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3. Society for Immunotherapy of Cancer (SITC) clinical practice guideline on immunotherapy for the treatment of breast cancer.

Author

Emens, Leisha A, Adams, Sylvia, Cimino-Mathews, Ashley, Disis, Mary L, Gatti-Mays, Margaret E, Ho, Alice Y, Kalinsky, Kevin, McArthur, Heather L, Mittendorf, Elizabeth A, Nanda, Rita, Page, David B, Rugo, Hope S, Rubin, Krista M, Soliman, Hatem, Spears, Patricia A, Tolaney, Sara M, and Litton, Jennifer K

Subjects
breast neoplasms, clinical trials as topic, guidelines as topic, immunotherapy
Abstract

Breast cancer has historically been a disease for which immunotherapy was largely unavailable. Recently, the use of immune checkpoint inhibitors (ICIs) in combination with chemotherapy for the treatment of advanced/metastatic triple-negative breast cancer (TNBC) has demonstrated efficacy, including longer progression-free survival and increased overall survival in subsets of patients. Based on clinical benefit in randomized trials, ICIs in combination with chemotherapy for the treatment of some patients with advanced/metastatic TNBC have been approved by the United States (US) Food and Drug Administration (FDA), expanding options for patients. Ongoing questions remain, however, about the optimal chemotherapy backbone for immunotherapy, appropriate biomarker-based selection of patients for treatment, the optimal strategy for immunotherapy treatment in earlier stage disease, and potential use in histological subtypes other than TNBC. To provide guidance to the oncology community on these and other important concerns, the Society for Immunotherapy of Cancer (SITC) convened a multidisciplinary panel of experts to develop a clinical practice guideline (CPG). The expert panel drew upon the published literature as well as their clinical experience to develop recommendations for healthcare professionals on these important aspects of immunotherapeutic treatment for breast cancer, including diagnostic testing, treatment planning, immune-related adverse events (irAEs), and patient quality of life (QOL) considerations. The evidence-based and consensus-based recommendations in this CPG are intended to give guidance to cancer care providers treating patients with breast cancer.

Published
2021

4. Toward a comprehensive view of cancer immune responsiveness: a synopsis from the SITC workshop

Author

Bedognetti, Davide, Ceccarelli, Michele, Galluzzi, Lorenzo, Lu, Rongze, Palucka, Karolina, Samayoa, Josue, Spranger, Stefani, Warren, Sarah, Wong, Kwok-Kin, Ziv, Elad, Chowell, Diego, Coussens, Lisa M, De Carvalho, Daniel D, DeNardo, David G, Galon, Jérôme, Kaufman, Howard L, Kirchhoff, Tomas, Lotze, Michael T, Luke, Jason J, Minn, Andy J, Politi, Katerina, Shultz, Leonard D, Simon, Richard, Thórsson, Vésteinn, Weidhaas, Joanne B, Ascierto, Maria Libera, Ascierto, Paolo Antonio, Barnes, James M, Barsan, Valentin, Bommareddy, Praveen K, Bot, Adrian, Church, Sarah E, Ciliberto, Gennaro, De Maria, Andrea, Draganov, Dobrin, Ho, Winson S, McGee, Heather M, Monette, Anne, Murphy, Joseph F, Nisticò, Paola, Park, Wungki, Patel, Maulik, Quigley, Michael, Radvanyi, Laszlo, Raftopoulos, Harry, Rudqvist, Nils-Petter, Snyder, Alexandra, Sweis, Randy F, Valpione, Sara, Zappasodi, Roberta, Butterfield, Lisa H, Disis, Mary L, Fox, Bernard A, Cesano, Alessandra, and Marincola, Francesco M

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Immunology, Women's Health, Genetics, Cancer, Human Genome, Underpinning research, 1.1 Normal biological development and functioning, Aetiology, 2.1 Biological and endogenous factors, Good Health and Well Being, Advisory Committees, Animals, Biomarkers, Tumor, Congresses as Topic, Disease Models, Animal, Humans, Immunotherapy, Medical Oncology, Neoplasms, Societies, Medical, Treatment Outcome, Tumor Microenvironment, Cancer immune responsiveness, Immune checkpoint inhibitor, Immune oncology, Tumor microenvironment, Tumor mutational burden, Immunogenic cell death, Biomarker, Germline molecular alterations, Somatic molecular alterations, Cancer immune phenotype, Society for Immunotherapy of Cancer (SITC) Cancer Immune Responsiveness Task Force and Working Groups, Oncology and carcinogenesis
Abstract

Tumor immunology has changed the landscape of cancer treatment. Yet, not all patients benefit as cancer immune responsiveness (CIR) remains a limitation in a considerable proportion of cases. The multifactorial determinants of CIR include the genetic makeup of the patient, the genomic instability central to cancer development, the evolutionary emergence of cancer phenotypes under the influence of immune editing, and external modifiers such as demographics, environment, treatment potency, co-morbidities and cancer-independent alterations including immune homeostasis and polymorphisms in the major and minor histocompatibility molecules, cytokines, and chemokines. Based on the premise that cancer is fundamentally a disorder of the genes arising within a cell biologic process, whose deviations from normality determine the rules of engagement with the host's response, the Society for Immunotherapy of Cancer (SITC) convened a task force of experts from various disciplines including, immunology, oncology, biophysics, structural biology, molecular and cellular biology, genetics, and bioinformatics to address the complexity of CIR from a holistic view. The task force was launched by a workshop held in San Francisco on May 14-15, 2018 aimed at two preeminent goals: 1) to identify the fundamental questions related to CIR and 2) to create an interactive community of experts that could guide scientific and research priorities by forming a logical progression supported by multiple perspectives to uncover mechanisms of CIR. This workshop was a first step toward a second meeting where the focus would be to address the actionability of some of the questions identified by working groups. In this event, five working groups aimed at defining a path to test hypotheses according to their relevance to human cancer and identifying experimental models closest to human biology, which include: 1) Germline-Genetic, 2) Somatic-Genetic and 3) Genomic-Transcriptional contributions to CIR, 4) Determinant(s) of Immunogenic Cell Death that modulate CIR, and 5) Experimental Models that best represent CIR and its conversion to an immune responsive state. This manuscript summarizes the contributions from each group and should be considered as a first milestone in the path toward a more contemporary understanding of CIR. We appreciate that this effort is far from comprehensive and that other relevant aspects related to CIR such as the microbiome, the individual's recombined T cell and B cell receptors, and the metabolic status of cancer and immune cells were not fully included. These and other important factors will be included in future activities of the taskforce. The taskforce will focus on prioritization and specific actionable approach to answer the identified questions and implementing the collaborations in the follow-up workshop, which will be held in Houston on September 4-5, 2019.

Published
2019

5. Correction to: Toward a comprehensive view of cancer immune responsiveness: a synopsis from the SITC workshop

Author

Bedognetti, Davide, Ceccarelli, Michele, Galluzzi, Lorenzo, Lu, Rongze, Palucka, Karolina, Samayoa, Josue, Spranger, Stefani, Warren, Sarah, Wong, Kwok-Kin, Ziv, Elad, Chowell, Diego, Coussens, Lisa M, De Carvalho, Daniel D, DeNardo, David G, Galon, Jérôme, Kaufman, Howard L, Kirchhoff, Tomas, Lotze, Michael T, Luke, Jason J, Minn, Andy J, Politi, Katerina, Shultz, Leonard D, Simon, Richard, Thórsson, Vésteinn, Weidhaas, Joanne B, Ascierto, Maria Libera, Ascierto, Paolo Antonio, Barnes, James M, Barsan, Valentin, Bommareddy, Praveen K, Bot, Adrian, Church, Sarah E, Ciliberto, Gennaro, De Maria, Andrea, Draganov, Dobrin, Ho, Winson S, McGee, Heather M, Monette, Anne, Murphy, Joseph F, Nisticò, Paola, Park, Wungki, Patel, Maulik, Quigley, Michael, Radvanyi, Laszlo, Raftopoulos, Harry, Rudqvist, Nils-Petter, Snyder, Alexandra, Sweis, Randy F, Valpione, Sara, Zappasodi, Roberta, Butterfield, Lisa H, Disis, Mary L, Fox, Bernard A, Cesano, Alessandra, and Marincola, Francesco M

Subjects
Biomedical and Clinical Sciences, Immunology, Cancer, Society for Immunotherapy of Cancer (SITC) Cancer Immune Responsiveness Task Force and Working Groups, Oncology and carcinogenesis
Abstract

Following publication of the original article [1], the author reported that an author name, Roberta Zappasodi, was missed in the authorship list.

Published
2019

6. Efficacy and Safety of Avelumab for Patients With Recurrent or Refractory Ovarian Cancer: Phase 1b Results From the JAVELIN Solid Tumor Trial.

Author

Disis, Mary L, Taylor, Matthew H, Kelly, Karen, Beck, J Thaddeus, Gordon, Michael, Moore, Kathleen M, Patel, Manish R, Chaves, Jorge, Park, Haeseong, Mita, Alain C, Hamilton, Erika P, Annunziata, Christina M, Grote, Hans Juergen, von Heydebreck, Anja, Grewal, Jaspreet, Chand, Vikram, and Gulley, James L

Subjects
Humans, Ovarian Neoplasms, Neoplasm Recurrence, Local, Disease Progression, Antibodies, Monoclonal, Treatment Outcome, Drug Resistance, Neoplasm, Time Factors, Adult, Aged, Aged, 80 and over, Middle Aged, Female, Antineoplastic Agents, Immunological, B7-H1 Antigen, Progression-Free Survival, Antibodies, Monoclonal, Humanized, Oncology and Carcinogenesis, Public Health and Health Services
Abstract

ImportanceCurrent treatment options for progressive ovarian cancer provide limited benefit, particularly in patients whose disease has become resistant to platinum-based chemotherapy.ObjectiveTo assess the efficacy and safety of avelumab, an anti-programmed death-ligand 1 agent, in a cohort of patients with previously treated recurrent or refractory ovarian cancer.Design, setting, and participantsIn an expansion cohort of a phase 1b, open-label study (JAVELIN Solid Tumor), 125 patients with advanced ovarian cancer who had received chemotherapy including a platinum agent were enrolled between November 6, 2013, and August 27, 2015. Statistical analysis was performed from December 31, 2016, to October 9, 2018.InterventionPatients received avelumab, 10 mg/kg, every 2 weeks until disease progression, unacceptable toxic effects, or withdrawal from the study.Main outcomes and measuresPrespecified end points in this cohort included confirmed best overall response (per Response Evaluation Criteria In Solid Tumors, version 1.1), immune-related best overall response, duration of response, progression-free survival, overall survival, results of programmed death-ligand 1 expression-based analyses, and safety.ResultsA total of 125 women (median age, 62.0 years [range, 27-84 years]) who had received a median of 3 prior lines of treatment (range, 0-10) for advanced disease were enrolled in the study. Patients received avelumab for a median of 2.8 months (range, 0.5-27.4 months), with a median follow-up of 26.6 months (range, 16-38 months). A confirmed objective response occurred in 12 patients (9.6%; 95% CI, 5.1%-16.2%), including a complete response in 1 patient (0.8%) and a partial response in 11 patients (8.8%). The 1-year progression-free survival rate was 10.2% (95% CI, 5.4%-16.7%) and median overall survival was 11.2 months (95% CI, 8.7-15.4 months). Infusion-related reactions occurred in 25 patients (20.0%). Other frequent treatment-related adverse events (any grade event occurring in ≥10% of patients) were fatigue (17 [13.6%]), diarrhea (15 [12.0%]), and nausea (14 [11.2%]). Grade 3 or higher treatment-related adverse events occurred in 9 patients (7.2%), of which only the level of lipase increased (3 [2.4%]) occurred in more than 1 patient. Twenty-one patients (16.8%) had an immune-related adverse event of any grade. No treatment-related deaths occurred.Conclusions and relevanceAvelumab demonstrated antitumor activity and acceptable safety in heavily pretreated patients with recurrent or refractory ovarian cancer.Trial registrationClinicalTrials.gov identifier: NCT01772004.

Published
2019

9. AACR White Paper: Shaping the Future of Cancer Prevention – A Roadmap for Advancing Science and Public Health

Author

Lippman, Scott M, Abate-Shen, Cory, Colbert Maresso, Karen L, Colditz, Graham A, Dannenberg, Andrew J, Davidson, Nancy E, Disis, Mary L, DuBois, Raymond N, Szabo, Eva, Giuliano, Anna R, Hait, William N, Lee, J Jack, Kensler, Thomas W, Kramer, Barnett S, Limburg, Paul, Maitra, Anirban, Martinez, Maria Elena, Rebbeck, Timothy R, Schmitz, Kathryn H, Vilar, Eduardo, and Hawk, Ernest T

Subjects
Genetics, Prevention, Cancer, Digestive Diseases, Human Genome, Good Health and Well Being, Biomedical Research, Congresses as Topic, Health Plan Implementation, Health Status Disparities, Humans, Neoplasms, Obesity, Primary Prevention, Public Health, Societies, Medical, Societies, Scientific, United States, Clinical Sciences, Oncology and Carcinogenesis, Oncology & Carcinogenesis
Abstract

The recent pace, extent, and impact of paradigm-changing cancer prevention science has been remarkable. The American Association for Cancer Research (AACR) convened a 3-day summit, aligned with five research priorities: (i) Precancer Atlas (PCA). (ii) Cancer interception. (iii) Obesity-cancer linkage, a global epidemic of chronic low-grade inflammation. (iv) Implementation science. (v) Cancer disparities. Aligned with these priorities, AACR co-led the Lancet Commission to formally endorse and accelerate the NCI Cancer Moonshot program, facilitating new global collaborative efforts in cancer control. The expanding scope of creative impact is perhaps most startling-from NCI-funded built environments to AACR Team Science Awarded studies of Asian cancer genomes informing global primary prevention policies; cell-free epigenetic marks identifying incipient neoplastic site; practice-changing genomic subclasses in myeloproliferative neoplasia (including germline variant tightly linked to JAK2 V617F haplotype); universal germline genetic testing for pancreatic cancer; and repurposing drugs targeting immune- and stem-cell signals (e.g., IL-1β, PD-1, RANK-L) to cancer interception. Microbiota-driven IL-17 can induce stemness and transformation in pancreatic precursors (identifying another repurposing opportunity). Notable progress also includes hosting an obesity special conference (connecting epidemiologic and molecular perspectives to inform cancer research and prevention strategies), co-leading concerted national implementation efforts in HPV vaccination, and charting the future elimination of cancer disparities by integrating new science tools, discoveries and perspectives into community-engaged research, including targeted counter attacks on e-cigarette ad exploitation of children, Hispanics and Blacks. Following this summit, two unprecedented funding initiatives were catalyzed to drive cancer prevention research: the NCI Cancer Moonshot (e.g., PCA and disparities); and the AACR-Stand Up To Cancer bold "Cancer Interception" initiative.

Published
2018

10. The Immune Landscape of Cancer

Author

Thorsson, Vésteinn, Gibbs, David L, Brown, Scott D, Wolf, Denise, Bortone, Dante S, Ou Yang, Tai-Hsien, Porta-Pardo, Eduard, Gao, Galen F, Plaisier, Christopher L, Eddy, James A, Ziv, Elad, Culhane, Aedin C, Paull, Evan O, Sivakumar, IK Ashok, Gentles, Andrew J, Malhotra, Raunaq, Farshidfar, Farshad, Colaprico, Antonio, Parker, Joel S, Mose, Lisle E, Vo, Nam Sy, Liu, Jianfang, Liu, Yuexin, Rader, Janet, Dhankani, Varsha, Reynolds, Sheila M, Bowlby, Reanne, Califano, Andrea, Cherniack, Andrew D, Anastassiou, Dimitris, Bedognetti, Davide, Mokrab, Younes, Newman, Aaron M, Rao, Arvind, Chen, Ken, Krasnitz, Alexander, Hu, Hai, Malta, Tathiane M, Noushmehr, Houtan, Pedamallu, Chandra Sekhar, Bullman, Susan, Ojesina, Akinyemi I, Lamb, Andrew, Zhou, Wanding, Shen, Hui, Choueiri, Toni K, Weinstein, John N, Guinney, Justin, Saltz, Joel, Holt, Robert A, Rabkin, Charles S, Lazar, Alexander J, Serody, Jonathan S, Demicco, Elizabeth G, Disis, Mary L, Vincent, Benjamin G, Shmulevich, Ilya, Caesar-Johnson, Samantha J, Demchok, John A, Felau, Ina, Kasapi, Melpomeni, Ferguson, Martin L, Hutter, Carolyn M, Sofia, Heidi J, Tarnuzzer, Roy, Wang, Zhining, Yang, Liming, Zenklusen, Jean C, Zhang, Jiashan Julia, Chudamani, Sudha, Liu, Jia, Lolla, Laxmi, Naresh, Rashi, Pihl, Todd, Sun, Qiang, Wan, Yunhu, Wu, Ye, Cho, Juok, DeFreitas, Timothy, Frazer, Scott, Gehlenborg, Nils, Getz, Gad, Heiman, David I, Kim, Jaegil, Lawrence, Michael S, Lin, Pei, Meier, Sam, Noble, Michael S, Saksena, Gordon, Voet, Doug, Zhang, Hailei, Bernard, Brady, Chambwe, Nyasha, Knijnenburg, Theo, Kramer, Roger, Leinonen, Kalle, Miller, Michael, and Reynolds, Sheila

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Immunology, Immunotherapy, Cancer Genomics, Human Genome, Genetics, Cancer, 2.1 Biological and endogenous factors, Inflammatory and immune system, Adolescent, Adult, Aged, Aged, 80 and over, Child, Female, Genomics, Humans, Interferon-gamma, Macrophages, Male, Middle Aged, Neoplasms, Prognosis, Th1-Th2 Balance, Transforming Growth Factor beta, Wound Healing, Young Adult, Cancer Genome Atlas Research Network, cancer genomics, immune subtypes, immuno-oncology, immunomodulatory, immunotherapy, integrative network analysis, tumor immunology, tumor microenvironment
Abstract

We performed an extensive immunogenomic analysis of more than 10,000 tumors comprising 33 diverse cancer types by utilizing data compiled by TCGA. Across cancer types, we identified six immune subtypes-wound healing, IFN-γ dominant, inflammatory, lymphocyte depleted, immunologically quiet, and TGF-β dominant-characterized by differences in macrophage or lymphocyte signatures, Th1:Th2 cell ratio, extent of intratumoral heterogeneity, aneuploidy, extent of neoantigen load, overall cell proliferation, expression of immunomodulatory genes, and prognosis. Specific driver mutations correlated with lower (CTNNB1, NRAS, or IDH1) or higher (BRAF, TP53, or CASP8) leukocyte levels across all cancers. Multiple control modalities of the intracellular and extracellular networks (transcription, microRNAs, copy number, and epigenetic processes) were involved in tumor-immune cell interactions, both across and within immune subtypes. Our immunogenomics pipeline to characterize these heterogeneous tumors and the resulting data are intended to serve as a resource for future targeted studies to further advance the field.

Published
2018

12. Immunotherapy of head and neck cancer: Emerging clinical trials from a National Cancer Institute Head and Neck Cancer Steering Committee Planning Meeting

Author

Bauman, Julie E, Cohen, Ezra, Ferris, Robert L, Adelstein, David J, Brizel, David M, Ridge, John A, O'Sullivan, Brian, Burtness, Barbara A, Butterfield, Lisa H, Carson, William E, Disis, Mary L, Fox, Bernard A, Gajewski, Thomas F, Gillison, Maura L, Hodge, James W, Le, Quynh‐Thu, Raben, David, Strome, Scott E, Lynn, Jean, and Malik, Shakun

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Immunology, Rare Diseases, Dental/Oral and Craniofacial Disease, Cancer, Clinical Trials and Supportive Activities, Clinical Research, Good Health and Well Being, Antibodies, Monoclonal, Clinical Trials as Topic, Combined Modality Therapy, Head and Neck Neoplasms, Humans, Immunologic Factors, Immunotherapy, Molecular Targeted Therapy, National Cancer Institute (U.S.), Neoplasm Staging, Patient Selection, Treatment Outcome, United States, checkpoint inhibitors, clinical trials, head and neck cancer, human papillomavirus, immunotherapy, Public Health and Health Services, Oncology & Carcinogenesis, Oncology and carcinogenesis, Public health
Abstract

Recent advances have permitted successful therapeutic targeting of the immune system in head and neck squamous cell carcinoma (HNSCC). These new immunotherapeutic targets and agents are being rapidly adopted by the oncologic community and hold considerable promise. The National Cancer Institute sponsored a Clinical Trials Planning Meeting to address the issue of how to further investigate the use of immunotherapy in patients with HNSCC. The goals of the meeting were to consider phase 2 or 3 trial designs primarily in 3 different patient populations: those with previously untreated, human papillomavirus-initiated oropharyngeal cancers; those with previously untreated, human papillomavirus-negative HNSCC; and those with recurrent/metastatic HNSCC. In addition, a separate committee was formed to develop integrative biomarkers for the clinical trials. The meeting started with an overview of key immune components and principles related to HNSCC, including immunosurveillance and immune escape. Four clinical trial concepts were developed at the meeting integrating different immunotherapies with existing standards of care. These designs were presented for implementation by the head and neck committees of the National Cancer Institute-funded National Clinical Trials Network. This article summarizes the proceedings of this Clinical Trials Planning Meeting, the purpose of which was to facilitate the rigorous development and design of randomized phase 2 and 3 immunotherapeutic trials in patients with HNSCC. Although reviews usually are published immediately after the meeting is held, this report is unique because there are now tangible clinical trial designs that have been funded and put into practice and the studies are being activated to accrual. Cancer 2017;123:1259-1271. © 2016 American Cancer Society.

Published
2017

13. Precancer Atlas to Drive Precision Prevention Trials

Author

Spira, Avrum, Yurgelun, Matthew B, Alexandrov, Ludmil, Rao, Anjana, Bejar, Rafael, Polyak, Kornelia, Giannakis, Marios, Shilatifard, Ali, Finn, Olivera J, Dhodapkar, Madhav, Kay, Neil E, Braggio, Esteban, Vilar, Eduardo, Mazzilli, Sarah A, Rebbeck, Timothy R, Garber, Judy E, Velculescu, Victor E, Disis, Mary L, Wallace, Douglas C, and Lippman, Scott M

Subjects
Immunization, Cancer, Digestive Diseases, Rare Diseases, Genetics, Prevention, Genetic Testing, Aging, Clinical Research, Good Health and Well Being, Animals, Cancer Vaccines, Cellular Microenvironment, DNA, Mitochondrial, Epigenesis, Genetic, Genetic Predisposition to Disease, Genome-Wide Association Study, Germ-Line Mutation, High-Throughput Nucleotide Sequencing, Humans, Mitochondria, Neoplasms, Precancerous Conditions, Precision Medicine, Single-Cell Analysis, Oncology and Carcinogenesis, Oncology & Carcinogenesis
Abstract

Cancer development is a complex process driven by inherited and acquired molecular and cellular alterations. Prevention is the holy grail of cancer elimination, but making this a reality will take a fundamental rethinking and deep understanding of premalignant biology. In this Perspective, we propose a national concerted effort to create a Precancer Atlas (PCA), integrating multi-omics and immunity - basic tenets of the neoplastic process. The biology of neoplasia caused by germline mutations has led to paradigm-changing precision prevention efforts, including: tumor testing for mismatch repair (MMR) deficiency in Lynch syndrome establishing a new paradigm, combinatorial chemoprevention efficacy in familial adenomatous polyposis (FAP), signal of benefit from imaging-based early detection research in high-germline risk for pancreatic neoplasia, elucidating early ontogeny in BRCA1-mutation carriers leading to an international breast cancer prevention trial, and insights into the intricate germline-somatic-immunity interaction landscape. Emerging genetic and pharmacologic (metformin) disruption of mitochondrial (mt) respiration increased autophagy to prevent cancer in a Li-Fraumeni mouse model (biology reproduced in clinical pilot) and revealed profound influences of subtle changes in mt DNA background variation on obesity, aging, and cancer risk. The elaborate communication between the immune system and neoplasia includes an increasingly complex cellular microenvironment and dynamic interactions between host genetics, environmental factors, and microbes in shaping the immune response. Cancer vaccines are in early murine and clinical precancer studies, building on the recent successes of immunotherapy and HPV vaccine immune prevention. Molecular monitoring in Barrett's esophagus to avoid overdiagnosis/treatment highlights an important PCA theme. Next generation sequencing (NGS) discovered age-related clonal hematopoiesis of indeterminate potential (CHIP). Ultra-deep NGS reports over the past year have redefined the premalignant landscape remarkably identifying tiny clones in the blood of up to 95% of women in their 50s, suggesting that potentially premalignant clones are ubiquitous. Similar data from eyelid skin and peritoneal and uterine lavage fluid provide unprecedented opportunities to dissect the earliest phases of stem/progenitor clonal (and microenvironment) evolution/diversity with new single-cell and liquid biopsy technologies. Cancer mutational signatures reflect exogenous or endogenous processes imprinted over time in precursors. Accelerating the prevention of cancer will require a large-scale, longitudinal effort, leveraging diverse disciplines (from genetics, biochemistry, and immunology to mathematics, computational biology, and engineering), initiatives, technologies, and models in developing an integrated multi-omics and immunity PCA - an immense national resource to interrogate, target, and intercept events that drive oncogenesis. Cancer Res; 77(7); 1510-41. ©2017 AACR.

Published
2017

15. Immunodynamics: a cancer immunotherapy trials network review of immune monitoring in immuno-oncology clinical trials

Author

Kohrt, Holbrook E, Tumeh, Paul C, Benson, Don, Bhardwaj, Nina, Brody, Joshua, Formenti, Silvia, Fox, Bernard A, Galon, Jerome, June, Carl H, Kalos, Michael, Kirsch, Ilan, Kleen, Thomas, Kroemer, Guido, Lanier, Lewis, Levy, Ron, Lyerly, H Kim, Maecker, Holden, Marabelle, Aurelien, Melenhorst, Jos, Miller, Jeffrey, Melero, Ignacio, Odunsi, Kunle, Palucka, Karolina, Peoples, George, Ribas, Antoni, Robins, Harlan, Robinson, William, Serafini, Tito, Sondel, Paul, Vivier, Eric, Weber, Jeff, Wolchok, Jedd, Zitvogel, Laurence, Disis, Mary L, Cheever, Martin A, and on behalf of the Cancer Immunotherapy Trials Network (CITN)

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Immunology, Cancer, Immunization, Clinical Research, Clinical Trials and Supportive Activities, Immunotherapy, Vaccine Related, 5.1 Pharmaceuticals, 6.1 Pharmaceuticals, Biomarker, Clinical trial, Cancer Immunotherapy Trials Network, Oncology and carcinogenesis
Abstract

The efficacy of PD-1/PD-L1 targeted therapies in addition to anti-CTLA-4 solidifies immunotherapy as a modality to add to the anticancer arsenal. Despite raising the bar of clinical efficacy, immunologically targeted agents raise new challenges to conventional drug development paradigms by highlighting the limited relevance of assessing standard pharmacokinetics (PK) and pharmacodynamics (PD). Specifically, systemic and intratumoral immune effects have not consistently correlated with standard relationships between systemic dose, toxicity, and efficacy for cytotoxic therapies. Hence, PK and PD paradigms remain inadequate to guide the selection of doses and schedules, both starting and recommended Phase 2 for immunotherapies. The promise of harnessing the immune response against cancer must also be considered in light of unique and potentially serious toxicities. Refining immune endpoints to better inform clinical trial design represents a high priority challenge. The Cancer Immunotherapy Trials Network investigators review the immunodynamic effects of specific classes of immunotherapeutic agents to focus immune assessment modalities and sites, both systemic and importantly intratumoral, which are critical to the success of the rapidly growing field of immuno-oncology.

Published
2016

16. Leveraging premalignant biology for immune-based cancer prevention

Author

Spira, Avrum, Disis, Mary L, Schiller, John T, Vilar, Eduardo, Rebbeck, Timothy R, Bejar, Rafael, Ideker, Trey, Arts, Janine, Yurgelun, Matthew B, Mesirov, Jill P, Rao, Anjana, Garber, Judy, Jaffee, Elizabeth M, and Lippman, Scott M

Subjects
Genetics, Human Genome, Cancer, Prevention, Genetic Testing, Aetiology, 2.1 Biological and endogenous factors, Good Health and Well Being, Germ Cells, Humans, Immune System, Models, Biological, Neoplasm Proteins, Neoplasms, Precancerous Conditions, Tumor Microenvironment, premalignancy, biology, vaccines, cancer prevention, immune oncology
Abstract

Prevention is an essential component of cancer eradication. Next-generation sequencing of cancer genomes and epigenomes has defined large numbers of driver mutations and molecular subgroups, leading to therapeutic advances. By comparison, there is a relative paucity of such knowledge in premalignant neoplasia, which inherently limits the potential to develop precision prevention strategies. Studies on the interplay between germ-line and somatic events have elucidated genetic processes underlying premalignant progression and preventive targets. Emerging data hint at the immune system's ability to intercept premalignancy and prevent cancer. Genetically engineered mouse models have identified mechanisms by which genetic drivers and other somatic alterations recruit inflammatory cells and induce changes in normal cells to create and interact with the premalignant tumor microenvironment to promote oncogenesis and immune evasion. These studies are currently limited to only a few lesion types and patients. In this Perspective, we advocate a large-scale collaborative effort to systematically map the biology of premalignancy and the surrounding cellular response. By bringing together scientists from diverse disciplines (e.g., biochemistry, omics, and computational biology; microbiology, immunology, and medical genetics; engineering, imaging, and synthetic chemistry; and implementation science), we can drive a concerted effort focused on cancer vaccines to reprogram the immune response to prevent, detect, and reject premalignancy. Lynch syndrome, clonal hematopoiesis, and cervical intraepithelial neoplasia which also serve as models for inherited syndromes, blood, and viral premalignancies, are ideal scenarios in which to launch this initiative.

Published
2016

17. Flt3 ligand augments immune responses to anti-DEC-205-NY-ESO-1 vaccine through expansion of dendritic cell subsets

Author

Bhardwaj, Nina, Friedlander, Philip A., Pavlick, Anna C., Ernstoff, Marc S., Gastman, Brian R., Hanks, Brent A., Curti, Brendan D., Albertini, Mark R., Luke, Jason J., Blazquez, Ana B., Balan, Sreekumar, Bedognetti, Davide, Beechem, Joseph M., Crocker, Andrea S., D’Amico, Leonard, Danaher, Patrick, Davis, Thomas A., Hawthorne, Thomas, Hess, Bruce W., Keler, Tibor, Lundgren, Lisa, Morishima, Chihiro, Ramchurren, Nirasha, Rinchai, Darawan, Salazar, Andres M., Salim, Bob A., Sharon, Elad, Vitale, Laura A., Wang, Ena, Warren, Sarah, Yellin, Michael J., Disis, Mary L., Cheever, Martin A., and Fling, Steven P.

Published
2020
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19. 163 A multi-modal, pan-cancer atlas of tumor-immune states across primary and metastatic disease using a large, real-world database

Author

Jain, Prerna, primary, Stein, Michelle M, additional, Fields, Paul, additional, Osinski, Bolesław, additional, Lonini, Luca, additional, Lozac’hmeur, Ariane, additional, Joshi, Rohan, additional, Nimeiri, Halla, additional, Stumpe, Martin, additional, Sasser, Kate, additional, Igartua, Catherine, additional, Guinney, Justin, additional, and Disis, Mary L, additional

Published
2023
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21. JAMA Network Call for Papers on Health and the 2024 US Election

Author

Galbraith, Alison, primary, Flanagin, Annette, additional, Carroll, Aaron E., additional, Ayanian, John Z., additional, Bonow, Robert O., additional, Bressler, Neil, additional, Christakis, Dimitri, additional, Disis, Mary L. (Nora), additional, Inouye, Sharon K., additional, Josephson, Andrew, additional, Öngür, Dost, additional, Piccirillo, Jay F., additional, Shinkai, Kanade, additional, and Bibbins-Domingo, Kirsten, additional

Published
2023
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22. HER2/neu

Author

Disis, Mary L., O’Meara, Megan M., and Marshall, John L., editor

Published
2017
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23. The Immune Landscape of Cancer

Author

Caesar-Johnson, Samantha J., Demchok, John A., Felau, Ina, Kasapi, Melpomeni, Ferguson, Martin L., Hutter, Carolyn M., Sofia, Heidi J., Tarnuzzer, Roy, Wang, Zhining, Yang, Liming, Zenklusen, Jean C., Zhang, Jiashan (Julia), Chudamani, Sudha, Liu, Jia, Lolla, Laxmi, Naresh, Rashi, Pihl, Todd, Sun, Qiang, Wan, Yunhu, Wu, Ye, Cho, Juok, DeFreitas, Timothy, Frazer, Scott, Gehlenborg, Nils, Getz, Gad, Heiman, David I., Kim, Jaegil, Lawrence, Michael S., Lin, Pei, Meier, Sam, Noble, Michael S., Saksena, Gordon, Voet, Doug, Zhang, Hailei, Bernard, Brady, Chambwe, Nyasha, Dhankani, Varsha, Knijnenburg, Theo, Kramer, Roger, Leinonen, Kalle, Liu, Yuexin, Miller, Michael, Reynolds, Sheila, Shmulevich, Ilya, Thorsson, Vesteinn, Zhang, Wei, Akbani, Rehan, Broom, Bradley M., Hegde, Apurva M., Ju, Zhenlin, Kanchi, Rupa S., Korkut, Anil, Li, Jun, Liang, Han, Ling, Shiyun, Liu, Wenbin, Lu, Yiling, Mills, Gordon B., Ng, Kwok-Shing, Rao, Arvind, Ryan, Michael, Wang, Jing, Weinstein, John N., Zhang, Jiexin, Abeshouse, Adam, Armenia, Joshua, Chakravarty, Debyani, Chatila, Walid K., de Bruijn, Ino, Gao, Jianjiong, Gross, Benjamin E., Heins, Zachary J., Kundra, Ritika, La, Konnor, Ladanyi, Marc, Luna, Augustin, Nissan, Moriah G., Ochoa, Angelica, Phillips, Sarah M., Reznik, Ed, Sanchez-Vega, Francisco, Sander, Chris, Schultz, Nikolaus, Sheridan, Robert, Sumer, S. Onur, Sun, Yichao, Taylor, Barry S., Wang, Jioajiao, Zhang, Hongxin, Anur, Pavana, Peto, Myron, Spellman, Paul, Benz, Christopher, Stuart, Joshua M., Wong, Christopher K., Yau, Christina, Hayes, D. Neil, Parker, Joel S., Wilkerson, Matthew D., Ally, Adrian, Balasundaram, Miruna, Bowlby, Reanne, Brooks, Denise, Carlsen, Rebecca, Chuah, Eric, Dhalla, Noreen, Holt, Robert, Jones, Steven J.M., Kasaian, Katayoon, Lee, Darlene, Ma, Yussanne, Marra, Marco A., Mayo, Michael, Moore, Richard A., Mungall, Andrew J., Mungall, Karen, Robertson, A. Gordon, Sadeghi, Sara, Schein, Jacqueline E., Sipahimalani, Payal, Tam, Angela, Thiessen, Nina, Tse, Kane, Wong, Tina, Berger, Ashton C., Beroukhim, Rameen, Cherniack, Andrew D., Cibulskis, Carrie, Gabriel, Stacey B., Gao, Galen F., Ha, Gavin, Meyerson, Matthew, Schumacher, Steven E., Shih, Juliann, Kucherlapati, Melanie H., Kucherlapati, Raju S., Baylin, Stephen, Cope, Leslie, Danilova, Ludmila, Bootwalla, Moiz S., Lai, Phillip H., Maglinte, Dennis T., Van Den Berg, David J., Weisenberger, Daniel J., Auman, J. Todd, Balu, Saianand, Bodenheimer, Tom, Fan, Cheng, Hoadley, Katherine A., Hoyle, Alan P., Jefferys, Stuart R., Jones, Corbin D., Meng, Shaowu, Mieczkowski, Piotr A., Mose, Lisle E., Perou, Amy H., Perou, Charles M., Roach, Jeffrey, Shi, Yan, Simons, Janae V., Skelly, Tara, Soloway, Matthew G., Tan, Donghui, Veluvolu, Umadevi, Fan, Huihui, Hinoue, Toshinori, Laird, Peter W., Shen, Hui, Zhou, Wanding, Bellair, Michelle, Chang, Kyle, Covington, Kyle, Creighton, Chad J., Dinh, Huyen, Doddapaneni, HarshaVardhan, Donehower, Lawrence A., Drummond, Jennifer, Gibbs, Richard A., Glenn, Robert, Hale, Walker, Han, Yi, Hu, Jianhong, Korchina, Viktoriya, Lee, Sandra, Lewis, Lora, Li, Wei, Liu, Xiuping, Morgan, Margaret, Morton, Donna, Muzny, Donna, Santibanez, Jireh, Sheth, Margi, Shinbrot, Eve, Wang, Linghua, Wang, Min, Wheeler, David A., Xi, Liu, Zhao, Fengmei, Hess, Julian, Appelbaum, Elizabeth L., Bailey, Matthew, Cordes, Matthew G., Ding, Li, Fronick, Catrina C., Fulton, Lucinda A., Fulton, Robert S., Kandoth, Cyriac, Mardis, Elaine R., McLellan, Michael D., Miller, Christopher A., Schmidt, Heather K., Wilson, Richard K., Crain, Daniel, Curley, Erin, Gardner, Johanna, Lau, Kevin, Mallery, David, Morris, Scott, Paulauskis, Joseph, Penny, Robert, Shelton, Candace, Shelton, Troy, Sherman, Mark, Thompson, Eric, Yena, Peggy, Bowen, Jay, Gastier-Foster, Julie M., Gerken, Mark, Leraas, Kristen M., Lichtenberg, Tara M., Ramirez, Nilsa C., Wise, Lisa, Zmuda, Erik, Corcoran, Niall, Costello, Tony, Hovens, Christopher, Carvalho, Andre L., de Carvalho, Ana C., Fregnani, José H., Longatto-Filho, Adhemar, Reis, Rui M., Scapulatempo-Neto, Cristovam, Silveira, Henrique C.S., Vidal, Daniel O., Burnette, Andrew, Eschbacher, Jennifer, Hermes, Beth, Noss, Ardene, Singh, Rosy, Anderson, Matthew L., Castro, Patricia D., Ittmann, Michael, Huntsman, David, Kohl, Bernard, Le, Xuan, Thorp, Richard, Andry, Chris, Duffy, Elizabeth R., Lyadov, Vladimir, Paklina, Oxana, Setdikova, Galiya, Shabunin, Alexey, Tavobilov, Mikhail, McPherson, Christopher, Warnick, Ronald, Berkowitz, Ross, Cramer, Daniel, Feltmate, Colleen, Horowitz, Neil, Kibel, Adam, Muto, Michael, Raut, Chandrajit P., Malykh, Andrei, Barnholtz-Sloan, Jill S., Barrett, Wendi, Devine, Karen, Fulop, Jordonna, Ostrom, Quinn T., Shimmel, Kristen, Wolinsky, Yingli, Sloan, Andrew E., De Rose, Agostino, Giuliante, Felice, Goodman, Marc, Karlan, Beth Y., Hagedorn, Curt H., Eckman, John, Harr, Jodi, Myers, Jerome, Tucker, Kelinda, Zach, Leigh Anne, Deyarmin, Brenda, Hu, Hai, Kvecher, Leonid, Larson, Caroline, Mural, Richard J., Somiari, Stella, Vicha, Ales, Zelinka, Tomas, Bennett, Joseph, Iacocca, Mary, Rabeno, Brenda, Swanson, Patricia, Latour, Mathieu, Lacombe, Louis, Têtu, Bernard, Bergeron, Alain, McGraw, Mary, Staugaitis, Susan M., Chabot, John, Hibshoosh, Hanina, Sepulveda, Antonia, Su, Tao, Wang, Timothy, Potapova, Olga, Voronina, Olga, Desjardins, Laurence, Mariani, Odette, Roman-Roman, Sergio, Sastre, Xavier, Stern, Marc-Henri, Cheng, Feixiong, Signoretti, Sabina, Berchuck, Andrew, Bigner, Darell, Lipp, Eric, Marks, Jeffrey, McCall, Shannon, McLendon, Roger, Secord, Angeles, Sharp, Alexis, Behera, Madhusmita, Brat, Daniel J., Chen, Amy, Delman, Keith, Force, Seth, Khuri, Fadlo, Magliocca, Kelly, Maithel, Shishir, Olson, Jeffrey J., Owonikoko, Taofeek, Pickens, Alan, Ramalingam, Suresh, Shin, Dong M., Sica, Gabriel, Van Meir, Erwin G., Zhang, Hongzheng, Eijckenboom, Wil, Gillis, Ad, Korpershoek, Esther, Looijenga, Leendert, Oosterhuis, Wolter, Stoop, Hans, van Kessel, Kim E., Zwarthoff, Ellen C., Calatozzolo, Chiara, Cuppini, Lucia, Cuzzubbo, Stefania, DiMeco, Francesco, Finocchiaro, Gaetano, Mattei, Luca, Perin, Alessandro, Pollo, Bianca, Chen, Chu, Houck, John, Lohavanichbutr, Pawadee, Hartmann, Arndt, Stoehr, Christine, Stoehr, Robert, Taubert, Helge, Wach, Sven, Wullich, Bernd, Kycler, Witold, Murawa, Dawid, Wiznerowicz, Maciej, Chung, Ki, Edenfield, W. Jeffrey, Martin, Julie, Baudin, Eric, Bubley, Glenn, Bueno, Raphael, De Rienzo, Assunta, Richards, William G., Kalkanis, Steven, Mikkelsen, Tom, Noushmehr, Houtan, Scarpace, Lisa, Girard, Nicolas, Aymerich, Marta, Campo, Elias, Giné, Eva, Guillermo, Armando López, Van Bang, Nguyen, Hanh, Phan Thi, Phu, Bui Duc, Tang, Yufang, Colman, Howard, Evason, Kimberley, Dottino, Peter R., Martignetti, John A., Gabra, Hani, Juhl, Hartmut, Akeredolu, Teniola, Stepa, Serghei, Hoon, Dave, Ahn, Keunsoo, Kang, Koo Jeong, Beuschlein, Felix, Breggia, Anne, Birrer, Michael, Bell, Debra, Borad, Mitesh, Bryce, Alan H., Castle, Erik, Chandan, Vishal, Cheville, John, Copland, John A., Farnell, Michael, Flotte, Thomas, Giama, Nasra, Ho, Thai, Kendrick, Michael, Kocher, Jean-Pierre, Kopp, Karla, Moser, Catherine, Nagorney, David, O’Brien, Daniel, O’Neill, Brian Patrick, Patel, Tushar, Petersen, Gloria, Que, Florencia, Rivera, Michael, Roberts, Lewis, Smallridge, Robert, Smyrk, Thomas, Stanton, Melissa, Thompson, R. Houston, Torbenson, Michael, Yang, Ju Dong, Zhang, Lizhi, Brimo, Fadi, Ajani, Jaffer A., Gonzalez, Ana Maria Angulo, Behrens, Carmen, Bondaruk, Jolanta, Broaddus, Russell, Czerniak, Bogdan, Esmaeli, Bita, Fujimoto, Junya, Gershenwald, Jeffrey, Guo, Charles, Lazar, Alexander J., Logothetis, Christopher, Meric-Bernstam, Funda, Moran, Cesar, Ramondetta, Lois, Rice, David, Sood, Anil, Tamboli, Pheroze, Thompson, Timothy, Troncoso, Patricia, Tsao, Anne, Wistuba, Ignacio, Carter, Candace, Haydu, Lauren, Hersey, Peter, Jakrot, Valerie, Kakavand, Hojabr, Kefford, Richard, Lee, Kenneth, Long, Georgina, Mann, Graham, Quinn, Michael, Saw, Robyn, Scolyer, Richard, Shannon, Kerwin, Spillane, Andrew, Stretch, onathan, Synott, Maria, Thompson, John, Wilmott, James, Al-Ahmadie, Hikmat, Chan, Timothy A., Ghossein, Ronald, Gopalan, Anuradha, Levine, Douglas A., Reuter, Victor, Singer, Samuel, Singh, Bhuvanesh, Tien, Nguyen Viet, Broudy, Thomas, Mirsaidi, Cyrus, Nair, Praveen, Drwiega, Paul, Miller, Judy, Smith, Jennifer, Zaren, Howard, Park, Joong-Won, Hung, Nguyen Phi, Kebebew, Electron, Linehan, W. Marston, Metwalli, Adam R., Pacak, Karel, Pinto, Peter A., Schiffman, Mark, Schmidt, Laura S., Vocke, Cathy D., Wentzensen, Nicolas, Worrell, Robert, Yang, Hannah, Moncrieff, Marc, Goparaju, Chandra, Melamed, Jonathan, Pass, Harvey, Botnariuc, Natalia, Caraman, Irina, Cernat, Mircea, Chemencedji, Inga, Clipca, Adrian, Doruc, Serghei, Gorincioi, Ghenadie, Mura, Sergiu, Pirtac, Maria, Stancul, Irina, Tcaciuc, Diana, Albert, Monique, Alexopoulou, Iakovina, Arnaout, Angel, Bartlett, John, Engel, Jay, Gilbert, Sebastien, Parfitt, Jeremy, Sekhon, Harman, Thomas, George, Rassl, Doris M., Rintoul, Robert C., Bifulco, Carlo, Tamakawa, Raina, Urba, Walter, Hayward, Nicholas, Timmers, Henri, Antenucci, Anna, Facciolo, Francesco, Grazi, Gianluca, Marino, Mirella, Merola, Roberta, de Krijger, Ronald, Gimenez-Roqueplo, Anne-Paule, Piché, Alain, Chevalier, Simone, McKercher, Ginette, Birsoy, Kivanc, Barnett, Gene, Brewer, Cathy, Farver, Carol, Naska, Theresa, Pennell, Nathan A., Raymond, Daniel, Schilero, Cathy, Smolenski, Kathy, Williams, Felicia, Morrison, Carl, Borgia, Jeffrey A., Liptay, Michael J., Pool, Mark, Seder, Christopher W., Junker, Kerstin, Omberg, Larsson, Dinkin, Mikhail, Manikhas, George, Alvaro, Domenico, Bragazzi, Maria Consiglia, Cardinale, Vincenzo, Carpino, Guido, Gaudio, Eugenio, Chesla, David, Cottingham, Sandra, Dubina, Michael, Moiseenko, Fedor, Dhanasekaran, Renumathy, Becker, Karl-Friedrich, Janssen, Klaus-Peter, Slotta-Huspenina, Julia, Abdel-Rahman, Mohamed H., Aziz, Dina, Bell, Sue, Cebulla, Colleen M., Davis, Amy, Duell, Rebecca, Elder, J. Bradley, Hilty, Joe, Kumar, Bahavna, Lang, James, Lehman, Norman L., Mandt, Randy, Nguyen, Phuong, Pilarski, Robert, Rai, Karan, Schoenfield, Lynn, Senecal, Kelly, Wakely, Paul, Hansen, Paul, Lechan, Ronald, Powers, James, Tischler, Arthur, Grizzle, William E., Sexton, Katherine C., Kastl, Alison, Henderson, Joel, Porten, Sima, Waldmann, Jens, Fassnacht, Martin, Asa, Sylvia L., Schadendorf, Dirk, Couce, Marta, Graefen, Markus, Huland, Hartwig, Sauter, Guido, Schlomm, Thorsten, Simon, Ronald, Tennstedt, Pierre, Olabode, Oluwole, Nelson, Mark, Bathe, Oliver, Carroll, Peter R., Chan, June M., Disaia, Philip, Glenn, Pat, Kelley, Robin K., Landen, Charles N., Phillips, Joanna, Prados, Michael, Simko, Jeffry, Smith-McCune, Karen, VandenBerg, Scott, Roggin, Kevin, Fehrenbach, Ashley, Kendler, Ady, Sifri, Suzanne, Steele, Ruth, Jimeno, Antonio, Carey, Francis, Forgie, Ian, Mannelli, Massimo, Carney, Michael, Hernandez, Brenda, Campos, Benito, Herold-Mende, Christel, Jungk, Christin, Unterberg, Andreas, von Deimling, Andreas, Bossler, Aaron, Galbraith, Joseph, Jacobus, Laura, Knudson, Michael, Knutson, Tina, Ma, Deqin, Milhem, Mohammed, Sigmund, Rita, Godwin, Andrew K., Madan, Rashna, Rosenthal, Howard G., Adebamowo, Clement, Adebamowo, Sally N., Boussioutas, Alex, Beer, David, Giordano, Thomas, Mes-Masson, Anne-Marie, Saad, Fred, Bocklage, Therese, Landrum, Lisa, Mannel, Robert, Moore, Kathleen, Moxley, Katherine, Postier, Russel, Walker, Joan, Zuna, Rosemary, Feldman, Michael, Valdivieso, Federico, Dhir, Rajiv, Luketich, James, Pinero, Edna M. Mora, Quintero-Aguilo, Mario, Carlotti, Carlos Gilberto, Jr., Dos Santos, Jose Sebastião, Kemp, Rafael, Sankarankuty, Ajith, Tirapelli, Daniela, Catto, James, Agnew, Kathy, Swisher, Elizabeth, Creaney, Jenette, Robinson, Bruce, Shelley, Carl Simon, Godwin, Eryn M., Kendall, Sara, Shipman, Cassaundra, Bradford, Carol, Carey, Thomas, Haddad, Andrea, Moyer, Jeffey, Peterson, Lisa, Prince, Mark, Rozek, Laura, Wolf, Gregory, Bowman, Rayleen, Fong, Kwun M., Yang, Ian, Korst, Robert, Rathmell, W. Kimryn, Fantacone-Campbell, J. Leigh, Hooke, Jeffrey A., Kovatich, Albert J., Shriver, Craig D., DiPersio, John, Drake, Bettina, Govindan, Ramaswamy, Heath, Sharon, Ley, Timothy, Van Tine, Brian, Westervelt, Peter, Rubin, Mark A., Lee, Jung Il, Aredes, Natália D., Mariamidze, Armaz, Thorsson, Vésteinn, Gibbs, David L., Brown, Scott D., Wolf, Denise, Bortone, Dante S., Ou Yang, Tai-Hsien, Porta-Pardo, Eduard, Plaisier, Christopher L., Eddy, James A., Ziv, Elad, Culhane, Aedin C., Paull, Evan O., Sivakumar, I.K. Ashok, Gentles, Andrew J., Malhotra, Raunaq, Farshidfar, Farshad, Colaprico, Antonio, Vo, Nam Sy, Liu, Jianfang, Rader, Janet, Reynolds, Sheila M., Califano, Andrea, Anastassiou, Dimitris, Bedognetti, Davide, Mokrab, Younes, Newman, Aaron M., Chen, Ken, Krasnitz, Alexander, Malta, Tathiane M., Pedamallu, Chandra Sekhar, Bullman, Susan, Ojesina, Akinyemi I., Lamb, Andrew, Choueiri, Toni K., Guinney, Justin, Saltz, Joel, Holt, Robert A., Rabkin, Charles S., Serody, Jonathan S., Demicco, Elizabeth G., Disis, Mary L., and Vincent, Benjamin G.

Published
2018
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25. Timed Sequential Treatment With Cyclophosphamide, Doxorubicin, and an Allogeneic Granulocyte-Macrophage Colony-Stimulating Factor–Secreting Breast Tumor Vaccine: A Chemotherapy Dose-Ranging Factorial Study of Safety and Immune Activation

Author

Emens, Leisha A, Asquith, Justin M, Leatherman, James M, Kobrin, Barry J, Petrik, Silvia, Laiko, Marina, Levi, Joy, Daphtary, Maithili M, Biedrzycki, Barbara, Wolff, Antonio C, Stearns, Vered, Disis, Mary L, Ye, Xiaobu, Piantadosi, Steven, Fetting, John H, Davidson, Nancy E, and Jaffee, Elizabeth M

Subjects
Cancer, Clinical Research, Biotechnology, Breast Cancer, Vaccine Related, Prevention, Clinical Trials and Supportive Activities, Immunization, 6.1 Pharmaceuticals, Evaluation of treatments and therapeutic interventions, Good Health and Well Being, Adult, Aged, Antineoplastic Combined Chemotherapy Protocols, Breast Neoplasms, CD4-Positive T-Lymphocytes, Cancer Vaccines, Cell Line, Combined Modality Therapy, Cyclophosphamide, Dose-Response Relationship, Drug, Doxorubicin, Drug Administration Schedule, Female, Granulocyte-Macrophage Colony-Stimulating Factor, Humans, Immunization Schedule, Immunotherapy, Adoptive, Middle Aged, Receptor, ErbB-2, Time Factors, Transfection, Treatment Outcome, Receptor, erbB-2, Clinical Sciences, Oncology and Carcinogenesis, Oncology & Carcinogenesis
Abstract

PurposeGranulocyte-macrophage colony-stimulating factor (GM-CSF) -secreting tumor vaccines have demonstrated bioactivity but may be limited by disease burdens and immune tolerance. We tested the hypothesis that cyclophosphamide (CY) and doxorubicin (DOX) can enhance vaccine-induced immunity in patients with breast cancer.Patients and methodsWe conducted a 3 x 3 factorial (response surface) dose-ranging study of CY, DOX, and an HER2-positive, allogeneic, GM-CSF-secreting tumor vaccine in 28 patients with metastatic breast cancer. Patients received three monthly immunizations, with a boost 6 to 8 months from study entry. Primary objectives included safety and determination of the chemotherapy doses that maximize HER2-specific immunity.ResultsTwenty-eight patients received at least one immunization, and 16 patients received four immunizations. No dose-limiting toxicities were observed. HER2-specific delayed-type hypersensitivity developed in most patients who received vaccine alone or with 200 mg/m(2) CY. HER2-specific antibody responses were enhanced by 200 mg/m(2) CY and 35 mg/m(2) DOX, but higher CY doses suppressed immunity. Analyses revealed that CY at 200 mg/m(2) and DOX at 35 mg/m(2) is the combination that produced the highest antibody responses.ConclusionFirst, immunotherapy with an allogeneic, HER2-positive, GM-CSF-secreting breast tumor vaccine alone or with CY and DOX is safe and induces HER2-specific immunity in patients with metastatic breast cancer. Second, the immunomodulatory activity of low-dose CY has a narrow therapeutic window, with an optimal dose not exceeding 200 mg/m(2). Third, factorial designs provide an opportunity to identify the most active combination of interacting drugs in patients. Further investigation of the impact of chemotherapy on vaccine-induced immunity is warranted.

Published
2009

29. Emerging concepts in biomarker discovery; The US-Japan workshop on immunological molecular markers in oncology

Author

Tahara, Hideaki, Sato, Marimo, Thurin, Magdalena, Wang, Ena, Butterfield, Lisa H, Disis, Mary L, Fox, Bernard A, Lee, Peter P, Khleif, Samir N, Wigginton, Jon M, Ambs, Stefan, Akutsu, Yasunori, Chaussabel, Damien, Doki, Yuichiro, Eremin, Oleg, Fridman, Wolf, Hirohashi, Yoshihiko, Imai, Kohzoh, Jacobson, James, Jinushi, Masahisa, Kanamoto, Akira, Kashani-Sabet, Mohammed, Kato, Kazunori, Kawakami, Yutaka, Kirkwood, John M, Kleen, Thomas O, Lehmann, Paul V, Liotta, Lance, Lotze, Michael T, Maio, Michele, Malyguine, Anatoli, Masucci, Giuseppe, Matsubara, Hisahiro, Mayrand-Chung, Shawmarie, Nakamura, Kiminori, Nishikawa, Hiroyoshi, Palucka, A Karolina, Petricoin, Emanuel F, Pos, Zoltan, Ribas, Antoni, Rivoltini, Licia, Sato, Noriyuki, Shiku, Hiroshi, Slingluff, Craig L, Streicher, Howard, Stroncek, David F, Takeuchi, Hiroya, Toyota, Minoru, Wada, Hisashi, Wu, Xifeng, Wulfkuhle, Julia, Yaguchi, Tomonori, Zeskind, Benjamin, Zhao, Yingdong, Zocca, Mai-Britt, and Marincola, Francesco M

Abstract

Abstract Supported by the Office of International Affairs, National Cancer Institute (NCI), the "US-Japan Workshop on Immunological Biomarkers in Oncology" was held in March 2009. The workshop was related to a task force launched by the International Society for the Biological Therapy of Cancer (iSBTc) and the United States Food and Drug Administration (FDA) to identify strategies for biomarker discovery and validation in the field of biotherapy. The effort will culminate on October 28th 2009 in the "iSBTc-FDA-NCI Workshop on Prognostic and Predictive Immunologic Biomarkers in Cancer", which will be held in Washington DC in association with the Annual Meeting. The purposes of the US-Japan workshop were a) to discuss novel approaches to enhance the discovery of predictive and/or prognostic markers in cancer immunotherapy; b) to define the state of the science in biomarker discovery and validation. The participation of Japanese and US scientists provided the opportunity to identify shared or discordant themes across the distinct immune genetic background and the diverse prevalence of disease between the two Nations. Converging concepts were identified: enhanced knowledge of interferon-related pathways was found to be central to the understanding of immune-mediated tissue-specific destruction (TSD) of which tumor rejection is a representative facet. Although the expression of interferon-stimulated genes (ISGs) likely mediates the inflammatory process leading to tumor rejection, it is insufficient by itself and the associated mechanisms need to be identified. It is likely that adaptive immune responses play a broader role in tumor rejection than those strictly related to their antigen-specificity; likely, their primary role is to trigger an acute and tissue-specific inflammatory response at the tumor site that leads to rejection upon recruitment of additional innate and adaptive immune mechanisms. Other candidate systemic and/or tissue-specific biomarkers were recognized that might be added to the list of known entities applicable in immunotherapy trials. The need for a systematic approach to biomarker discovery that takes advantage of powerful high-throughput technologies was recognized; it was clear from the current state of the science that immunotherapy is still in a discovery phase and only a few of the current biomarkers warrant extensive validation. It was, finally, clear that, while current technologies have almost limitless potential, inadequate study design, limited standardization and cross-validation among laboratories and suboptimal comparability of data remain major road blocks. The institution of an interactive consortium for high throughput molecular monitoring of clinical trials with voluntary participation might provide cost-effective solutions.

Published
2009

30. A systematic approach to biomarker discovery; preamble to "the iSBTc-FDA taskforce on immunotherapy biomarkers".

Author

Butterfield, Lisa H, Disis, Mary L, Fox, Bernard A, Lee, Peter P, Khleif, Samir N, Thurin, Magdalena, Trinchieri, Giorgio, Wang, Ena, Wigginton, Jon, Chaussabel, Damien, Coukos, George, Dhodapkar, Madhav, Håkansson, Leif, Janetzki, Sylvia, Kleen, Thomas O, Kirkwood, John M, Maccalli, Cristina, Maecker, Holden, Maio, Michele, Malyguine, Anatoli, Masucci, Giuseppe, Palucka, A Karolina, Potter, Douglas M, Ribas, Antoni, Rivoltini, Licia, Schendel, Dolores, Seliger, Barbara, Selvan, Senthamil, Slingluff, Craig L, Stroncek, David F, Streicher, Howard, Wu, Xifeng, Zeskind, Benjamin, Zhao, Yingdong, Zocca, Mai-Britt, Zwierzina, Heinz, and Marincola, Francesco M

Subjects
Humans, Neoplasms, Immunotherapy, Reproducibility of Results, Research, Research Design, United States Food and Drug Administration, Education, United States, Clinical Trials as Topic, Biomarkers, Medical and Health Sciences, Immunology
Abstract

The International Society for the Biological Therapy of Cancer (iSBTc) has initiated in collaboration with the United States Food and Drug Administration (FDA) a programmatic look at innovative avenues for the identification of relevant parameters to assist clinical and basic scientists who study the natural course of host/tumor interactions or their response to immune manipulation. The task force has two primary goals: 1) identify best practices of standardized and validated immune monitoring procedures and assays to promote inter-trial comparisons and 2) develop strategies for the identification of novel biomarkers that may enhance our understating of principles governing human cancer immune biology and, consequently, implement their clinical application. Two working groups were created that will report the developed best practices at an NCI/FDA/iSBTc sponsored workshop tied to the annual meeting of the iSBTc to be held in Washington DC in the Fall of 2009. This foreword provides an overview of the task force and invites feedback from readers that might be incorporated in the discussions and in the final document.

Published
2008

34. List of Contributors

Author

Slamon, Dennis J., primary, McCann, Kelly E., additional, Ma, Yanling, additional, Press, Michael F., additional, Khoshchehreh, Mahdi, additional, Kim, Grace Namjung, additional, Cobleigh, Melody, additional, Rao, Ruta, additional, Sammons, Sarah, additional, Blackwell, Kimberly, additional, Lin, Nancy U., additional, Leone, José Pablo, additional, Aizer, Ayal A., additional, Fasching, Peter A., additional, Untch, Michael, additional, Jahanzeb, Mohammad, additional, Mahtani, Reshma, additional, Sandoval-Leon, Ana Cristina, additional, Cortes, Javier, additional, de Melo Gagliato, Debora, additional, Tolaney, Sara M., additional, Barroso-Sousa, Romualdo, additional, Yang, Eric H., additional, Master, Aashini, additional, O'Regan, Ruth M., additional, Sharifi, Marina N., additional, (Nora) Disis, Mary L., additional, Gwin, William R., additional, Rugo, Hope S., additional, Tuzovic, Mirela, additional, Agarwal, Megha, additional, and Thareja, Nidhi, additional

Published
2019
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47. Data Supplement from Downregulation of MHC-I Expression Is Prevalent but Reversible in Merkel Cell Carcinoma

Author

Paulson, Kelly G., primary, Tegeder, Andrew, primary, Willmes, Christoph, primary, Iyer, Jayasri G., primary, Afanasiev, Olga K., primary, Schrama, David, primary, Koba, Shinichi, primary, Thibodeau, Renee, primary, Nagase, Kotaro, primary, Simonson, William T., primary, Seo, Aaron, primary, Koelle, David M., primary, Madeleine, Margaret, primary, Bhatia, Shailender, primary, Nakajima, Hideki, primary, Sano, Shigetoshi, primary, Hardwick, James S., primary, Disis, Mary L., primary, Cleary, Michele A., primary, Becker, Jürgen C., primary, and Nghiem, Paul, primary

Published
2023
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