Your search keyword '"Trevor J Pugh"' showing total 631 results

51. Supplementary Table S1 from CD8+ Tumor-Infiltrating Lymphocyte Abundance Is a Positive Prognostic Indicator in Nasopharyngeal Cancer

Author

Fei-Fei Liu, Kenneth W. Yip, Trevor J. Pugh, John Waldron, Angela B.Y. Hui, Pierre-Antoine Bissey, Rachel Bell, Wei Xu, Jie Su, Jeff P. Bruce, Mackenzie Fijardo, and Wei Shi

Abstract

Table S1: Patient Radiotherapy Information and Multivariate Analysis.

Published

2023

52. Supplementary Figures S1-S5 from CD8+ Tumor-Infiltrating Lymphocyte Abundance Is a Positive Prognostic Indicator in Nasopharyngeal Cancer

Author

Fei-Fei Liu, Kenneth W. Yip, Trevor J. Pugh, John Waldron, Angela B.Y. Hui, Pierre-Antoine Bissey, Rachel Bell, Wei Xu, Jie Su, Jeff P. Bruce, Mackenzie Fijardo, and Wei Shi

Abstract

Table S1: Patient Radiotherapy Information and Multivariate Analysis. Figure S1: Workflow of evaluation of T cell receptor (TCR) rearrangement and ESTIMATE immune score from RNA-sequencing data, and the expression of tumor-infiltrating lymphocytes (TILs) in NPC patients. Figure S2: The correlation of ESTIMATE immune score with rearranged TCR reads and CD8+ TILs. Figure S3: The correlation of CIBERSORT and TIMER 2.0 with rearranged TCR reads and CD8+ TILs. Figure S4: The distribution of TILs in NPC samples. Figure S5: Clinical impact of CD8+ TILs in the combined cohort of NPC patients.

Published

2023

53. Data from CD8+ Tumor-Infiltrating Lymphocyte Abundance Is a Positive Prognostic Indicator in Nasopharyngeal Cancer

Author

Fei-Fei Liu, Kenneth W. Yip, Trevor J. Pugh, John Waldron, Angela B.Y. Hui, Pierre-Antoine Bissey, Rachel Bell, Wei Xu, Jie Su, Jeff P. Bruce, Mackenzie Fijardo, and Wei Shi

Abstract

Purpose:Tumor-infiltrating lymphocytes (TIL) are immune cell populations found within tumors, critical in the antigen-specific host immune response. In this study, we aimed to elucidate the prognostic significance of CD3+, CD4+, and CD8+ TILs in nasopharyngeal cancer (NPC).Experimental Design:Immune cell infiltration was quantified in NPC samples (n = 50) using RNA-sequencing (RNA-seq) data based on rearranged T-cell receptor (TCR) reads and the Estimation of Stromal and Immune cells in malignant tumors using expression data (ESTIMATE) immune score tool. The differential abundances of TIL subset populations were also characterized through IHC staining of formalin-fixed, paraffin-embedded samples from a training cohort (n = 35), which was a subset of the RNA-seq cohort (n = 50).Results:In the RNA-seq cohort, patients with higher rearranged TCR reads experienced superior 5- and 10-year overall survival (OS; P < 0.001), and disease-free survival (DFS; P < 0.001). Similarly, patients with higher ESTIMATE immune scores experienced superior 5- and 10-year OS (P = 0.024) and DFS (P = 0.007). In the training cohort, high abundances of CD8+ TILs were significantly associated with improved 5- and 10-year OS (P = 0.003) and DFS (P = 0.005). These findings were corroborated in an independent validation cohort (n = 84), and combined analysis of the training and validation cohorts [n = 119 (35+84)], which further demonstrated improved 5- and 10-year survival in terms of locoregional control (P < 0.001) and distant metastasis (P = 0.03).Conclusions:Taken together, our study highlights the prognostic value of CD8+ TILs in NPC, and the potential of future investigations into cellular-based immunotherapies employing CD8+ lymphocytes.

Published

2023

54. Supplemental Tables from Regulatory T Cells in Ovarian Cancer Are Characterized by a Highly Activated Phenotype Distinct from that in Melanoma

Author

Pamela S. Ohashi, Marcus Q. Bernardini, Trevor J. Pugh, Cynthia J. Guidos, Michael Reedijk, David R. McCready, Wey L. Leong, Alexandra Easson, Ayman Al-Habeeb, Danny Ghazarian, Blaise A. Clarke, Patricia A. Shaw, Sarah Rachel Katz, S.Y. Cindy Yang, Simone C. Stone, Linh T. Nguyen, and Aras Toker

Abstract

Supplemental Table 1: Patient clinical and specimen information. NOS, not otherwise specified; FC, flow cytometry; FA, functional assay; Bisu, bisulfilte sequencing Supplemental Table 2: Genes differentially expressed in intratumoral PD-1intICOS-hi cells, compared to PD-1hiICOSint and PD 1-ICOS-. Supplemental Table 3: Markers and antibodies used for mass cytometry.

Published

2023

55. Figure S6 from Regulatory T Cells in Ovarian Cancer Are Characterized by a Highly Activated Phenotype Distinct from that in Melanoma

Author

Pamela S. Ohashi, Marcus Q. Bernardini, Trevor J. Pugh, Cynthia J. Guidos, Michael Reedijk, David R. McCready, Wey L. Leong, Alexandra Easson, Ayman Al-Habeeb, Danny Ghazarian, Blaise A. Clarke, Patricia A. Shaw, Sarah Rachel Katz, S.Y. Cindy Yang, Simone C. Stone, Linh T. Nguyen, and Aras Toker

Abstract

Analysis of PD-1 expression by CD8 T cells

Published

2023

56. Supplementary Appendix from Neoadjuvant and Adjuvant Pembrolizumab in Resectable Locally Advanced, Human Papillomavirus–Unrelated Head and Neck Cancer: A Multicenter, Phase II Trial

Author

Douglas R. Adkins, Obi L. Griffith, Malachi Griffith, Rebecca D. Chernock, Jay F. Piccirillo, Dorina Kallogjeri, Ian S. Hagemann, Scott J. Rodig, Mackenzie Daly, Hiram A. Gay, Wade Thorstad, Ana Lako, Evisa Gjini, Jonathan D. Schoenfeld, Robert Haddad, Jason Kass, Glenn J. Hanna, Matthew D. Stachler, Vickie Y. Jo, Liye Zhou, Rachel Riley, Tenny Mudianto, Trevor J. Pugh, Iulia Cirlan, Youstina Hanna, David T. Mulder, Tiantian Li, Tianxiang Lin, Nicholas C. Spies, Erica K. Barnell, Gavin P. Dunn, Peter Oppelt, Jessica Ley, Loren S. Michel, Patrik Pipkorn, Ryan Jackson, Jason T. Rich, Randal C. Paniello, Brian Nussenbaum, Zachary L. Skidmore, Paul Zolkind, Ann Marie Egloff, Katie M. Campbell, and Ravindra Uppaluri

Abstract

supplementary appendix

Published

2023

57. Data from Integrative and Comparative Genomic Analysis of HPV-Positive and HPV-Negative Head and Neck Squamous Cell Carcinomas

Author

Peter S. Hammerman, Kevin P. White, Everett E. Vokes, Ezra E.W. Cohen, Mark W. Lingen, Kerstin Stenson, Elizabeth Blair, Louis Portugal, Alexander Langerman, Ralph R. Weichselbaum, Rebecca DeBoer, Johannes Brägelmann, Gad Getz, Michael S. Lawrence, Juok Cho, Petar Stojanov, Trevor J. Pugh, Christopher Brown, Thomas Stricker, Chandra S. Pedamallu, Arun Khattri, Michaela K. Keck, Zhixiang Zuo, and Tanguy Y. Seiwert

Abstract

Purpose: The genetic differences between human papilloma virus (HPV)–positive and –negative head and neck squamous cell carcinomas (HNSCC) remain largely unknown. To identify differential biology and novel therapeutic targets for both entities, we determined mutations and copy-number aberrations in a large cohort of locoregionally advanced HNSCC.Experimental Design: We performed massively parallel sequencing of 617 cancer-associated genes in 120 matched tumor/normal samples (42.5% HPV-positive). Mutations and copy-number aberrations were determined and results validated with a secondary method.Results: The overall mutational burden in HPV-negative and HPV-positive HNSCC was similar with an average of 15.2 versus 14.4 somatic exonic mutations in the targeted cancer-associated genes. HPV-negative tumors showed a mutational spectrum concordant with published lung squamous cell carcinoma analyses with enrichment for mutations in TP53, CDKN2A, MLL2, CUL3, NSD1, PIK3CA, and NOTCH genes. HPV-positive tumors showed unique mutations in DDX3X, FGFR2/3 and aberrations in PIK3CA, KRAS, MLL2/3, and NOTCH1 were enriched in HPV-positive tumors. Currently targetable genomic alterations were identified in FGFR1, DDR2, EGFR, FGFR2/3, EPHA2, and PIK3CA. EGFR, CCND1, and FGFR1 amplifications occurred in HPV-negative tumors, whereas 17.6% of HPV-positive tumors harbored mutations in fibroblast growth factor receptor genes (FGFR2/3), including six recurrent FGFR3 S249C mutations. HPV-positive tumors showed a 5.8% incidence of KRAS mutations, and DNA-repair gene aberrations, including 7.8% BRCA1/2 mutations, were identified.Conclusions: The mutational makeup of HPV-positive and HPV-negative HNSCC differs significantly, including targetable genes. HNSCC harbors multiple therapeutically important genetic aberrations, including frequent aberrations in the FGFR and PI3K pathway genes. Clin Cancer Res; 21(3); 632–41. ©2014 AACR.See related commentary by Krigsfeld and Chung, p. 495

Published

2023

58. Data from Sequence Variant Discovery in DNA Repair Genes from Radiosensitive and Radiotolerant Prostate Brachytherapy Patients

Author

Richard A. Moore, Marco A. Marra, Peggy L. Olive, W. Jim Morris, Michael McKenzie, Alexander Agranovich, Cindy Yang, Karen Novik, Dallas Thomas, Martin Krzywinski, Allen Delaney, Lorena Barclay, Mira Keyes, and Trevor J. Pugh

Abstract

Purpose: The presence of intrinsic radiosensitivity within prostate cancer patients may be an important factor contributing to development of radiation toxicity. We investigated whether variants in genes responsible for detecting and repairing DNA damage independently contribute to toxicity following prostate brachytherapy.Experimental Design: Genomic DNA was extracted from blood samples of 41 prostate brachytherapy patients, 21 with high and 20 with low late toxicity scores. For each patient, 242 PCR amplicons were generated containing 173 exons of eight candidate genes: ATM, BRCA1, ERCC2, H2AFX, LIG4, MDC1, MRE11A, and RAD50. These amplicons were sequenced and all sequence variants were subjected to statistical analysis to identify those associated with late radiation toxicity.Results: Across 41 patients, 239 sites differed from the human genome reference sequence; 170 of these corresponded to known polymorphisms. Sixty variants, 14 of them novel, affected protein coding regions and 43 of these were missense mutations. In our patient population, the high toxicity group was enriched for individuals with at least one LIG4 coding variant (P = 0.028). One synonymous variant in MDC1, rs28986317, was associated with increased radiosensitivity (P = 0.048). A missense variant in ATM, rs1800057, associated with increased prostate cancer risk, was found exclusively in two high toxicity patients but did not reach statistical significance for association with radiosensitivity (P = 0.488).Conclusions: Our data revealed new germ-line sequence variants, indicating that existing sequence databases do not fully represent the full extent of sequence variation. Variants in three DNA repair genes were linked to increased radiosensitivity but require validation in larger populations.

Published

2023

59. Supplementary Figure 10 from Neoadjuvant and Adjuvant Pembrolizumab in Resectable Locally Advanced, Human Papillomavirus–Unrelated Head and Neck Cancer: A Multicenter, Phase II Trial

Author

Douglas R. Adkins, Obi L. Griffith, Malachi Griffith, Rebecca D. Chernock, Jay F. Piccirillo, Dorina Kallogjeri, Ian S. Hagemann, Scott J. Rodig, Mackenzie Daly, Hiram A. Gay, Wade Thorstad, Ana Lako, Evisa Gjini, Jonathan D. Schoenfeld, Robert Haddad, Jason Kass, Glenn J. Hanna, Matthew D. Stachler, Vickie Y. Jo, Liye Zhou, Rachel Riley, Tenny Mudianto, Trevor J. Pugh, Iulia Cirlan, Youstina Hanna, David T. Mulder, Tiantian Li, Tianxiang Lin, Nicholas C. Spies, Erica K. Barnell, Gavin P. Dunn, Peter Oppelt, Jessica Ley, Loren S. Michel, Patrik Pipkorn, Ryan Jackson, Jason T. Rich, Randal C. Paniello, Brian Nussenbaum, Zachary L. Skidmore, Paul Zolkind, Ann Marie Egloff, Katie M. Campbell, and Ravindra Uppaluri

Abstract

Supplementary Figure

Published

2023

60. Supplementary Figure 4 from Neoadjuvant and Adjuvant Pembrolizumab in Resectable Locally Advanced, Human Papillomavirus–Unrelated Head and Neck Cancer: A Multicenter, Phase II Trial

Author

Douglas R. Adkins, Obi L. Griffith, Malachi Griffith, Rebecca D. Chernock, Jay F. Piccirillo, Dorina Kallogjeri, Ian S. Hagemann, Scott J. Rodig, Mackenzie Daly, Hiram A. Gay, Wade Thorstad, Ana Lako, Evisa Gjini, Jonathan D. Schoenfeld, Robert Haddad, Jason Kass, Glenn J. Hanna, Matthew D. Stachler, Vickie Y. Jo, Liye Zhou, Rachel Riley, Tenny Mudianto, Trevor J. Pugh, Iulia Cirlan, Youstina Hanna, David T. Mulder, Tiantian Li, Tianxiang Lin, Nicholas C. Spies, Erica K. Barnell, Gavin P. Dunn, Peter Oppelt, Jessica Ley, Loren S. Michel, Patrik Pipkorn, Ryan Jackson, Jason T. Rich, Randal C. Paniello, Brian Nussenbaum, Zachary L. Skidmore, Paul Zolkind, Ann Marie Egloff, Katie M. Campbell, and Ravindra Uppaluri

Abstract

Supplementary Figure

Published

2023

61. Supplementary Figures S1-S10 from Genomic Profiling of a Large Set of Diverse Pediatric Cancers Identifies Known and Novel Mutations across Tumor Spectra

Author

Doron Lipson, Jack F. Shern, Trevor J. Pugh, Soheil Meshinchi, John M. Maris, Katherine A. Janeway, Philip J. Stephens, Vincent A. Miller, Blair Glanville, Alexis Germain, Vinny Faso, Hilary Davies, Joana Buxhaku, Jeffrey S. Ross, Rachel L. Erlich, Laurie Gay, Siraj Ali, Daniel Spritz, Samantha Morley, James X. Sun, Garrett M. Frampton, James Suh, Shakti Ramkissoon, Jo-Anne Vergilio, Julia Elvin, Jie He, Mark Bailey, and Juliann Chmielecki

Abstract

Long tail distribution of the top 50 altered genes in pediatric sarcoma (S1); Long tail distribution of the top 50 altered genes in pediatric extracranial embryonal tumors (S2); Long tail distribution of the top 50 altered genes in pediatric brain tumors (S3); Long tail distribution of the top 50 altered genes in pediatric heme malignancies (S4); Long tail distribution of the top 50 altered genes in pediatric carcinomas (S5); Long tail distribution of the top 50 altered genes in pediatric gonadal tumors (S6); Known fusions identified in the pediatric cohort (S7); Tileplots showing the pattern of co-occurring alterations with novel MLL3 mutations (S8); Tileplot showing the pattern of co-occurring alterations with a novel PRSS1 mutation (S9); Tileplot showing the pattern of co-occurring alterations with novel DKC1 deletions (S10).

Published

2023

62. Data from Brain Tumor Stem Cell Dependence on Glutaminase Reveals a Metabolic Vulnerability through the Amino Acid Deprivation Response Pathway

Author

Samuel Weiss, H. Artee Luchman, Trevor J. Pugh, Laura M. Richards, Orsolya Cseh, and Ian J. Restall

Abstract

Cancer cells can metabolize glutamine to replenish TCA cycle intermediates, leading to a dependence on glutaminolysis for cell survival. However, a mechanistic understanding of the role that glutamine metabolism has on the survival of glioblastoma (GBM) brain tumor stem cells (BTSC) has not yet been elucidated. Here, we report that across a panel of 19 GBM BTSC lines, inhibition of glutaminase (GLS) showed a variable response from complete blockade of cell growth to absolute resistance. Surprisingly, BTSC sensitivity to GLS inhibition was a result of reduced intracellular glutamate triggering the amino acid deprivation response (AADR) and not due to the contribution of glutaminolysis to the TCA cycle. Moreover, BTSC sensitivity to GLS inhibition negatively correlated with expression of the astrocytic glutamate transporters EAAT1 and EAAT2. Blocking glutamate transport in BTSCs with high EAAT1/EAAT2 expression rendered cells susceptible to GLS inhibition, triggering the AADR and limiting cell growth. These findings uncover a unique metabolic vulnerability in BTSCs and support the therapeutic targeting of upstream activators and downstream effectors of the AADR pathway in GBM. Moreover, they demonstrate that gene expression patterns reflecting the cellular hierarchy of the tissue of origin can alter the metabolic requirements of the cancer stem cell population.Significance:Glioblastoma brain tumor stem cells with low astrocytic glutamate transporter expression are dependent on GLS to maintain intracellular glutamate to prevent the amino acid deprivation response and cell death.

Published

2023

63. Supplementary Figure 3 from Neoadjuvant and Adjuvant Pembrolizumab in Resectable Locally Advanced, Human Papillomavirus–Unrelated Head and Neck Cancer: A Multicenter, Phase II Trial

Author

Douglas R. Adkins, Obi L. Griffith, Malachi Griffith, Rebecca D. Chernock, Jay F. Piccirillo, Dorina Kallogjeri, Ian S. Hagemann, Scott J. Rodig, Mackenzie Daly, Hiram A. Gay, Wade Thorstad, Ana Lako, Evisa Gjini, Jonathan D. Schoenfeld, Robert Haddad, Jason Kass, Glenn J. Hanna, Matthew D. Stachler, Vickie Y. Jo, Liye Zhou, Rachel Riley, Tenny Mudianto, Trevor J. Pugh, Iulia Cirlan, Youstina Hanna, David T. Mulder, Tiantian Li, Tianxiang Lin, Nicholas C. Spies, Erica K. Barnell, Gavin P. Dunn, Peter Oppelt, Jessica Ley, Loren S. Michel, Patrik Pipkorn, Ryan Jackson, Jason T. Rich, Randal C. Paniello, Brian Nussenbaum, Zachary L. Skidmore, Paul Zolkind, Ann Marie Egloff, Katie M. Campbell, and Ravindra Uppaluri

Abstract

Supplementary Figure

Published

2023

64. Data from EVOLVE: A Multicenter Open-Label Single-Arm Clinical and Translational Phase II Trial of Cediranib Plus Olaparib for Ovarian Cancer after PARP Inhibition Progression

Author

Amit M. Oza, Trevor J. Pugh, Zhihui (Amy) Liu, Yeh Chen Lee, Lorena Fariñas-Madrid, Tiantiam Li, Stephanie Pedersen, Iulia Cirlan, Katherine Karakasis, Marsela Braunstein, Qian Tan, Sarah Accardi, Justin White, Valerie Bowering, Neesha C. Dhani, Ainhoa Madariaga, Jeffrey P. Bruce, Swati Garg, Ana Oaknin, and Stephanie Lheureux

Abstract

Purpose:PARP inhibitors (PARPi) are standard-of-care therapy for high-grade serous ovarian cancer (HGSOC). We investigated combining cediranib (antiangiogenic) with olaparib (PARPi) at emergence of PARPi resistance.Patients and Methods:The proof-of-concept EVOLVE study (NCT02681237) assessed cediranib–olaparib combination therapy after progression on a PARPi. Women with HGSOC and radiographic evidence of disease progression were enrolled into one of three cohorts: platinum sensitive after PARPi; platinum resistant after PARPi; or progression on standard chemotherapy after progression on PARPi (exploratory cohort). Patients received olaparib tablets 300 mg twice daily with cediranib 20 mg once daily until progression or unacceptable toxicity. The coprimary endpoints were objective response rate (RECIST v1.1) and progression-free survival (PFS) at 16 weeks. Archival tissue (PARPi-naïve) and baseline biopsy (post-PARPi) samples were mandatory. Genomic mechanisms of resistance were assessed by whole-exome and RNA sequencing.Results:Among 34 heavily pretreated patients, objective responses were observed in 0 of 11 (0%) platinum-sensitive patients, 2 of 10 (20%) platinum-resistant patients, and 1 of 13 (8%) in the exploratory cohort. Sixteen-week PFS rates were 55%, 50%, and 39%, respectively. The most common grade 3 toxicities were diarrhea (12%) and anemia (9%). Acquired genomic alterations at PARPi progression were reversion mutations in BRCA1, BRCA2, or RAD51B (19%); CCNE1 amplification (16%); ABCB1 upregulation (15%); and SLFN11 downregulation (7%). Patients with reversion mutations in homologous recombination genes and/or ABCB1 upregulation had poor outcomes.Conclusions:This is currently the largest post-PARPi study identifying genomic mechanisms of resistance to PARPis. In this setting, the activity of cediranib–olaparib varied according to the PARPi resistance mechanism.

Published

2023

65. Data from Neoadjuvant and Adjuvant Pembrolizumab in Resectable Locally Advanced, Human Papillomavirus–Unrelated Head and Neck Cancer: A Multicenter, Phase II Trial

Author

Douglas R. Adkins, Obi L. Griffith, Malachi Griffith, Rebecca D. Chernock, Jay F. Piccirillo, Dorina Kallogjeri, Ian S. Hagemann, Scott J. Rodig, Mackenzie Daly, Hiram A. Gay, Wade Thorstad, Ana Lako, Evisa Gjini, Jonathan D. Schoenfeld, Robert Haddad, Jason Kass, Glenn J. Hanna, Matthew D. Stachler, Vickie Y. Jo, Liye Zhou, Rachel Riley, Tenny Mudianto, Trevor J. Pugh, Iulia Cirlan, Youstina Hanna, David T. Mulder, Tiantian Li, Tianxiang Lin, Nicholas C. Spies, Erica K. Barnell, Gavin P. Dunn, Peter Oppelt, Jessica Ley, Loren S. Michel, Patrik Pipkorn, Ryan Jackson, Jason T. Rich, Randal C. Paniello, Brian Nussenbaum, Zachary L. Skidmore, Paul Zolkind, Ann Marie Egloff, Katie M. Campbell, and Ravindra Uppaluri

Abstract

Purpose:Pembrolizumab improved survival in patients with recurrent or metastatic head and neck squamous-cell carcinoma (HNSCC). The aims of this study were to determine if pembrolizumab would be safe, result in pathologic tumor response (pTR), and lower the relapse rate in patients with resectable human papillomavirus (HPV)–unrelated HNSCC.Patients and Methods:Neoadjuvant pembrolizumab (200 mg) was administered and followed 2 to 3 weeks later by surgical tumor ablation. Postoperative (chemo)radiation was planned. Patients with high-risk pathology (positive margins and/or extranodal extension) received adjuvant pembrolizumab. pTR was quantified as the proportion of the resection bed with tumor necrosis, keratinous debris, and giant cells/histiocytes: pTR-0 (Results:Thirty-six patients enrolled. After neoadjuvant pembrolizumab, serious (grades 3–4) adverse events and unexpected surgical delays/complications did not occur. pTR-2 occurred in eight patients (22%), and pTR-1 in eight other patients (22%). One-year relapse rate among 18 patients with high-risk pathology was 16.7% (95% confidence interval, 3.6%–41.4%). pTR ≥10% correlated with baseline tumor PD-L1, immune infiltrate, and IFNγ activity. Matched samples showed upregulation of inhibitory checkpoints in patients with pTR-0 and confirmed clonal loss in some patients.Conclusions:Among patients with locally advanced, HPV-unrelated HNSCC, pembrolizumab was safe, and any pathologic response was observed in 44% of patients with 0% pathologic complete responses. The 1-year relapse rate in patients with high-risk pathology was lower than historical.

Published

2023

66. Supplementary Tables S1-S7 from Genomic Profiling of a Large Set of Diverse Pediatric Cancers Identifies Known and Novel Mutations across Tumor Spectra

Author

Doron Lipson, Jack F. Shern, Trevor J. Pugh, Soheil Meshinchi, John M. Maris, Katherine A. Janeway, Philip J. Stephens, Vincent A. Miller, Blair Glanville, Alexis Germain, Vinny Faso, Hilary Davies, Joana Buxhaku, Jeffrey S. Ross, Rachel L. Erlich, Laurie Gay, Siraj Ali, Daniel Spritz, Samantha Morley, James X. Sun, Garrett M. Frampton, James Suh, Shakti Ramkissoon, Jo-Anne Vergilio, Julia Elvin, Jie He, Mark Bailey, and Juliann Chmielecki

Abstract

Gene lists for Version 1 of the FoundationOne Assay (S1); Gene lists for Version 2 of the FoundationOne Assay (S2); Gene lists for Version 3 of the FoundationOne Assay (S3); Gene lists for Version 4 of the FoundationOne Assay (S4); Gene lists for Version 5 of the FoundationOne Assay (S5); Distribution of samples across different FoundationOne assays (S6); Filtered variants of unknown significance (S7).

Published

2023

67. Supplementary File 2 from Intratumoral Genetic and Functional Heterogeneity in Pediatric Glioblastoma

Author

Marco Gallo, A. Sorana Morrissy, Jennifer A. Chan, Benjamin D. Simons, Donna L. Senger, Stephen Scherer, Adam C. Resnick, Lucie Lafay-Cousin, Douglas Strother, Peter B. Dirks, Trevor J. Pugh, Michael D. Taylor, Marco A. Marra, Richard Moore, Andrew J. Mungall, Yussanne Ma, Betty Luu, Yuankun Zhu, Fiona J. Coutinho, Michelle M. Kushida, Florence M.G. Cavalli, Ngoc Ha Dang, Katrina Ellestad, Jennifer King, Mehdi Zarrei, Kiran Narta, Ana Nikolic, Michael J. Johnston, Daniel J. Kunz, Aaron H. Gillmor, and Mary Hoffman

Abstract

Summary of genomic variants.

Published

2023

68. Supplementary Figure 5 from Neoadjuvant and Adjuvant Pembrolizumab in Resectable Locally Advanced, Human Papillomavirus–Unrelated Head and Neck Cancer: A Multicenter, Phase II Trial

Author

Douglas R. Adkins, Obi L. Griffith, Malachi Griffith, Rebecca D. Chernock, Jay F. Piccirillo, Dorina Kallogjeri, Ian S. Hagemann, Scott J. Rodig, Mackenzie Daly, Hiram A. Gay, Wade Thorstad, Ana Lako, Evisa Gjini, Jonathan D. Schoenfeld, Robert Haddad, Jason Kass, Glenn J. Hanna, Matthew D. Stachler, Vickie Y. Jo, Liye Zhou, Rachel Riley, Tenny Mudianto, Trevor J. Pugh, Iulia Cirlan, Youstina Hanna, David T. Mulder, Tiantian Li, Tianxiang Lin, Nicholas C. Spies, Erica K. Barnell, Gavin P. Dunn, Peter Oppelt, Jessica Ley, Loren S. Michel, Patrik Pipkorn, Ryan Jackson, Jason T. Rich, Randal C. Paniello, Brian Nussenbaum, Zachary L. Skidmore, Paul Zolkind, Ann Marie Egloff, Katie M. Campbell, and Ravindra Uppaluri

Abstract

Supplementary Figure

Published

2023

69. Supplementary File 1 from Intratumoral Genetic and Functional Heterogeneity in Pediatric Glioblastoma

Author

Marco Gallo, A. Sorana Morrissy, Jennifer A. Chan, Benjamin D. Simons, Donna L. Senger, Stephen Scherer, Adam C. Resnick, Lucie Lafay-Cousin, Douglas Strother, Peter B. Dirks, Trevor J. Pugh, Michael D. Taylor, Marco A. Marra, Richard Moore, Andrew J. Mungall, Yussanne Ma, Betty Luu, Yuankun Zhu, Fiona J. Coutinho, Michelle M. Kushida, Florence M.G. Cavalli, Ngoc Ha Dang, Katrina Ellestad, Jennifer King, Mehdi Zarrei, Kiran Narta, Ana Nikolic, Michael J. Johnston, Daniel J. Kunz, Aaron H. Gillmor, and Mary Hoffman

Abstract

Summary of single nucleotide variants.

Published

2023

70. Supplementary Data from Neoadjuvant and Adjuvant Pembrolizumab in Resectable Locally Advanced, Human Papillomavirus–Unrelated Head and Neck Cancer: A Multicenter, Phase II Trial

Author

Douglas R. Adkins, Obi L. Griffith, Malachi Griffith, Rebecca D. Chernock, Jay F. Piccirillo, Dorina Kallogjeri, Ian S. Hagemann, Scott J. Rodig, Mackenzie Daly, Hiram A. Gay, Wade Thorstad, Ana Lako, Evisa Gjini, Jonathan D. Schoenfeld, Robert Haddad, Jason Kass, Glenn J. Hanna, Matthew D. Stachler, Vickie Y. Jo, Liye Zhou, Rachel Riley, Tenny Mudianto, Trevor J. Pugh, Iulia Cirlan, Youstina Hanna, David T. Mulder, Tiantian Li, Tianxiang Lin, Nicholas C. Spies, Erica K. Barnell, Gavin P. Dunn, Peter Oppelt, Jessica Ley, Loren S. Michel, Patrik Pipkorn, Ryan Jackson, Jason T. Rich, Randal C. Paniello, Brian Nussenbaum, Zachary L. Skidmore, Paul Zolkind, Ann Marie Egloff, Katie M. Campbell, and Ravindra Uppaluri

Abstract

Clinical trial protocol

Published

2023

71. Supplementary Figures from EVOLVE: A Multicenter Open-Label Single-Arm Clinical and Translational Phase II Trial of Cediranib Plus Olaparib for Ovarian Cancer after PARP Inhibition Progression

Author

Amit M. Oza, Trevor J. Pugh, Zhihui (Amy) Liu, Yeh Chen Lee, Lorena Fariñas-Madrid, Tiantiam Li, Stephanie Pedersen, Iulia Cirlan, Katherine Karakasis, Marsela Braunstein, Qian Tan, Sarah Accardi, Justin White, Valerie Bowering, Neesha C. Dhani, Ainhoa Madariaga, Jeffrey P. Bruce, Swati Garg, Ana Oaknin, and Stephanie Lheureux

Abstract

Supplementary figures S1-S5

Published

2023

72. Figures S1-S6 from Brain Tumor Stem Cell Dependence on Glutaminase Reveals a Metabolic Vulnerability through the Amino Acid Deprivation Response Pathway

Author

Samuel Weiss, H. Artee Luchman, Trevor J. Pugh, Laura M. Richards, Orsolya Cseh, and Ian J. Restall

Abstract

Supplementary Figures S1-S6 with Legends

Published

2023

73. Supplementary Figure 9 from Neoadjuvant and Adjuvant Pembrolizumab in Resectable Locally Advanced, Human Papillomavirus–Unrelated Head and Neck Cancer: A Multicenter, Phase II Trial

Author

Douglas R. Adkins, Obi L. Griffith, Malachi Griffith, Rebecca D. Chernock, Jay F. Piccirillo, Dorina Kallogjeri, Ian S. Hagemann, Scott J. Rodig, Mackenzie Daly, Hiram A. Gay, Wade Thorstad, Ana Lako, Evisa Gjini, Jonathan D. Schoenfeld, Robert Haddad, Jason Kass, Glenn J. Hanna, Matthew D. Stachler, Vickie Y. Jo, Liye Zhou, Rachel Riley, Tenny Mudianto, Trevor J. Pugh, Iulia Cirlan, Youstina Hanna, David T. Mulder, Tiantian Li, Tianxiang Lin, Nicholas C. Spies, Erica K. Barnell, Gavin P. Dunn, Peter Oppelt, Jessica Ley, Loren S. Michel, Patrik Pipkorn, Ryan Jackson, Jason T. Rich, Randal C. Paniello, Brian Nussenbaum, Zachary L. Skidmore, Paul Zolkind, Ann Marie Egloff, Katie M. Campbell, and Ravindra Uppaluri

Abstract

Supplementary Figure

Published

2023

74. Supplementary Figure 2 from Neoadjuvant and Adjuvant Pembrolizumab in Resectable Locally Advanced, Human Papillomavirus–Unrelated Head and Neck Cancer: A Multicenter, Phase II Trial

Author

Douglas R. Adkins, Obi L. Griffith, Malachi Griffith, Rebecca D. Chernock, Jay F. Piccirillo, Dorina Kallogjeri, Ian S. Hagemann, Scott J. Rodig, Mackenzie Daly, Hiram A. Gay, Wade Thorstad, Ana Lako, Evisa Gjini, Jonathan D. Schoenfeld, Robert Haddad, Jason Kass, Glenn J. Hanna, Matthew D. Stachler, Vickie Y. Jo, Liye Zhou, Rachel Riley, Tenny Mudianto, Trevor J. Pugh, Iulia Cirlan, Youstina Hanna, David T. Mulder, Tiantian Li, Tianxiang Lin, Nicholas C. Spies, Erica K. Barnell, Gavin P. Dunn, Peter Oppelt, Jessica Ley, Loren S. Michel, Patrik Pipkorn, Ryan Jackson, Jason T. Rich, Randal C. Paniello, Brian Nussenbaum, Zachary L. Skidmore, Paul Zolkind, Ann Marie Egloff, Katie M. Campbell, and Ravindra Uppaluri

Abstract

Supplementary Figure

Published

2023

75. Data from The Role of Minimal Residual Disease Testing in Myeloma Treatment Selection and Drug Development: Current Value and Future Applications

Author

Elena Zamagni, Nancy Valente, A. Kate Sasser, Michael D. Robbins, Gregory H. Reaman, Trevor J. Pugh, James L. Omel, Lata Mukundan, Jens G. Lohr, Robert D. Loberg, Richard F. Little, Ilan R. Kirsch, J. Milburn Jessup, Mohamad A. Hussein, Howard R. Higley, Steven I. Gutman, Jennifer S. Dickey, Alessandra Di Bacco, Faith E. Davies, Michele Cavo, Nikhil C. Munshi, Ola Landgren, Shaji K. Kumar, Nicole J. Gormley, Ann T. Farrell, Hervé Avet-Loiseau, Caroline C. Sigman, Gary J. Kelloff, Daniel Auclair, and Kenneth C. Anderson

Abstract

Treatment of myeloma has benefited from the introduction of more effective and better tolerated agents, improvements in supportive care, better understanding of disease biology, revision of diagnostic criteria, and new sensitive and specific tools for disease prognostication and management. Assessment of minimal residual disease (MRD) in response to therapy is one of these tools, as longer progression-free survival (PFS) is seen consistently among patients who have achieved MRD negativity. Current therapies lead to unprecedented frequency and depth of response, and next-generation flow and sequencing methods to measure MRD in bone marrow are in use and being developed with sensitivities in the range of 10−5 to 10−6 cells. These technologies may be combined with functional imaging to detect MRD outside of bone marrow. Moreover, immune profiling methods are being developed to better understand the immune environment in myeloma and response to immunomodulatory agents while methods for molecular profiling of myeloma cells and circulating DNA in blood are also emerging. With the continued development and standardization of these methodologies, MRD has high potential for use in gaining new drug approvals in myeloma. The FDA has outlined two pathways by which MRD could be qualified as a surrogate endpoint for clinical studies directed at obtaining accelerated approval for new myeloma drugs. Most importantly, better understanding of MRD should also contribute to better treatment monitoring. Potentially, MRD status could be used as a prognostic factor for making treatment decisions and for informing timing of therapeutic interventions. Clin Cancer Res; 23(15); 3980–93. ©2017 AACR.

Published

2023

76. Supplementary Data from HPV Sequencing Facilitates Ultrasensitive Detection of HPV Circulating Tumor DNA

Author

Scott V. Bratman, Trevor J. Pugh, Lillian L. Siu, Ariana Rostami, Ting Ting Wang, Yangqiao Zheng, Zhen Zhao, Jinfeng Zou, Kathy Han, and Eric Leung

Abstract

Supplementary Data from HPV Sequencing Facilitates Ultrasensitive Detection of HPV Circulating Tumor DNA

Published

2023

77. Supplementary Figure from HPV Sequencing Facilitates Ultrasensitive Detection of HPV Circulating Tumor DNA

Author

Scott V. Bratman, Trevor J. Pugh, Lillian L. Siu, Ariana Rostami, Ting Ting Wang, Yangqiao Zheng, Zhen Zhao, Jinfeng Zou, Kathy Han, and Eric Leung

Abstract

Supplementary Figure from HPV Sequencing Facilitates Ultrasensitive Detection of HPV Circulating Tumor DNA

Published

2023

78. Supplemental Figure legends from Regulatory T Cells in Ovarian Cancer Are Characterized by a Highly Activated Phenotype Distinct from that in Melanoma

Author

Pamela S. Ohashi, Marcus Q. Bernardini, Trevor J. Pugh, Cynthia J. Guidos, Michael Reedijk, David R. McCready, Wey L. Leong, Alexandra Easson, Ayman Al-Habeeb, Danny Ghazarian, Blaise A. Clarke, Patricia A. Shaw, Sarah Rachel Katz, S.Y. Cindy Yang, Simone C. Stone, Linh T. Nguyen, and Aras Toker

Abstract

Legends to supplemental figures 1-6

Published

2023

79. Supplementary File 3 from Intratumoral Genetic and Functional Heterogeneity in Pediatric Glioblastoma

Author

Marco Gallo, A. Sorana Morrissy, Jennifer A. Chan, Benjamin D. Simons, Donna L. Senger, Stephen Scherer, Adam C. Resnick, Lucie Lafay-Cousin, Douglas Strother, Peter B. Dirks, Trevor J. Pugh, Michael D. Taylor, Marco A. Marra, Richard Moore, Andrew J. Mungall, Yussanne Ma, Betty Luu, Yuankun Zhu, Fiona J. Coutinho, Michelle M. Kushida, Florence M.G. Cavalli, Ngoc Ha Dang, Katrina Ellestad, Jennifer King, Mehdi Zarrei, Kiran Narta, Ana Nikolic, Michael J. Johnston, Daniel J. Kunz, Aaron H. Gillmor, and Mary Hoffman

Abstract

Summary of somatic and de novo germline events.

Published

2023

80. Supplementary Figure 7 from Neoadjuvant and Adjuvant Pembrolizumab in Resectable Locally Advanced, Human Papillomavirus–Unrelated Head and Neck Cancer: A Multicenter, Phase II Trial

Author

Douglas R. Adkins, Obi L. Griffith, Malachi Griffith, Rebecca D. Chernock, Jay F. Piccirillo, Dorina Kallogjeri, Ian S. Hagemann, Scott J. Rodig, Mackenzie Daly, Hiram A. Gay, Wade Thorstad, Ana Lako, Evisa Gjini, Jonathan D. Schoenfeld, Robert Haddad, Jason Kass, Glenn J. Hanna, Matthew D. Stachler, Vickie Y. Jo, Liye Zhou, Rachel Riley, Tenny Mudianto, Trevor J. Pugh, Iulia Cirlan, Youstina Hanna, David T. Mulder, Tiantian Li, Tianxiang Lin, Nicholas C. Spies, Erica K. Barnell, Gavin P. Dunn, Peter Oppelt, Jessica Ley, Loren S. Michel, Patrik Pipkorn, Ryan Jackson, Jason T. Rich, Randal C. Paniello, Brian Nussenbaum, Zachary L. Skidmore, Paul Zolkind, Ann Marie Egloff, Katie M. Campbell, and Ravindra Uppaluri

Abstract

Supplementary Figure

Published

2023

81. Supplementary Figures S1 and S2: Association of MRD with survival outcomes in myeloma patients from The Role of Minimal Residual Disease Testing in Myeloma Treatment Selection and Drug Development: Current Value and Future Applications

Author

Elena Zamagni, Nancy Valente, A. Kate Sasser, Michael D. Robbins, Gregory H. Reaman, Trevor J. Pugh, James L. Omel, Lata Mukundan, Jens G. Lohr, Robert D. Loberg, Richard F. Little, Ilan R. Kirsch, J. Milburn Jessup, Mohamad A. Hussein, Howard R. Higley, Steven I. Gutman, Jennifer S. Dickey, Alessandra Di Bacco, Faith E. Davies, Michele Cavo, Nikhil C. Munshi, Ola Landgren, Shaji K. Kumar, Nicole J. Gormley, Ann T. Farrell, Hervé Avet-Loiseau, Caroline C. Sigman, Gary J. Kelloff, Daniel Auclair, and Kenneth C. Anderson

Abstract

1) Munshi Figures, 2) MRD Negativity Associated With Longer Progression-free Survival And Overall Survival In Newly Diagnosed Multiple Myeloma Patients

Published

2023

82. Data from HPV Sequencing Facilitates Ultrasensitive Detection of HPV Circulating Tumor DNA

Author

Scott V. Bratman, Trevor J. Pugh, Lillian L. Siu, Ariana Rostami, Ting Ting Wang, Yangqiao Zheng, Zhen Zhao, Jinfeng Zou, Kathy Han, and Eric Leung

Abstract

Purpose:Human papillomavirus (HPV) DNA offers a convenient circulating tumor DNA (ctDNA) marker for HPV-associated malignancies, but current methods, such as digital PCR (dPCR), provide insufficient accuracy for clinical applications in patients with low disease burden. We asked whether a next-generation sequencing approach, HPV sequencing (HPV-seq), could provide quantitative and qualitative assessment of HPV ctDNA in low disease burden settings.Experimental Design:We conducted preclinical technical validation studies on HPV-seq and applied it retrospectively to a prospective multicenter cohort of patients with locally advanced cervix cancer (NCT02388698) and a cohort of patients with oropharynx cancer. HPV-seq results were compared with dPCR. The primary outcome was progression-free survival (PFS) according to end-of-treatment HPV ctDNA detectability.Results:HPV-seq achieved reproducible detection of HPV DNA at levels less than 0.6 copies in cell line data. HPV-seq and dPCR results for patients were highly correlated (R2 = 0.95, P = 1.9 × 10–29) with HPV-seq detecting ctDNA at levels down to 0.03 copies/mL plasma in dPCR-negative posttreatment samples. Detectable HPV ctDNA at end-of-treatment was associated with inferior PFS with 100% sensitivity and 67% specificity for recurrence. Accurate HPV genotyping was successful from 100% of pretreatment samples. HPV ctDNA fragment sizes were consistently shorter than non–cancer-derived cell-free DNA (cfDNA) fragments, and stereotyped cfDNA fragmentomic patterns were observed across HPV genomes.Conclusions:HPV-seq is a quantitative method for ctDNA detection that outperforms dPCR and reveals qualitative information about ctDNA. Our findings in this proof-of-principle study could have implications for treatment monitoring of disease burden in HPV-related cancers. Future prospective studies are needed to confirm that patients with undetectable HPV ctDNA following chemoradiotherapy have exceptionally high cure rates.

Published

2023

83. Supplementary Tables from Neoadjuvant and Adjuvant Pembrolizumab in Resectable Locally Advanced, Human Papillomavirus–Unrelated Head and Neck Cancer: A Multicenter, Phase II Trial

Author

Douglas R. Adkins, Obi L. Griffith, Malachi Griffith, Rebecca D. Chernock, Jay F. Piccirillo, Dorina Kallogjeri, Ian S. Hagemann, Scott J. Rodig, Mackenzie Daly, Hiram A. Gay, Wade Thorstad, Ana Lako, Evisa Gjini, Jonathan D. Schoenfeld, Robert Haddad, Jason Kass, Glenn J. Hanna, Matthew D. Stachler, Vickie Y. Jo, Liye Zhou, Rachel Riley, Tenny Mudianto, Trevor J. Pugh, Iulia Cirlan, Youstina Hanna, David T. Mulder, Tiantian Li, Tianxiang Lin, Nicholas C. Spies, Erica K. Barnell, Gavin P. Dunn, Peter Oppelt, Jessica Ley, Loren S. Michel, Patrik Pipkorn, Ryan Jackson, Jason T. Rich, Randal C. Paniello, Brian Nussenbaum, Zachary L. Skidmore, Paul Zolkind, Ann Marie Egloff, Katie M. Campbell, and Ravindra Uppaluri

Abstract

Supplementary tables

Published

2023

84. Supplementary Methods and Data from Intratumoral Genetic and Functional Heterogeneity in Pediatric Glioblastoma

Author

Marco Gallo, A. Sorana Morrissy, Jennifer A. Chan, Benjamin D. Simons, Donna L. Senger, Stephen Scherer, Adam C. Resnick, Lucie Lafay-Cousin, Douglas Strother, Peter B. Dirks, Trevor J. Pugh, Michael D. Taylor, Marco A. Marra, Richard Moore, Andrew J. Mungall, Yussanne Ma, Betty Luu, Yuankun Zhu, Fiona J. Coutinho, Michelle M. Kushida, Florence M.G. Cavalli, Ngoc Ha Dang, Katrina Ellestad, Jennifer King, Mehdi Zarrei, Kiran Narta, Ana Nikolic, Michael J. Johnston, Daniel J. Kunz, Aaron H. Gillmor, and Mary Hoffman

Abstract

Supplemental Figures S1-S7, Supplemental Tables S1-S7. Methods and Figures S1-S8; Tables S1-S7. SF1: Heterozygous TP53 deletion in the germline and tumor of patient 1 and expression timelines of DSE. SF2: Mutational signatures in pGBM samples. SF3: Deletions at immune-modulatory loci and their effect on gene expression. SF4: Dynamics of germlines SVs during tumor evolution. SF5: Copy number assays using TaqMan probes confirm the deletion at the ATRX locus. SF6: Genetic heterogeneity at the ATRX locus. SF7: Distribution of allelic frequencies and clonal sizes in pGBM samples. ST1: Calgary pediatric GBM cohort. ST2: Therapeutic approach taken for each pediatric GBM patient in the Calgary cohort. ST3: Toronto pediatric GBM cohort used for WGS with linked reads and bulk RNA-seq. ST4: Features of each sample analyzed by whole-genome sequencing with linked reads. ST5: Genes mutated in diagnostic pGBM samples in more than one patient. ST6: Genes mutated in follow-up resections in more than one patient. ST7: Results of the fits of the first incomplete moment and the negative binomial like distribution to the samples.

Published

2023

85. Data from Genomic Profiling of a Large Set of Diverse Pediatric Cancers Identifies Known and Novel Mutations across Tumor Spectra

Author

Doron Lipson, Jack F. Shern, Trevor J. Pugh, Soheil Meshinchi, John M. Maris, Katherine A. Janeway, Philip J. Stephens, Vincent A. Miller, Blair Glanville, Alexis Germain, Vinny Faso, Hilary Davies, Joana Buxhaku, Jeffrey S. Ross, Rachel L. Erlich, Laurie Gay, Siraj Ali, Daniel Spritz, Samantha Morley, James X. Sun, Garrett M. Frampton, James Suh, Shakti Ramkissoon, Jo-Anne Vergilio, Julia Elvin, Jie He, Mark Bailey, and Juliann Chmielecki

Abstract

Pediatric cancers are generally characterized by low mutational burden and few recurrently mutated genes. Recent studies suggest that genomic alterations may help guide treatment decisions and clinical trial selection. Here, we describe genomic profiles from 1,215 pediatric tumors representing sarcomas, extracranial embryonal tumors, brain tumors, hematologic malignancies, carcinomas, and gonadal tumors. Comparable published datasets identified similar frequencies of clinically relevant alterations, validating this dataset as biologically relevant. We identified novel ALK fusions in a neuroblastoma (BEND5–ALK) and an astrocytoma (PPP1CB–ALK), novel BRAF fusions in an astrocytoma (BCAS1–BRAF) and a ganglioglioma (TMEM106B–BRAF), and a novel PAX3–GLI2 fusion in a rhabdomyosarcoma. Previously characterized ALK, NTRK1, and PAX3 fusions were observed in unexpected malignancies, challenging the "disease-specific" alterations paradigm. Finally, we identified recurrent variants of unknown significance in MLL3 and PRSS1 predicted to have functional impact. Data from these 1,215 tumors are publicly available for discovery and validation. Cancer Res; 77(2); 509–19. ©2017 AACR.

Published

2023

86. Supplementary Figure 6 from Neoadjuvant and Adjuvant Pembrolizumab in Resectable Locally Advanced, Human Papillomavirus–Unrelated Head and Neck Cancer: A Multicenter, Phase II Trial

Author

Douglas R. Adkins, Obi L. Griffith, Malachi Griffith, Rebecca D. Chernock, Jay F. Piccirillo, Dorina Kallogjeri, Ian S. Hagemann, Scott J. Rodig, Mackenzie Daly, Hiram A. Gay, Wade Thorstad, Ana Lako, Evisa Gjini, Jonathan D. Schoenfeld, Robert Haddad, Jason Kass, Glenn J. Hanna, Matthew D. Stachler, Vickie Y. Jo, Liye Zhou, Rachel Riley, Tenny Mudianto, Trevor J. Pugh, Iulia Cirlan, Youstina Hanna, David T. Mulder, Tiantian Li, Tianxiang Lin, Nicholas C. Spies, Erica K. Barnell, Gavin P. Dunn, Peter Oppelt, Jessica Ley, Loren S. Michel, Patrik Pipkorn, Ryan Jackson, Jason T. Rich, Randal C. Paniello, Brian Nussenbaum, Zachary L. Skidmore, Paul Zolkind, Ann Marie Egloff, Katie M. Campbell, and Ravindra Uppaluri

Abstract

Supplementary Figure

Published

2023

87. Supplementary Data from Sequence Variant Discovery in DNA Repair Genes from Radiosensitive and Radiotolerant Prostate Brachytherapy Patients

Author

Richard A. Moore, Marco A. Marra, Peggy L. Olive, W. Jim Morris, Michael McKenzie, Alexander Agranovich, Cindy Yang, Karen Novik, Dallas Thomas, Martin Krzywinski, Allen Delaney, Lorena Barclay, Mira Keyes, and Trevor J. Pugh

Abstract

Supplementary Data from Sequence Variant Discovery in DNA Repair Genes from Radiosensitive and Radiotolerant Prostate Brachytherapy Patients

Published

2023

88. Data from Regulatory T Cells in Ovarian Cancer Are Characterized by a Highly Activated Phenotype Distinct from that in Melanoma

Author

Pamela S. Ohashi, Marcus Q. Bernardini, Trevor J. Pugh, Cynthia J. Guidos, Michael Reedijk, David R. McCready, Wey L. Leong, Alexandra Easson, Ayman Al-Habeeb, Danny Ghazarian, Blaise A. Clarke, Patricia A. Shaw, Sarah Rachel Katz, S.Y. Cindy Yang, Simone C. Stone, Linh T. Nguyen, and Aras Toker

Abstract

Purpose: Regulatory T (Treg) cells expressing the transcription factor FOXP3 are essential for the maintenance of immunologic self-tolerance but play a detrimental role in most cancers due to their ability to suppress antitumor immunity. The phenotype of human circulating Treg cells has been extensively studied, but less is known about tumor-infiltrating Treg cells. We studied the phenotype and function of tumor-infiltrating Treg cells in ovarian cancer and melanoma to identify potential Treg cell–associated molecules that can be targeted by tumor immunotherapies.Experimental Design: The phenotype of intratumoral and circulating Treg cells was analyzed by multicolor flow cytometry, mass cytometry, RNA-seq, and functional assays.Results: Treg cells isolated from ovarian tumors displayed a distinct cell surface phenotype with increased expression of a number of receptors associated with TCR engagement, including PD-1, 4-1BB, and ICOS. Higher PD-1 and 4-1BB expression was associated with increased responsiveness to further TCR stimulation and increased suppressive capacity, respectively. Transcriptomic and mass cytometry analyses revealed the presence of Treg cell subpopulations and further supported a highly activated state specifically in ovarian tumors. In comparison, Treg cells infiltrating melanomas displayed lower FOXP3, PD-1, 4-1BB, and ICOS expression and were less potent suppressors of CD8 T-cell proliferation.Conclusions: The highly activated phenotype of ovarian tumor-infiltrating Treg cells may be a key component of an immunosuppressive tumor microenvironment. Receptors that are expressed by tumor-infiltrating Treg cells could be exploited for the design of novel combination tumor immunotherapies. Clin Cancer Res; 24(22); 5685–96. ©2018 AACR.

Published

2023

89. Tables S1-S4 from Brain Tumor Stem Cell Dependence on Glutaminase Reveals a Metabolic Vulnerability through the Amino Acid Deprivation Response Pathway

Author

Samuel Weiss, H. Artee Luchman, Trevor J. Pugh, Laura M. Richards, Orsolya Cseh, and Ian J. Restall

Abstract

Supplementary tables S1-S4. Supplementary Table S1. Primer sets for qPCR. Supplementary Table S2. Astrocyte gene signature gene list. Supplementary Table S3. OPC gene signature gene list. Supplementary Table S4. Early RGC gene signature gene list.

Published

2023

90. Supplementary Table S2: Clinical trials in myeloma using MRD assessments from The Role of Minimal Residual Disease Testing in Myeloma Treatment Selection and Drug Development: Current Value and Future Applications

Author

Elena Zamagni, Nancy Valente, A. Kate Sasser, Michael D. Robbins, Gregory H. Reaman, Trevor J. Pugh, James L. Omel, Lata Mukundan, Jens G. Lohr, Robert D. Loberg, Richard F. Little, Ilan R. Kirsch, J. Milburn Jessup, Mohamad A. Hussein, Howard R. Higley, Steven I. Gutman, Jennifer S. Dickey, Alessandra Di Bacco, Faith E. Davies, Michele Cavo, Nikhil C. Munshi, Ola Landgren, Shaji K. Kumar, Nicole J. Gormley, Ann T. Farrell, Hervé Avet-Loiseau, Caroline C. Sigman, Gary J. Kelloff, Daniel Auclair, and Kenneth C. Anderson

Abstract

Active Clinical Trials in Myeloma Using Minimal Residual Disease Assessment as Exploratory or Secondary Endpoints

Published

2023

91. Supplementary Figure 8 from Neoadjuvant and Adjuvant Pembrolizumab in Resectable Locally Advanced, Human Papillomavirus–Unrelated Head and Neck Cancer: A Multicenter, Phase II Trial

Author

Douglas R. Adkins, Obi L. Griffith, Malachi Griffith, Rebecca D. Chernock, Jay F. Piccirillo, Dorina Kallogjeri, Ian S. Hagemann, Scott J. Rodig, Mackenzie Daly, Hiram A. Gay, Wade Thorstad, Ana Lako, Evisa Gjini, Jonathan D. Schoenfeld, Robert Haddad, Jason Kass, Glenn J. Hanna, Matthew D. Stachler, Vickie Y. Jo, Liye Zhou, Rachel Riley, Tenny Mudianto, Trevor J. Pugh, Iulia Cirlan, Youstina Hanna, David T. Mulder, Tiantian Li, Tianxiang Lin, Nicholas C. Spies, Erica K. Barnell, Gavin P. Dunn, Peter Oppelt, Jessica Ley, Loren S. Michel, Patrik Pipkorn, Ryan Jackson, Jason T. Rich, Randal C. Paniello, Brian Nussenbaum, Zachary L. Skidmore, Paul Zolkind, Ann Marie Egloff, Katie M. Campbell, and Ravindra Uppaluri

Abstract

Supplementary Figure

Published

2023

92. Data from Intratumoral Genetic and Functional Heterogeneity in Pediatric Glioblastoma

Author

Marco Gallo, A. Sorana Morrissy, Jennifer A. Chan, Benjamin D. Simons, Donna L. Senger, Stephen Scherer, Adam C. Resnick, Lucie Lafay-Cousin, Douglas Strother, Peter B. Dirks, Trevor J. Pugh, Michael D. Taylor, Marco A. Marra, Richard Moore, Andrew J. Mungall, Yussanne Ma, Betty Luu, Yuankun Zhu, Fiona J. Coutinho, Michelle M. Kushida, Florence M.G. Cavalli, Ngoc Ha Dang, Katrina Ellestad, Jennifer King, Mehdi Zarrei, Kiran Narta, Ana Nikolic, Michael J. Johnston, Daniel J. Kunz, Aaron H. Gillmor, and Mary Hoffman

Abstract

Pediatric glioblastoma (pGBM) is a lethal cancer with no effective therapies. To understand the mechanisms of tumor evolution in this cancer, we performed whole-genome sequencing with linked reads on longitudinally resected pGBM samples. Our analyses showed that all diagnostic and recurrent samples were collections of genetically diverse subclones. Clonal composition rapidly evolved at recurrence, with less than 8% of nonsynonymous single-nucleotide variants being shared in diagnostic-recurrent pairs. To track the origins of the mutational events observed in pGBM, we generated whole-genome datasets for two patients and their parents. These trios showed that genetic variants could be (i) somatic, (ii) inherited from a healthy parent, or (iii) de novo in the germlines of pGBM patients. Analysis of variant allele frequencies supported a model of tumor growth involving slow-cycling cancer stem cells that give rise to fast-proliferating progenitor-like cells and to nondividing cells. Interestingly, radiation and antimitotic chemotherapeutics did not increase overall tumor burden upon recurrence. These findings support an important role for slow-cycling stem cell populations in contributing to recurrences, because slow-cycling cell populations are expected to be less prone to genotoxic stress induced by these treatments and therefore would accumulate few mutations. Our results highlight the need for new targeted treatments that account for the complex functional hierarchies and genomic heterogeneity of pGBM.Significance:This work challenges several assumptions regarding the genetic organization of pediatric GBM and highlights mutagenic programs that start during early prenatal development.

Published

2023

93. Data from Inhibitor-Sensitive FGFR2 and FGFR3 Mutations in Lung Squamous Cell Carcinoma

Author

Peter S. Hammerman, Matthew Meyerson, Robert I. Haddad, Kwok-Kin Wong, Gad Getz, Nathanael S. Gray, D. Neil Hayes, Chandra Sekhar Pedamallu, Trevor J. Pugh, Qingsong Liu, Ellen M. Beauchamp, Andrey Sivachenko, Matthew D. Wilkerson, Jeremy Tchaicha, Joonil Jung, and Rachel G. Liao

Abstract

A comprehensive description of genomic alterations in lung squamous cell carcinoma (lung SCC) has recently been reported, enabling the identification of genomic events that contribute to the oncogenesis of this disease. In lung SCC, one of the most frequently altered receptor tyrosine kinase families is the fibroblast growth factor receptor (FGFR) family, with amplification or mutation observed in all four family members. Here, we describe the oncogenic nature of mutations observed in FGFR2 and FGFR3, each of which are observed in 3% of samples, for a mutation rate of 6% across both genes. Using cell culture and xenograft models, we show that several of these mutations drive cellular transformation. Transformation can be reversed by small-molecule FGFR inhibitors currently being developed for clinical use. We also show that mutations in the extracellular domains of FGFR2 lead to constitutive FGFR dimerization. In addition, we report a patient with an FGFR2-mutated oral SCC who responded to the multitargeted tyrosine kinase inhibitor pazopanib. These findings provide new insights into driving oncogenic events in a subset of lung squamous cancers, and recommend future clinical studies with FGFR inhibitors in patients with lung and head and neck SCC. Cancer Res; 73(16); 5195–205. ©2013 AACR.

Published

2023

94. Supplementary Figure 5 from Inhibitor-Sensitive FGFR2 and FGFR3 Mutations in Lung Squamous Cell Carcinoma

Author

Peter S. Hammerman, Matthew Meyerson, Robert I. Haddad, Kwok-Kin Wong, Gad Getz, Nathanael S. Gray, D. Neil Hayes, Chandra Sekhar Pedamallu, Trevor J. Pugh, Qingsong Liu, Ellen M. Beauchamp, Andrey Sivachenko, Matthew D. Wilkerson, Jeremy Tchaicha, Joonil Jung, and Rachel G. Liao

Abstract

PDF file - 159K, Ba/F3 data with six additional inhibitors.

Published

2023

95. Supplementary Figure 3 from Inhibitor-Sensitive FGFR2 and FGFR3 Mutations in Lung Squamous Cell Carcinoma

Author

Peter S. Hammerman, Matthew Meyerson, Robert I. Haddad, Kwok-Kin Wong, Gad Getz, Nathanael S. Gray, D. Neil Hayes, Chandra Sekhar Pedamallu, Trevor J. Pugh, Qingsong Liu, Ellen M. Beauchamp, Andrey Sivachenko, Matthew D. Wilkerson, Jeremy Tchaicha, Joonil Jung, and Rachel G. Liao

Abstract

PDF file - 203K, Extracellular domain dimerization studies.

Published

2023

96. Supplementary Table 2 from Inhibitor-Sensitive FGFR2 and FGFR3 Mutations in Lung Squamous Cell Carcinoma

Author

Peter S. Hammerman, Matthew Meyerson, Robert I. Haddad, Kwok-Kin Wong, Gad Getz, Nathanael S. Gray, D. Neil Hayes, Chandra Sekhar Pedamallu, Trevor J. Pugh, Qingsong Liu, Ellen M. Beauchamp, Andrey Sivachenko, Matthew D. Wilkerson, Jeremy Tchaicha, Joonil Jung, and Rachel G. Liao

Abstract

PDF file - 74K, FGFR inhibitors profiled in this study.

Published

2023

97. Supplementary Table 1 from Inhibitor-Sensitive FGFR2 and FGFR3 Mutations in Lung Squamous Cell Carcinoma

Author

Peter S. Hammerman, Matthew Meyerson, Robert I. Haddad, Kwok-Kin Wong, Gad Getz, Nathanael S. Gray, D. Neil Hayes, Chandra Sekhar Pedamallu, Trevor J. Pugh, Qingsong Liu, Ellen M. Beauchamp, Andrey Sivachenko, Matthew D. Wilkerson, Jeremy Tchaicha, Joonil Jung, and Rachel G. Liao

Abstract

PDF file - 80K, Patient details in lung SqCC patients containing FGFR mutations.

Published

2023

98. Supplementary Figure 6 from Inhibitor-Sensitive FGFR2 and FGFR3 Mutations in Lung Squamous Cell Carcinoma

Author

Peter S. Hammerman, Matthew Meyerson, Robert I. Haddad, Kwok-Kin Wong, Gad Getz, Nathanael S. Gray, D. Neil Hayes, Chandra Sekhar Pedamallu, Trevor J. Pugh, Qingsong Liu, Ellen M. Beauchamp, Andrey Sivachenko, Matthew D. Wilkerson, Jeremy Tchaicha, Joonil Jung, and Rachel G. Liao

Abstract

PDF file - 147K, FGFR2-P253R functional data.

Published

2023

99. Supplementary Figure 2 from Inhibitor-Sensitive FGFR2 and FGFR3 Mutations in Lung Squamous Cell Carcinoma

Author

Peter S. Hammerman, Matthew Meyerson, Robert I. Haddad, Kwok-Kin Wong, Gad Getz, Nathanael S. Gray, D. Neil Hayes, Chandra Sekhar Pedamallu, Trevor J. Pugh, Qingsong Liu, Ellen M. Beauchamp, Andrey Sivachenko, Matthew D. Wilkerson, Jeremy Tchaicha, Joonil Jung, and Rachel G. Liao

Abstract

PDF file - 55K, Xenograft tumor images not included in Figure 2.

Published

2023

100. Supplementary Figure Legend from Inhibitor-Sensitive FGFR2 and FGFR3 Mutations in Lung Squamous Cell Carcinoma

Author

Peter S. Hammerman, Matthew Meyerson, Robert I. Haddad, Kwok-Kin Wong, Gad Getz, Nathanael S. Gray, D. Neil Hayes, Chandra Sekhar Pedamallu, Trevor J. Pugh, Qingsong Liu, Ellen M. Beauchamp, Andrey Sivachenko, Matthew D. Wilkerson, Jeremy Tchaicha, Joonil Jung, and Rachel G. Liao

Abstract

PDF file - 46K

Published

2023