Results: Of 322 pts screened for all mutation cohorts of the study, 36 eligible and evaluable pts with NF2 mutations were enrolled. Across all grades, one pt had a partial response and 24 had stable disease as best response to treatment. In Grade I pts, the observed PFS6 rate was 83% (10/12 pts; 95% CI: 52-98%). In Grade II/III pts, the observed PFS6 rate was 33% (8/24 pts; 95% CI: 16-55%). The study met PFS6 efficacy endpoint both for the Grade I and the Grade II/III cohorts. Treatment was well tolerated. Only 7 patients had a maximum grade-3 adverse event that was at least possibly related to treatment; toxicities across these pts included: proteinuria (2), rash (1), pain (1), ALT (1), AST (1), cholecystitis (1), hypertriglyceridemia (1), apraxia (1), and lymphopenia (1) with no grade 4 or 5 events. Conclusions: GSK2256098 had excellent tolerability andresulted in an improved PFS6 rate in pts with recurrent or progressive NF2-mutated meningiomas. Trial endpoint was met. FAK inhibition warrants further evaluation in this patient population. Support: U10CA180821, U10CA180882; https://acknowledgments.alliancefound.org Clinical trial information: NCT02523014 .

Published

2020

247. Extent of Resection Versus Molecular Classification: What Matters When?

Author

Victoria E, Clark and Daniel P, Cahill

Subjects

Treatment Outcome, Brain Neoplasms, Quality of Life, Humans, Glioma, Neoplasm Grading, Neurosurgical Procedures

Abstract

For malignant gliomas, the survival benefit of new combination therapies after surgical resection is measured in weeks to months. In contrast, optimizing treatment for low-grade gliomas can potentially provide additional years of life. The relatively indolent but not benign clinical course provides the opportunity for clinicians and scientists to focus not only on the duration of survival, but also to maximize quality of life. Ideal management of low-grade gliomas among the most important yet paradoxically most neglected subjects in neuro-oncology. This article examines the molecular underpinnings of these tumors and evaluates the role of extensive surgery in maximizing outcomes.

Published

2018

248. TERT promoter wild-type glioblastomas show distinct clinical features and frequent PI3K pathway mutations

Author

Tristan Penson, Julie J. Miller, Daniel P. Cahill, Tareq A. Juratli, Shilpa S. Tummala, A. John Iafrate, and Erik A. Williams

Subjects

0301 basic medicine, Male, ARID1A, lcsh:RC346-429, Cohort Studies, Phosphatidylinositol 3-Kinases, 0302 clinical medicine, Cerebellum, SMARCB1, BAF complex, Promoter Regions, Genetic, DNA Modification Methylases, Telomerase, Aged, 80 and over, Brain Neoplasms, Glioma, Middle Aged, Isocitrate Dehydrogenase, 3. Good health, Gene Expression Regulation, Neoplastic, SMARCA4, TERT promoter, IDH1, Female, Signal Transduction, Adult, Adolescent, Biology, Pathology and Forensic Medicine, 03 medical and health sciences, Cellular and Molecular Neuroscience, Young Adult, medicine, Humans, Gene, neoplasms, lcsh:Neurology. Diseases of the nervous system, ATRX, Aged, Research, Tumor Suppressor Proteins, Wild type, medicine.disease, nervous system diseases, PI3K pathway, 030104 developmental biology, DNA Repair Enzymes, Mutation, Cancer research, Neurology (clinical), Glioblastoma, H3F3A, 030217 neurology & neurosurgery

Abstract

TERT promoter (TERTp) mutations are found in the majority of World Health Organization (WHO) grade IV adult IDH wild-type glioblastoma (IDH-wt GBM). Here, we characterized the subset of IDH-wt GBMs that do not have TERTp mutations. In a cohort of 121 adult grade IV gliomas, we identified 109 IDH-wt GBMs, after excluding 11 IDH-mutant cases and one H3F3A -mutant case. Within the IDH-wt cases, 16 cases (14.7%) were TERTp wild-type (TERTp-wt). None of the 16 had BRAF V600E or H3F3A G34 hotspot mutations. When compared to TERTp mutants, patients with TERTp-wt GBMs, were significantly younger at first diagnosis (53.2 years vs. 60.7 years, p = 0.0096), and were more frequently found to have cerebellar location (p = 0.0027). Notably, 9 of 16 (56%) of TERTp-wt GBMs contained a PIK3CA or PIK3R1 mutation, while only 16/93 (17%) of TERTp-mutant GBMs harbored these alterations (p = 0.0018). As expected, 8/16 (50%) of TERTp-wt GBMs harbored mutations in the BAF complex gene family (ATRX, SMARCA4, SMARCB1, and ARID1A), compared with only 8/93 (9%) of TERTp-mutant GBMs (p = 0.0003). Mutations in BAF complex and PI3K pathway genes co-occurred more frequently in TERTp-wt GBMs (p = 0.0002), an association that has been observed in other cancers, suggesting a functional interaction indicative of a distinct pathway of gliomagenesis. Overall, our finding highlights heterogeneity within WHO-defined IDH wild-type GBMs and enrichment of the TERTp-wt subset for BAF/PI3K-altered tumors, potentially comprising a distinct clinical subtype of gliomas. Electronic supplementary material The online version of this article (10.1186/s40478-018-0613-2) contains supplementary material, which is available to authorized users.

Published

2018

249. Receptor tyrosine kinase gene amplification is predictive of intraoperative seizures during glioma resection with functional mapping

Author

Jimmy C. Yang, Bryan D. Choi, Daniel P. Cahill, Reiner B. See, Pamela S. Jones, Mirela V. Simon, Douglas Maus, Caroline M. Ayinon, Bob S. Carter, Christine K. Lee, William T. Curry, Fred G. Barker, Daniel K. Lee, and Brian V. Nahed

Subjects

Oncology, medicine.medical_specialty, Univariate analysis, business.industry, medicine.medical_treatment, Retrospective cohort study, PDGFRA, medicine.disease_cause, medicine.disease, 03 medical and health sciences, Epilepsy, 0302 clinical medicine, 030220 oncology & carcinogenesis, Internal medicine, Glioma, medicine, KRAS, business, Complication, 030217 neurology & neurosurgery, Craniotomy

Abstract

OBJECTIVEIntraoperative seizures during craniotomy with functional mapping is a common complication that impedes optimal tumor resection and results in significant morbidity. The relationship between genetic mutations in gliomas and the incidence of intraoperative seizures has not been well characterized. Here, the authors performed a retrospective study of patients treated at their institution over the last 12 years to determine whether molecular data can be used to predict the incidence of this complication.METHODSThe authors queried their institutional database for patients with brain tumors who underwent resection with intraoperative functional mapping between 2005 and 2017. Basic clinicopathological characteristics, including the status of the following genes, were recorded: IDH1/2, PIK3CA, BRAF, KRAS, AKT1, EGFR, PDGFRA, MET, MGMT, and 1p/19q. Relationships between gene alterations and intraoperative seizures were evaluated using chi-square and two-sample t-test univariate analysis. When considering multiple predictive factors, a logistic multivariate approach was taken.RESULTSOverall, 416 patients met criteria for inclusion; of these patients, 98 (24%) experienced an intraoperative seizure. Patients with a history of preoperative seizure and those treated with antiepileptic drugs prior to surgery were less likely to have intraoperative seizures (history: OR 0.61 [95% CI 0.38–0.96], chi-square = 4.65, p = 0.03; AED load: OR 0.46 [95% CI 0.26–0.80], chi-square = 7.64, p = 0.01). In a univariate analysis of genetic markers, amplification of genes encoding receptor tyrosine kinases (RTKs) was specifically identified as a positive predictor of seizures (OR 5.47 [95% CI 1.22–24.47], chi-square = 5.98, p = 0.01). In multivariate analyses considering RTK status, AED use, and either 2007 WHO tumor grade or modern 2016 WHO tumor groups, the authors found that amplification of the RTK proto-oncogene, MET, was most predictive of intraoperative seizure (p < 0.05).CONCLUSIONSThis study describes a previously unreported association between genetic alterations in RTKs and the occurrence of intraoperative seizures during glioma resection with functional mapping. Future models estimating intraoperative seizure risk may be enhanced by inclusion of genetic criteria.

Published

2018

250. Factors that modify the risk of intraoperative seizures triggered by electrical stimulation during supratentorial functional mapping

Author

Brian V. Nahed, Mirela V. Simon, Daniel P. Cahill, Douglas Maus, Bob S. Carter, Reiner B. See, Jennifer Dineen, Pamela S. Jones, Robert A. Peterfreund, William T. Curry, and Iryna Muzyka

Subjects

Adult, Male, Intraoperative Neurophysiological Monitoring, Stimulation, Logistic regression, 050105 experimental psychology, 03 medical and health sciences, Epilepsy, 0302 clinical medicine, Eloquent cortex, Risk Factors, Seizures, Physiology (medical), Medicine, Humans, 0501 psychology and cognitive sciences, Intraoperative Complications, Brain tumor surgery, Retrospective Studies, Brain Mapping, business.industry, 05 social sciences, Gold standard, Brain, Middle Aged, medicine.disease, Sensory Systems, Electric Stimulation, Functional mapping, Neurology, Opioid, Anesthesia, Female, Neurology (clinical), business, 030217 neurology & neurosurgery, medicine.drug

Abstract

Objective Intraoperative mapping via electrical stimulation is the gold standard technique for surgeries close to the eloquent cortex. However, it can trigger seizures which immediately impact patient’s safety. We studied whether administration of antiepileptic drugs (AED) prior to and/or at the beginning of the surgery decreases the probability of triggering seizures, while adjusting for other risk factors. Methods 544 consecutive intraoperative mapping cases performed at a tertiary care center for epilepsy and brain tumor surgery were included in the study. Using a multivariate logistic regression analysis, we analyzed the independent impacts of AED loading at time of surgery, preoperative AED maintenance, history of seizures, type of stimulation paradigm, lobar location of stimulation, age, opioid administration and pathology on the probability of triggering seizures. Results Seizures were identified in 135 patients. Intravenous loading with AED decreased the odds of triggering seizures by 45% (OR = 0.55, p = 0.01), Penfield (versus multipulse train) stimulation and diffuse (versus well circumscribed) pathology increased it twice (OR = 1.97, p = 0.01) and 2.4 times (OR = 2.42, p = 0.003) respectively. No other factors had a significant impact. Conclusions Seizures triggered during mapping occur frequently and are multifactorial. Significance Loading with AED independently reduces the risk of their occurrence.

Published

2018