Search

Your search keyword '"Arlene H. Sharpe"' showing total 546 results
Start Over Author "Arlene H. Sharpe"
546 results on '"Arlene H. Sharpe"'

1. Microbiota-dependent regulation of costimulatory and coinhibitory pathways via innate immune sensors and implications for immunotherapy

Author

Joon Seok Park, Francesca S. Gazzaniga, Dennis L. Kasper, and Arlene H. Sharpe

Subjects
Medicine, Biochemistry, QD415-436
Abstract

Abstract Our bodies are inhabited by trillions of microorganisms. The host immune system constantly interacts with the microbiota in barrier organs, including the intestines. Over decades, numerous studies have shown that our mucosal immune system is dynamically shaped by a variety of microbiota-derived signals. Elucidating the mediators of these interactions is an important step for understanding how the microbiota is linked to mucosal immune homeostasis and gut-associated diseases. Interestingly, the efficacy of cancer immunotherapies that manipulate costimulatory and coinhibitory pathways has been correlated with the gut microbiota. Moreover, adverse effects of these therapies in the gut are linked to dysregulation of the intestinal immune system. These findings suggest that costimulatory pathways in the immune system might serve as a bridge between the host immune system and the gut microbiota. Here, we review mechanisms by which commensal microorganisms signal immune cells and their potential impact on costimulation. We highlight how costimulatory pathways modulate the mucosal immune system through not only classical antigen-presenting cells but also innate lymphocytes, which are highly enriched in barrier organs. Finally, we discuss the adverse effects of immune checkpoint inhibitors in the gut and the possible relationship with the gut microbiota.

Published
2023
Full Text
View/download PDF

2. Antigen presentation deficiency, mesenchymal differentiation, and resistance to immunotherapy in the murine syngeneic CT2A tumor model

Author

J. Bryan Iorgulescu, Neil Ruthen, Ryuhjin Ahn, Eleni Panagioti, Prafulla C. Gokhale, Martha Neagu, Maria C. Speranza, Benjamin K. Eschle, Kara M. Soroko, Raziye Piranlioglu, Meenal Datta, Shanmugarajan Krishnan, Kathleen B. Yates, Gregory J. Baker, Rakesh K. Jain, Mario L. Suvà, Donna Neuberg, Forest M. White, E. Antonio Chiocca, Gordon J. Freeman, Arlene H. Sharpe, Catherine J. Wu, and David A. Reardon

Subjects
immunotherapy, resistance, mouse model, cancer, antigen presentation machinery, glioblastoma, Immunologic diseases. Allergy, RC581-607
Abstract

BackgroundThe GL261 and CT2A syngeneic tumor lines are frequently used as immunocompetent orthotopic mouse models of human glioblastoma (huGBM) but demonstrate distinct differences in their responses to immunotherapy.MethodsTo decipher the cell-intrinsic mechanisms that drive immunotherapy resistance in CT2A-luc and to define the aspects of human cancer biology that these lines can best model, we systematically compared their characteristics using whole exome and transcriptome sequencing, and protein analysis through immunohistochemistry, Western blot, flow cytometry, immunopeptidomics, and phosphopeptidomics.ResultsThe transcriptional profiles of GL261-luc2 and CT2A-luc tumors resembled those of some huGBMs, despite neither line sharing the essential genetic or histologic features of huGBM. Both models exhibited striking hypermutation, with clonal hotspot mutations in RAS genes (Kras p.G12C in GL261-luc2 and Nras p.Q61L in CT2A-luc). CT2A-luc distinctly displayed mesenchymal differentiation, upregulated angiogenesis, and multiple defects in antigen presentation machinery (e.g. Tap1 p.Y488C and Psmb8 p.A275P mutations) and interferon response pathways (e.g. copy number losses of loci including IFN genes and reduced phosphorylation of JAK/STAT pathway members). The defect in MHC class I expression could be overcome in CT2A-luc by interferon-γ treatment, which may underlie the modest efficacy of some immunotherapy combinations. Additionally, CT2A-luc demonstrated substantial baseline secretion of the CCL-2, CCL-5, and CCL-22 chemokines, which play important roles as myeloid chemoattractants.ConclusionAlthough the clinical contexts that can be modeled by GL261 and CT2A for huGBM are limited, CT2A may be an informative model of immunotherapy resistance due to its deficits in antigen presentation machinery and interferon response pathways.

Published
2023
Full Text
View/download PDF

3. PD-L2 controls peripherally induced regulatory T cells by maintaining metabolic activity and Foxp3 stability

Author

Benjamin P. Hurrell, Doumet Georges Helou, Emily Howard, Jacob D. Painter, Pedram Shafiei-Jahani, Arlene H. Sharpe, and Omid Akbari

Subjects
Science
Abstract

Regulatory T (Treg) cells have been implicated in the induction of airway tolerance and amelioration of respiratory duct inflammation. Here the authors show, using PD-L2 deficient mice, that the immune suppression signal from PD-L2 is important for modulating Treg cell metabolism and function for proper induction of respiratory tolerance in mice.

Published
2022
Full Text
View/download PDF

4. Gata6+ resident peritoneal macrophages promote the growth of liver metastasis

Author

Mokarram Hossain, Raymond Shim, Woo-Yong Lee, Arlene H. Sharpe, and Paul Kubes

Subjects
Science
Abstract

GLPMs represent a population of fetal liver derived large peritoneal cavity Gata6+ macrophages, with the capacity to invade the tissues they surround. Here, in experimental colon cancer liver metastasis models, the authors show that GLPMs invade liver metastasis directly from the peritoneum, promoting liver metastases growth.

Published
2022
Full Text
View/download PDF

5. The Programmed Death-1 Pathway Counter-Regulates Inflammation-Induced Osteoclast Activity in Clinical and Experimental Settings

Author

Stinne R. Greisen, Tue W. Kragstrup, Jesper Skovhus Thomsen, Kim Hørslev-Pedersen, Merete Lund Hetland, Kristian Stengaard-Pedersen, Mikkel Østergaard, Lykke Ørnbjerg, Peter Junker, Arlene H. Sharpe, Gordon J. Freeman, Malene Hvid, Søren K. Moestrup, Ellen Margrethe Hauge, and Bent Deleuran

Subjects
rheumatoid arthritis, PD-1, osteoclast, inflammation, bone homeostasis, Immunologic diseases. Allergy, RC581-607
Abstract

ObjectiveThe programmed death-1 (PD-1) pathway is essential for maintaining self-tolerance and plays an important role in autoimmunity, including rheumatoid arthritis (RA). Here, we investigated how membrane-bound and soluble (s)PD-1 influence bone homeostasis during chronic inflammation, exemplified in RA.MethodsBone mineral density and bone microstructure were examined in PD-1 and PD-L1 knockout (KO) mice and compared with wild-type (WT) mice. Receptor activator of nuclear factor kappa-B ligand (RANKL) was measured in serum, and the expression examined on activated bone marrow cells. Osteoclast formation was examined in cells from murine spleen and bone marrow and from human synovial fluid cells. sPD-1 was measured in chronic and early (e)RA patients and correlated to markers of disease activity and radiographic scores.ResultsPD-1 and PD-L1 KO mice showed signs of osteoporosis. This was supported by a significantly reduced trabecular bone volume fraction and deteriorated microstructure, as well as increased osteoclast formation and an increased RANKL/OPG ratio. The recombinant form of sPD-1 decreased osteoclast formation in vitro, but was closely associated with disease activity markers in eRA patients. Sustained elevated sPD-1 levels indicated ongoing inflammation and were associated with increased radiographic progression.ConclusionThe PD-1 pathway is closely associated with bone homeostasis, and lacking members of this pathway causes a deteriorated bone structure. The immunological balance in the microenvironment determines how the PD-1 pathway regulates osteoclast formation. In eRA patients, sPD-1 may serve as a biomarker, reflecting residual but clinically silent disease activity and radiographic progression.

Published
2022
Full Text
View/download PDF

6. PD-1 pathway regulates ILC2 metabolism and PD-1 agonist treatment ameliorates airway hyperreactivity

Author

Doumet Georges Helou, Pedram Shafiei-Jahani, Richard Lo, Emily Howard, Benjamin P. Hurrell, Lauriane Galle-Treger, Jacob D. Painter, Gavin Lewis, Pejman Soroosh, Arlene H. Sharpe, and Omid Akbari

Subjects
Science
Abstract

PD-1 is a checkpoint inhibitory immune receptor that restrains proliferation and effector functions of a variety of cells, including ILC2s. Here the authors present a human PD-1 agonist that limits ILC2-dependent allergic airway disease in humanized mice and provide evidence that PD-1 signaling alters ILC2 function by modulation of cell metabolism.

Published
2020
Full Text
View/download PDF

7. PD-L1 promotes myofibroblastic activation of hepatic stellate cells by distinct mechanisms selective for TGF-β receptor I versus II

Author

Liankang Sun, Yuanguo Wang, Xianghu Wang, Amaia Navarro-Corcuera, Sumera Ilyas, Nidhi Jalan-Sakrikar, Can Gan, Xinyi Tu, Yu Shi, Kangsheng Tu, Qingguang Liu, Zhenkun Lou, Haidong Dong, Arlene H. Sharpe, Vijay H. Shah, and Ningling Kang

Subjects
cancer desmoplastic reaction, cancer-associated fibroblasts, α-smooth muscle actin, TGF-β receptor trafficking, biotinylation, ubiquitination, Biology (General), QH301-705.5
Abstract

Summary: Intrahepatic cholangiocarcinoma (ICC) contains abundant myofibroblasts derived from hepatic stellate cells (HSCs) through an activation process mediated by TGF-β. To determine the role of programmed death-ligand 1 (PD-L1) in myofibroblastic activation of HSCs, we disrupted PD-L1 of HSCs by shRNA or anti-PD-L1 antibody. We find that PD-L1, produced by HSCs, is required for HSC activation by stabilizing TGF-β receptors I (TβRI) and II (TβRII). While the extracellular domain of PD-L1 (amino acids 19–238) targets TβRII protein to the plasma membrane and protects it from lysosomal degradation, a C-terminal 260-RLRKGR-265 motif on PD-L1 protects TβRI mRNA from degradation by the RNA exosome complex. PD-L1 is required for HSC expression of tumor-promoting factors, and targeting HSC PD-L1 by shRNA or Cre/loxP recombination suppresses HSC activation and ICC growth in mice. Thus, myofibroblast PD-L1 can modulate the tumor microenvironment and tumor growth by a mechanism independent of immune suppression.

Published
2022
Full Text
View/download PDF

8. Overexpression of PD-1 on T cells promotes tolerance in cardiac transplantation via ICOS-dependent mechanisms

Author

Thiago J. Borges, Naoka Murakami, Isadora T. Lape, Rodrigo B. Gassen, Kaifeng Liu, Songjie Cai, Joe Daccache, Kassem Safa, Tetsunosuke Shimizu, Shunsuke Ohori, Alison M. Paterson, Paolo Cravedi, Jamil Azzi, Peter T. Sage, Arlene H. Sharpe, Xian C. Li, and Leonardo V. Riella

Subjects
Immunology, Transplantation, Medicine
Abstract

The programmed death 1/programmed death ligand 1 (PD-1/PD-L1) pathway is a potent inhibitory pathway involved in immune regulation and is a potential therapeutic target in transplantation. In this study, we show that overexpression of PD-1 on T cells (PD-1 Tg) promotes allograft tolerance in a fully MHC-mismatched cardiac transplant model when combined with costimulation blockade with CTLA-4–Ig. PD-1 overexpression on T cells also protected against chronic rejection in a single MHC II–mismatched cardiac transplant model, whereas the overexpression still allowed the generation of an effective immune response against an influenza A virus. Notably, Tregs from PD-1 Tg mice were required for tolerance induction and presented greater ICOS expression than those from WT mice. The survival benefit of PD-1 Tg recipients required ICOS signaling and donor PD-L1 expression. These results indicate that modulation of PD-1 expression, in combination with a costimulation blockade, is a promising therapeutic target to promote transplant tolerance.

Published
2021
Full Text
View/download PDF

9. Inactivation of Ebola Virus and SARS-CoV-2 in Cell Culture Supernatants and Cell Pellets by Gamma Irradiation

Author

RuthMabel Boytz, Scott Seitz, Emily Gaudiano, J. J. Patten, Patrick T. Keiser, John H. Connor, Arlene H. Sharpe, and Robert A. Davey

Subjects
Ebola virus, SARS-CoV-2, inactivation, sterilization, filovirus, coronavirus, Microbiology, QR1-502
Abstract

Viral pathogens with the potential to cause widespread disruption to human health and society continue to emerge or re-emerge around the world. Research on such viruses often involves high biocontainment laboratories (BSL3 or BSL4), but the development of diagnostics, vaccines and therapeutics often uses assays that are best performed at lower biocontainment. Reliable inactivation is necessary to allow removal of materials to these spaces and to ensure personnel safety. Here, we validate the use of gamma irradiation to inactivate culture supernatants and pellets of cells infected with a representative member of the Filovirus and Coronavirus families. We show that supernatants and cell pellets containing SARS-CoV-2 are readily inactivated with 1.9 MRad, while Ebola virus requires higher doses of 2.6 MRad for supernatants and 3.8 MRad for pellets. While these doses of radiation inactivate viruses, proinflammatory cytokines that are common markers of virus infection are still detected with low losses. The doses required for virus inactivation of supernatants are in line with previously reported values, but the inactivation of cell pellets has not been previously reported and enables new approaches for analysis of protein-based host responses to infection.

Published
2022
Full Text
View/download PDF

10. PD-1 Blockade on Tumor Microenvironment-Resident ILC2s Promotes TNF-α Production and Restricts Progression of Metastatic Melanoma

Author

Emily Howard, Benjamin P. Hurrell, Doumet Georges Helou, Christine Quach, Jacob D. Painter, Pedram Shafiei-Jahani, Marshall Fung, Parkash S. Gill, Pejman Soroosh, Arlene H. Sharpe, and Omid Akbari

Subjects
innate lymphoid cell 2, cancer, melanoma, PD-1, TNF - α, Immunologic diseases. Allergy, RC581-607
Abstract

While pulmonary ILC2s represent one of the major tissue-resident innate lymphoid cell populations at steady state and are key drivers of cytokine secretion in their occupational niche, their role in pulmonary cancer progression remains unclear. As the programmed cell death protein-1 (PD-1) plays a major role in cancer immunotherapy and immunoregulatory properties, here we investigate the specific effect of PD-1 inhibition on ILC2s during pulmonary B16 melanoma cancer metastasis. We demonstrate that PD-1 inhibition on ILC2s suppresses B16 tumor growth. Further, PD-1 inhibition upregulates pulmonary ILC2-derived TNF-α production, a cytotoxic cytokine that directly induces cell death in B16 cells, independent of adaptive immunity. Together, these results highlight the importance of ILC2s and their anti-tumor role in pulmonary B16 cancer progression during PD-1 inhibitory immunotherapy.

Published
2021
Full Text
View/download PDF

11. A CRISPR-Cas9 delivery system for in vivo screening of genes in the immune system

Author

Martin W. LaFleur, Thao H. Nguyen, Matthew A. Coxe, Kathleen B. Yates, Justin D. Trombley, Sarah A. Weiss, Flavian D. Brown, Jacob E. Gillis, Daniel J. Coxe, John G. Doench, W. Nicholas Haining, and Arlene H. Sharpe

Subjects
Science
Abstract

The use of functional genomics in primary immune cells has been limited by inefficient vector delivery and risk of perturbing cell states. Here the authors present CHimeric IMmune Editing (CHIME) for in vivo evaluation of gene function and pooled screening approaches.

Published
2019
Full Text
View/download PDF

12. Costimulation of type-2 innate lymphoid cells by GITR promotes effector function and ameliorates type 2 diabetes

Author

Lauriane Galle-Treger, Ishwarya Sankaranarayanan, Benjamin P. Hurrell, Emily Howard, Richard Lo, Hadi Maazi, Gavin Lewis, Homayon Banie, Alan L. Epstein, Peisheng Hu, Virender K. Rehan, Frank D. Gilliland, Hooman Allayee, Pejman Soroosh, Arlene H. Sharpe, and Omid Akbari

Subjects
Science
Abstract

Type-2 innate lymphoid cells (ILC2s) are an immune population secreting Th2 cytokines playing a role in the regulation of adipose metabolic homeostasis. Here the authors show that engagement of GITR, a member of the TNF superfamily, in activated ILC2s is protective against insulin resistance in both a preventive and a therapeutic manner in the context of obesity.

Published
2019
Full Text
View/download PDF

13. The PD-1 Pathway Regulates Development and Function of Memory CD8+ T Cells following Respiratory Viral Infection

Author

Kristen E. Pauken, Jernej Godec, Pamela M. Odorizzi, Keturah E. Brown, Kathleen B. Yates, Shin Foong Ngiow, Kelly P. Burke, Seth Maleri, Shannon M. Grande, Loise M. Francisco, Mohammed-Alkhatim Ali, Sabrina Imam, Gordon J. Freeman, W. Nicholas Haining, E. John Wherry, and Arlene H. Sharpe

Subjects
PD-1, PD-L1, PD-L2, checkpoint blockade, CD8+ T cell, acute infection, Biology (General), QH301-705.5
Abstract

Summary: The PD-1 pathway regulates dysfunctional T cells in chronic infection and cancer, but the role of this pathway during acute infection remains less clear. Here, we demonstrate that PD-1 signals are needed for optimal memory. Mice deficient in the PD-1 pathway exhibit impaired CD8+ T cell memory following acute influenza infection, including reduced virus-specific CD8+ T cell numbers and compromised recall responses. PD-1 blockade during priming leads to similar differences early post-infection but without the defect in memory formation, suggesting that timing and/or duration of PD-1 blockade could be tailored to modulate host responses. Our studies reveal a role for PD-1 as an integrator of CD8+ T cell signals that promotes CD8+ T cell memory formation and suggest PD-1 continues to fine-tune CD8+ T cells after they migrate into non-lymphoid tissues. These findings have important implications for PD-1-based immunotherapy, in which PD-1 inhibition may influence memory responses in patients.

Published
2020
Full Text
View/download PDF

14. Programmed death ligand 2 – A link between inflammation and bone loss in rheumatoid arthritis

Author

Stinne R. Greisen, Tue W. Kragstrup, Jesper Skovhus Thomsen, Aida Solhøj Hansen, Akilan Krishnamurthy, Kim Hørslev-Petersen, Merete Lund Hetland, Kristian Stengaard-Pedersen, Mikkel Østergaard, Lykke Midtbøll Ørnbjerg, Peter Junker, Arlene H. Sharpe, Gordon J. Freeman, Lakshmanan Annamalai, Malene Hvid, Søren K. Moestrup, Ellen-Margrethe Hauge, Anca Irinel Catrina, and Bent Deleuran

Subjects
Co-inhibitory receptors, PD-L2, Osteoclasts, Rheumatoid arthritis, Ostoeimmunology, Autoimmunity, Immunologic diseases. Allergy, RC581-607
Abstract

Objective: Active rheumatoid arthritis (RA) is accompanied by increased appendicular and axial bone loss, closely associated to the degree of inflammation. The programmed death-1 (PD-1) pathway is important for maintaining peripheral tolerance, and its ligand PD-L2 has recently been associated with bone morphogenetic protein activity. Here, we report that PD-L2 plays a central role in RA osteoimmunology. Methods: Femoral bone mineral density (BMD) and trabecular bone microstructure were evaluated by micro-CT in wild type (WT) and PD-L2−/− mice. Osteoclasts were generated from RA synovial fluid mononuclear cells and peripheral blood monocytes. The effects of recombinant PD-L2, was evaluated by tartrate-resistant acid phosphatase (TRAP) activity and the development of bone erosions in the presence of anti-citrullinated protein antibodies (ACPA). Plasma soluble (s)PD-L2 levels were measured in patients with early (e)RA (n ​= ​103) treated with methotrexate alone or in combination with the TNF inhibitor Adalimumab. Results: PD-L2−/− mice had a decreased BMD and deteriorated trabecular bone microstructure that was not related to the RANKL/OPG pathway. PD-L2 decreased TRAP activity in osteoclasts and decreased ACPA-induced erosions. In the RA synovial membrane PD-L2 was highly expressed especially in the lining layer and plasma sPD-L2 levels were increased in eRA patients and decreased with treatment. One-year sPD-L2 correlated inversely with erosive progression two years after treatment initiation with methotrexate and placebo. Conclusion: PD-L2 regulates bone homeostasis in RA. Our findings provide new insight into the relationship between the immune system and bone homeostasis, and suggest a potential therapeutic target for limiting inflammatory bone loss in RA.

Published
2020
Full Text
View/download PDF

15. Role of Selenof as a Gatekeeper of Secreted Disulfide-Rich Glycoproteins

Author

Sun Hee Yim, Robert A. Everley, Frank A. Schildberg, Sang-Goo Lee, Andrea Orsi, Zachary R. Barbati, Kutay Karatepe, Dmitry E. Fomenko, Petra A. Tsuji, Hongbo R. Luo, Steven P. Gygi, Roberto Sitia, Arlene H. Sharpe, Dolph L. Hatfield, and Vadim N. Gladyshev

Subjects
Biology (General), QH301-705.5
Abstract

Summary: Selenof (15-kDa selenoprotein; Sep15) is an endoplasmic reticulum (ER)-resident thioredoxin-like oxidoreductase that occurs in a complex with UDP-glucose:glycoprotein glucosyltransferase. We found that Selenof deficiency in mice leads to elevated levels of non-functional circulating plasma immunoglobulins and increased secretion of IgM during in vitro splenic B cell differentiation. However, Selenof knockout animals show neither enhanced bacterial killing capacity nor antigen-induced systemic IgM activity, suggesting that excess immunoglobulins are not functional. In addition, ER-to-Golgi transport of a target glycoprotein was delayed in Selenof knockout embryonic fibroblasts, and proteomic analyses revealed that Selenof deficiency is primarily associated with antigen presentation and ER-to-Golgi transport. Together, the data suggest that Selenof functions as a gatekeeper of immunoglobulins and, likely, other client proteins that exit the ER, thereby supporting redox quality control of these proteins. : Yim et al. report that Selenof (15-kDa selenoprotein; Sep15) functions as a gatekeeper of immunoglobulins and, likely, other client proteins en route from the ER to the Golgi apparatus, thereby preventing secretion of dysfunctional proteins and supporting redox quality control. Keywords: Selenof, selenoprotein, oxidoreductase, immunoglobulins, IgM, knockout mouse, endoplasmic reticulum, Sep15, gatekeeper

Published
2018
Full Text
View/download PDF

16. Workshop on challenges, insights, and future directions for mouse and humanized models in cancer immunology and immunotherapy: a report from the associated programs of the 2016 annual meeting for the Society for Immunotherapy of cancer

Author

Andrew Zloza, A. Karolina Palucka, Lisa M. Coussens, Philip J. Gotwals, Mark B. Headley, Elizabeth M. Jaffee, Amanda W. Lund, Arlene H. Sharpe, Mario Sznol, Derek A. Wainwright, Kwok-Kin Wong, and Marcus W. Bosenberg

Subjects
Mouse models, Immunocompetent, Mouse-in-mouse, Humanized mouse, Tumor microenvironment, Cancer immunotherapy, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Understanding how murine models can elucidate the mechanisms underlying antitumor immune responses and advance immune-based drug development is essential to advancing the field of cancer immunotherapy. The Society for Immunotherapy of Cancer (SITC) convened a workshop titled, “Challenges, Insights, and Future Directions for Mouse and Humanized Models in Cancer Immunology and Immunotherapy” as part of the SITC 31st Annual Meeting and Associated Programs on November 10, 2016 in National Harbor, MD. The workshop focused on key issues in optimizing models for cancer immunotherapy research, with discussions on the strengths and weaknesses of current models, approaches to improve the predictive value of mouse models, and advances in cancer modeling that are anticipated in the near future. This full-day program provided an introduction to the most common immunocompetent and humanized models used in cancer immunology and immunotherapy research, and addressed the use of models to evaluate immune-targeting therapies. Here, we summarize the workshop presentations and subsequent panel discussion.

Published
2017
Full Text
View/download PDF

17. T Cell Activation Depends on Extracellular Alanine

Author

Noga Ron-Harel, Jonathan M. Ghergurovich, Giulia Notarangelo, Martin W. LaFleur, Yoshiki Tsubosaka, Arlene H. Sharpe, Joshua D. Rabinowitz, and Marcia C. Haigis

Subjects
Biology (General), QH301-705.5
Abstract

Summary: T cell stimulation is metabolically demanding. To exit quiescence, T cells rely on environmental nutrients, including glucose and the amino acids glutamine, leucine, serine, and arginine. The expression of transporters for these nutrients is tightly regulated and required for T cell activation. In contrast to these amino acids, which are essential or require multi-step biosynthesis, alanine can be made from pyruvate by a single transamination. Here, we show that extracellular alanine is nevertheless required for efficient exit from quiescence during naive T cell activation and memory T cell restimulation. Alanine deprivation leads to metabolic and functional impairments. Mechanistically, this vulnerability reflects the low expression of alanine aminotransferase, the enzyme required for interconverting pyruvate and alanine, whereas activated T cells instead induce alanine transporters. Stable isotope tracing reveals that alanine is not catabolized but instead supports protein synthesis. Thus, T cells depend on exogenous alanine for protein synthesis and normal activation. : In health, T lymphocytes are in a resting state. However, stimulation with their cognate antigen induces massive growth and proliferation. Ron-Harel et al. demonstrate that T cells rely on extracellular alanine for activation. Consumed alanine is used primarily for protein synthesis, and alanine deprivation inhibits T cell metabolism and effector functions. Keywords: T cells, T cell activation, protein synthesis, metabolism, alanine

Published
2019
Full Text
View/download PDF

18. A phase II study of combined therapy with a BRAF inhibitor (vemurafenib) and interleukin-2 (aldesleukin) in patients with metastatic melanoma

Author

Meghan J. Mooradian, Alexandre Reuben, Peter A. Prieto, Mehlika Hazar-Rethinam, Dennie T. Frederick, Brandon Nadres, Adriano Piris, Vikram Juneja, Zachary A. Cooper, Arlene H. Sharpe, Ryan B. Corcoran, Keith T. Flaherty, Donald P. Lawrence, Jennifer A. Wargo, and Ryan J. Sullivan

Subjects
melanoma, braf, il-2, combination therapy, vemurafenib, Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Background: Approximately 50% of melanomas harbor BRAF mutations. Treatment with BRAF +/− MEK inhibition is associated with favorable changes in the tumor microenvironment thus providing the rationale for combining targeted agents with immunotherapy. Methods: Patients with unresectable Stage III or IV BRAFV600E mutant melanoma were enrolled in a single-center prospective study (n = 6). Patients were eligible to receive two courses of HD-IL-2 and vemurafenib twice daily. The primary endpoint was progression-free survival (PFS) with secondary objectives including overall survival (OS), response rates (RR), and safety of combination therapy as compared to historical controls. Immune profiling was performed in longitudinal tissue samples, when available. Results: Overall RR was 83.3% (95% CI: 36%–99%) and 66.6% at 12 weeks. All patients eventually progressed, with three progressing on treatment and three progressing after the vemurafenib continuation phase ended. Median PFS was 35.8 weeks (95% CI: 16–57 weeks). Median OS was not reached; however, the time at which 75% of patients were still alive was 104.4 weeks. Change in circulating BRAFV600E levels correlated with response. Though combination therapy was associated with enhanced CD8 T cell infiltrate, an increase in regulatory T cell frequency was seen with HD-IL-2 administration, suggesting a potential limitation in this strategy. Conclusion: Combination vemurafenib and HD-IL-2 is well tolerated and associated with treatment responses. However, the HD-IL-2 induced increase in Tregs may abrogate potential synergy. Given the efficacy of regimens targeting the PD-1 pathway, strategies combining these regimens with BRAF-targeted therapy are currently underway, and the role of combination vemurafenib and HD-IL-2 is uncertain. Trial Registration: Clinical trial information: NCT01754376; https://clinicaltrials.gov/show/NCT01754376

Published
2018
Full Text
View/download PDF

19. ABCB5 Identifies Immunoregulatory Dermal Cells

Author

Tobias Schatton, Jun Yang, Sonja Kleffel, Mayuko Uehara, Steven R. Barthel, Christoph Schlapbach, Qian Zhan, Stephen Dudeney, Hansgeorg Mueller, Nayoung Lee, Juliane C. de Vries, Barbara Meier, Seppe Vander Beken, Mark A. Kluth, Christoph Ganss, Arlene H. Sharpe, Ana Maria Waaga-Gasser, Mohamed H. Sayegh, Reza Abdi, Karin Scharffetter-Kochanek, George F. Murphy, Thomas S. Kupper, Natasha Y. Frank, and Markus H. Frank

Subjects
Biology (General), QH301-705.5
Abstract

Cell-based strategies represent a new frontier in the treatment of immune-mediated disorders. However, the paucity of markers for isolation of molecularly defined immunomodulatory cell populations poses a barrier to this field. Here, we show that ATP-binding cassette member B5 (ABCB5) identifies dermal immunoregulatory cells (DIRCs) capable of exerting therapeutic immunoregulatory functions through engagement of programmed cell death 1 (PD-1). Purified Abcb5+ DIRCs suppressed T cell proliferation, evaded immune rejection, homed to recipient immune tissues, and induced Tregs in vivo. In fully major-histocompatibility-complex-mismatched cardiac allotransplantation models, allogeneic DIRCs significantly prolonged allograft survival. Blockade of DIRC-expressed PD-1 reversed the inhibitory effects of DIRCs on T cell activation, inhibited DIRC-dependent Treg induction, and attenuated DIRC-induced prolongation of cardiac allograft survival, indicating that DIRC immunoregulatory function is mediated, at least in part, through PD-1. Our results identify ABCB5+ DIRCs as a distinct immunoregulatory cell population and suggest promising roles of this expandable cell subset in cellular immunotherapy.

Published
2015
Full Text
View/download PDF

20. Defective TFH Cell Function and Increased TFR Cells Contribute to Defective Antibody Production in Aging

Author

Peter T. Sage, Catherine L. Tan, Gordon J. Freeman, Marcia Haigis, and Arlene H. Sharpe

Subjects
Biology (General), QH301-705.5
Abstract

Defective antibody production in aging is broadly attributed to immunosenescence. However, the precise immunological mechanisms remain unclear. Here, we demonstrate an increase in the ratio of inhibitory T follicular regulatory (TFR) cells to stimulatory T follicular helper (TFH) cells in aged mice. Aged TFH and TFR cells are phenotypically distinct from those in young mice, exhibiting increased programmed cell death protein-1 expression but decreased ICOS expression. Aged TFH cells exhibit defective antigen-specific responses, and programmed cell death protein-ligand 1 blockade can partially rescue TFH cell function. In contrast, young and aged TFR cells have similar suppressive capacity on a per-cell basis in vitro and in vivo. Together, these studies reveal mechanisms contributing to defective humoral immunity in aging: an increase in suppressive TFR cells combined with impaired function of aged TFH cells results in reduced T-cell-dependent antibody responses in aged mice.

Published
2015
Full Text
View/download PDF

21. PD-1 Dependent Exhaustion of CD8+ T Cells Drives Chronic Malaria

Author

Joshua M. Horne-Debets, Rebecca Faleiro, Deshapriya S. Karunarathne, Xue Q. Liu, Katie E. Lineburg, Chek Meng Poh, Gijsbert M. Grotenbreg, Geoffrey R. Hill, Kelli P.A. MacDonald, Michael F. Good, Laurent Renia, Rafi Ahmed, Arlene H. Sharpe, and Michelle N. Wykes

Subjects
Biology (General), QH301-705.5
Abstract

Malaria is a highly prevalent disease caused by infection by Plasmodium spp., which infect hepatocytes and erythrocytes. Blood-stage infections cause devastating symptoms and can persist for years. Antibodies and CD4+ T cells are thought to protect against blood-stage infections. However, there has been considerable difficulty in developing an efficacious malaria vaccine, highlighting our incomplete understanding of immunity against this disease. Here, we used an experimental rodent malaria model to show that PD-1 mediates up to a 95% reduction in numbers and functional capacity of parasite-specific CD8+ T cells. Furthermore, in contrast to widely held views, parasite-specific CD8+ T cells are required to control both acute and chronic blood-stage disease even when parasite-specific antibodies and CD4+ T cells are present. Our findings provide a molecular explanation for chronic malaria that will be relevant to future malaria-vaccine design and may need consideration when vaccine development for other infections is problematic.

Published
2013
Full Text
View/download PDF

22. Targeting PD-L2–RGMb overcomes microbiome-related immunotherapy resistance

Author

Joon Seok Park, Francesca S. Gazzaniga, Meng Wu, Amalia K. Luthens, Jacob Gillis, Wen Zheng, Martin W. LaFleur, Sarah B. Johnson, Golnaz Morad, Elizabeth M. Park, Yifan Zhou, Stephanie S. Watowich, Jennifer A. Wargo, Gordon J. Freeman, Dennis L. Kasper, and Arlene H. Sharpe

Subjects
Multidisciplinary
Published
2023

24. PD-1 combination therapy with IL-2 modifies CD8+ T cell exhaustion program

Author

Masao Hashimoto, Koichi Araki, Maria A. Cardenas, Peng Li, Rohit R. Jadhav, Haydn T. Kissick, William H. Hudson, Donald J. McGuire, Rebecca C. Obeng, Andreas Wieland, Judong Lee, Daniel T. McManus, James L. Ross, Se Jin Im, Junghwa Lee, Jian-Xin Lin, Bin Hu, Erin E. West, Christopher D. Scharer, Gordon J. Freeman, Arlene H. Sharpe, Suresh S. Ramalingam, Alex Pellerin, Volker Teichgräber, William J. Greenleaf, Christian Klein, Jorg J. Goronzy, Pablo Umaña, Warren J. Leonard, Kendall A. Smith, and Rafi Ahmed

Subjects
Multidisciplinary
Published
2022

26. Data from Microenvironmental Landscape of Human Melanoma Brain Metastases in Response to Immune Checkpoint Inhibition

Author

Scott L. Carter, Priscilla K. Brastianos, Ryan J. Sullivan, Mario L. Suvà, Arlene H. Sharpe, Michael A. Davies, Benjamin Izar, Genevieve Marie Boland, Daniel P. Cahill, Bob Carter, William T. Curry, Brian V. Nahed, Elizabeth Gerstner, Nancy Wang, Matthew Frosch, Maria Martinez-Lage, McKenzie Shaw, Christine Hebert, Dennie T. Frederick, Brian C. Miller, Kristen E. Pauken, Osmaan Shahid, Michael White, Husain Danish, Swaminathan Kumar, Aarushi Jain, Megha Subramanian, Alexander Kaplan, Brian Shaw, Mia Bertalan, Corey M. Gill, Benjamin M. Kuter, Robert H. Klein, Andrew W. Navia, Joana L. Mora, Juliana M. Larson, Ashish Dahal, Magali de Sauvage, Albert E. Kim, Matthew R. Strickland, Matt Lastrapes, Naema Nayyar, Jackson H. Stocking, Samuel C. Markson, and Christopher Alvarez-Breckenridge

Abstract

Melanoma-derived brain metastases (MBM) represent an unmet clinical need because central nervous system progression is frequently an end stage of the disease. Immune checkpoint inhibitors (ICI) provide a clinical opportunity against MBM; however, the MBM tumor microenvironment (TME) has not been fully elucidated in the context of ICI. To dissect unique elements of the MBM TME and correlates of MBM response to ICI, we collected 32 fresh MBM and performed single-cell RNA sequencing of the MBM TME and T-cell receptor clonotyping on T cells from MBM and matched blood and extracranial lesions. We observed myeloid phenotypic heterogeneity in the MBM TME, most notably multiple distinct neutrophil states, including an IL8-expressing population that correlated with malignant cell epithelial-to-mesenchymal transition. In addition, we observed significant relationships between intracranial T-cell phenotypes and the distribution of T-cell clonotypes intracranially and peripherally. We found that the phenotype, clonotype, and overall number of MBM-infiltrating T cells were associated with response to ICI, suggesting that ICI-responsive MBMs interact with peripheral blood in a manner similar to extracranial lesions. These data identify unique features of the MBM TME that may represent potential targets to improve clinical outcomes for patients with MBM.

Published
2023

29. Supplementary Figure from Microenvironmental Landscape of Human Melanoma Brain Metastases in Response to Immune Checkpoint Inhibition

Author

Scott L. Carter, Priscilla K. Brastianos, Ryan J. Sullivan, Mario L. Suvà, Arlene H. Sharpe, Michael A. Davies, Benjamin Izar, Genevieve Marie Boland, Daniel P. Cahill, Bob Carter, William T. Curry, Brian V. Nahed, Elizabeth Gerstner, Nancy Wang, Matthew Frosch, Maria Martinez-Lage, McKenzie Shaw, Christine Hebert, Dennie T. Frederick, Brian C. Miller, Kristen E. Pauken, Osmaan Shahid, Michael White, Husain Danish, Swaminathan Kumar, Aarushi Jain, Megha Subramanian, Alexander Kaplan, Brian Shaw, Mia Bertalan, Corey M. Gill, Benjamin M. Kuter, Robert H. Klein, Andrew W. Navia, Joana L. Mora, Juliana M. Larson, Ashish Dahal, Magali de Sauvage, Albert E. Kim, Matthew R. Strickland, Matt Lastrapes, Naema Nayyar, Jackson H. Stocking, Samuel C. Markson, and Christopher Alvarez-Breckenridge

Abstract

Supplementary Figure from Microenvironmental Landscape of Human Melanoma Brain Metastases in Response to Immune Checkpoint Inhibition

Published
2023

30. Supplementary Data from Microenvironmental Landscape of Human Melanoma Brain Metastases in Response to Immune Checkpoint Inhibition

Author

Scott L. Carter, Priscilla K. Brastianos, Ryan J. Sullivan, Mario L. Suvà, Arlene H. Sharpe, Michael A. Davies, Benjamin Izar, Genevieve Marie Boland, Daniel P. Cahill, Bob Carter, William T. Curry, Brian V. Nahed, Elizabeth Gerstner, Nancy Wang, Matthew Frosch, Maria Martinez-Lage, McKenzie Shaw, Christine Hebert, Dennie T. Frederick, Brian C. Miller, Kristen E. Pauken, Osmaan Shahid, Michael White, Husain Danish, Swaminathan Kumar, Aarushi Jain, Megha Subramanian, Alexander Kaplan, Brian Shaw, Mia Bertalan, Corey M. Gill, Benjamin M. Kuter, Robert H. Klein, Andrew W. Navia, Joana L. Mora, Juliana M. Larson, Ashish Dahal, Magali de Sauvage, Albert E. Kim, Matthew R. Strickland, Matt Lastrapes, Naema Nayyar, Jackson H. Stocking, Samuel C. Markson, and Christopher Alvarez-Breckenridge

Abstract

Supplementary Data from Microenvironmental Landscape of Human Melanoma Brain Metastases in Response to Immune Checkpoint Inhibition

Published
2023

32. Data from Pharmacologic Screening Identifies Metabolic Vulnerabilities of CD8+ T Cells

Author

Arlene H. Sharpe, Marcia C. Haigis, Justin D. Trombley, Vikram R. Juneja, Kiran Kurmi, Cong-Hui Yao, Alison E. Ringel, Martin W. LaFleur, Isaac S. Harris, Emily F. Gaudiano, Thao H. Nguyen, Tara Muijlwijk, Jacob E. Gillis, and Jefte M. Drijvers

Abstract

Metabolic constraints in the tumor microenvironment constitute a barrier to effective antitumor immunity and similarities in the metabolic properties of T cells and cancer cells impede the specific therapeutic targeting of metabolism in either population. To identify distinct metabolic vulnerabilities of CD8+ T cells and cancer cells, we developed a high-throughput in vitro pharmacologic screening platform and used it to measure the cell type–specific sensitivities of activated CD8+ T cells and B16 melanoma cells to a wide array of metabolic perturbations during antigen-specific killing of cancer cells by CD8+ T cells. We illustrated the applicability of this screening platform by showing that CD8+ T cells were more sensitive to ferroptosis induction by inhibitors of glutathione peroxidase 4 (GPX4) than B16 and MC38 cancer cells. Overexpression of ferroptosis suppressor protein 1 (FSP1) or cytosolic GPX4 yielded ferroptosis-resistant CD8+ T cells without compromising their function, while genetic deletion of the ferroptosis sensitivity–promoting enzyme acyl-CoA synthetase long-chain family member 4 (ACSL4) protected CD8+ T cells from ferroptosis but impaired antitumor CD8+ T-cell responses. Our screen also revealed high T cell–specific vulnerabilities for compounds targeting NAD+ metabolism or autophagy and endoplasmic reticulum (ER) stress pathways. We focused the current screening effort on metabolic agents. However, this in vitro screening platform may also be valuable for rapid testing of other types of compounds to identify regulators of antitumor CD8+ T-cell function and potential therapeutic targets.

Published
2023

33. Data from Glioblastoma Eradication Following Immune Checkpoint Blockade in an Orthotopic, Immunocompetent Model

Author

Gordon J. Freeman, Glenn Dranoff, Arlene H. Sharpe, Nancy E. Kohl, Lei Qin, F. Stephen Hodi, Annick D. Van Den Abbeele, Patrick Y. Wen, Jun Zhou, Xiaoyun Liao, Amy Saur Conway, Kristen L. Jones, Shakti H. Ramkissoon, Scott J. Rodig, Keith L. Ligon, Sarah R. Klein, Prafulla C. Gokhale, and David A. Reardon

Abstract

Inhibition of immune checkpoints, including cytotoxic T-lymphocyte antigen-4 (CTLA-4), programmed death-1 (PD-1), and its ligand PD-L1, has demonstrated exciting and durable remissions across a spectrum of malignancies. Combinatorial regimens blocking complementary immune checkpoints further enhance the therapeutic benefit. The activity of these agents for patients with glioblastoma, a generally lethal primary brain tumor associated with significant systemic and microenvironmental immunosuppression, is not known. We therefore systematically evaluated the antitumor efficacy of murine antibodies targeting a broad panel of immune checkpoint molecules, including CTLA-4, PD-1, PD-L1, and PD-L2 when administered as single-agent therapy and in combinatorial regimens against an orthotopic, immunocompetent murine glioblastoma model. In these experiments, we observed long-term tumor-free survival following single-agent anti–PD-1, anti–PD-L1, or anti–CTLA-4 therapy in 50%, 20%, and 15% of treated animals, respectively. Combination therapy of anti–CTLA-4 plus anti–PD-1 cured 75% of the animals, even against advanced, later-stage tumors. In long-term survivors, tumor growth was not seen upon intracranial tumor rechallenge, suggesting that tumor-specific immune memory responses were generated. Inhibitory immune checkpoint blockade quantitatively increased activated CD8+ and natural killer cells and decreased suppressive immune cells in the tumor microenvironment and draining cervical lymph nodes. Our results support prioritizing the clinical evaluation of PD-1, PD-L1, and CTLA-4 single-agent targeted therapy as well as combination therapy of CTLA-4 plus PD-1 blockade for patients with glioblastoma. Cancer Immunol Res; 4(2); 124–35. ©2015 AACR.

Published
2023

34. Supplemental Figures 1-4 from PD-L1 Antibodies to Its Cytoplasmic Domain Most Clearly Delineate Cell Membranes in Immunohistochemical Staining of Tumor Cells

Author

Gordon J. Freeman, Scott J. Rodig, Sabina Signoretti, Arlene H. Sharpe, F. Stephen Hodi, Edward A. Greenfield, Marcella Callea, Ping Hua, Xiaoyun Liao, Heather Sun, and Kathleen M. Mahoney

Abstract

Supplemental Figure 1. Western blotting of PD-L1 mAbs. Supplemental Figure 2. Western blotting of PD-L1 mAbs specific for the cytoplasmic domain. Supplemental Figure 3. 300.19 and stably transfected 300.19 expressing human PD-L1 were stained with 9A11 mAb. Supplemental Figure 4. Isotype control staining. Staining of the same nasopharyngeal carcinoma used in Figure 4 with isotype control antibody at the same concentration as its respective mouse or rabbit PD-L1 mAb.

Published
2023

36. Supplementary Figures 1 - 13 from Analysis of Immune Signatures in Longitudinal Tumor Samples Yields Insight into Biomarkers of Response and Mechanisms of Resistance to Immune Checkpoint Blockade

Author

Jennifer A. Wargo, Lynda Chin, James P. Allison, Padmanee Sharma, Jorge Blando, P. Andrew Futreal, Jianhua Hu, Arlene H. Sharpe, Willem W. Overwijk, Wencai Ma, R. Eric Davis, Victor Prieto, Lawrence N. Kwong, Rodabe N. Amaria, Ignacio I. Wistuba, Luis M. Vence, Scott E. Woodman, Isabella C. Glitza, Adi Diab, Wen-Jen Hwu, Patrick Hwu, Sapna P. Patel, Alexander J. Lazar, Lauren Haydu, Jeffrey E. Gershenwald, Michael A. Davies, Russell J. Broaddus, Michael T. Tetzlaff, Wei-Shen Chen, Sangeetha M. Reddy, Qing Chang, Hong Jiang, Jacob L. Austin-Breneman, Mariana Petaccia De Macedo, Khalida Wani, Vancheswaran Gopalakrishnan, Roland L. Bassett, John P. Miller, Peter A. Prieto, Christine N. Spencer, Zachary A. Cooper, Alexandre Reuben, Whijae Roh, and Pei-Ling Chen

Abstract

Supplementary Figure 1. Immune profiling of pre-treatment, on-treatment and progression CTLA-4 blockade samples by immunohistochemistry. Supplementary Figure 2. Myeloid cell profiling of pre-treatment, on-treatment and progression CTLA-4 blockade samples by immunohistochemistry. Supplementary Figure 3. Increased contact between CD8 T cells and CD68 myeloid cells in non-responding patients to anti-CTLA-4 and anti-PD-1 therapy at pre-treatment CTLA-4 blockade, pre-treatment PD-1 blockade, and on-treatment PD-1 blockade time points. Supplementary Figure 4. Immune profiling of pre anti-PD-1, on-treatment anti-PD-1 and progression anti-PD-1 samples by immunohistochemistry. Supplementary Figure 5. Longitudinal increase in CD8, PD-1, and PD-L1 expression in responders to anti-PD-1 therapy. Supplementary Figure 6. Relative increase in CD8 T cell infiltrate at tumor center in responders to anti-PD-1 on treatment. Supplementary Figure 7. Significant increase in immune infiltrate between responders and non-responders to PD-1 blockade in absence of prior anti-CTLA-4 therapy. Supplementary Figure 8. Immune profiling of myeloid cells atpre-treatment and on-treatment PD-1 blockade time pointsby immunohistochemistry. Supplementary Figure 9. Heatmap of 54 NanoString samples. Supplementary Figure 10. Gene-specific NanoString concordance with immune profiling by IHC in pre-treatment, on-treatment and progression CTLA-4 blockade samples. Supplementary Figure 11. Gene-specific NanoString concordance with immune profiling by IHC in pre-treatment, on-treatment and progression PD-1 blockade samples. Supplementary Figure 12. Prior CTLA-4 blockade is not required for PD-1 early on-treatment profile. Supplementary Figure 13. Hierarchical clustering of gene expression across 54 samples confirms lack of batch effect.

Published
2023

37. Data from Response to BRAF Inhibition in Melanoma Is Enhanced When Combined with Immune Checkpoint Blockade

Author

Jennifer A. Wargo, Arlene H. Sharpe, David E. Fisher, Keith T. Flaherty, Martin McMahon, Marcus W. Bosenberg, Gordon J. Freeman, F. Stephen Hodi, Jennifer A. Lo, Devarati Mitra, Adriano Piris, Dennie T. Frederick, Peter T. Sage, Vikram R. Juneja, and Zachary A. Cooper

Abstract

BRAF-targeted therapy results in objective responses in the majority of patients; however, the responses are short lived (∼6 months). In contrast, treatment with immune checkpoint inhibitors results in a lower response rate, but the responses tend to be more durable. BRAF inhibition results in a more favorable tumor microenvironment in patients, with an increase in CD8+ T-cell infiltrate and a decrease in immunosuppressive cytokines. There is also increased expression of the immunomodulatory molecule PDL1, which may contribute to the resistance. On the basis of these findings, we hypothesized that BRAF-targeted therapy may synergize with the PD1 pathway blockade to enhance antitumor immunity. To test this hypothesis, we developed a BRAF(V600E)/Pten−/− syngeneic tumor graft immunocompetent mouse model in which BRAF inhibition leads to a significant increase in the intratumoral CD8+ T-cell density and cytokine production, similar to the effects of BRAF inhibition in patients. In this model, CD8+ T cells were found to play a critical role in the therapeutic effect of BRAF inhibition. Administration of anti-PD1 or anti-PDL1 together with a BRAF inhibitor led to an enhanced response, significantly prolonging survival and slowing tumor growth, as well as significantly increasing the number and activity of tumor-infiltrating lymphocytes. These results demonstrate synergy between combined BRAF-targeted therapy and immune checkpoint blockade. Although clinical trials combining these two strategies are ongoing, important questions still remain unanswered. Further studies using this new melanoma mouse model may provide therapeutic insights, including optimal timing and sequence of therapy. Cancer Immunol Res; 2(7); 643–54. ©2014 AACR.

Published
2023

38. Supplementary Figure Legends from Analysis of Immune Signatures in Longitudinal Tumor Samples Yields Insight into Biomarkers of Response and Mechanisms of Resistance to Immune Checkpoint Blockade

Author

Jennifer A. Wargo, Lynda Chin, James P. Allison, Padmanee Sharma, Jorge Blando, P. Andrew Futreal, Jianhua Hu, Arlene H. Sharpe, Willem W. Overwijk, Wencai Ma, R. Eric Davis, Victor Prieto, Lawrence N. Kwong, Rodabe N. Amaria, Ignacio I. Wistuba, Luis M. Vence, Scott E. Woodman, Isabella C. Glitza, Adi Diab, Wen-Jen Hwu, Patrick Hwu, Sapna P. Patel, Alexander J. Lazar, Lauren Haydu, Jeffrey E. Gershenwald, Michael A. Davies, Russell J. Broaddus, Michael T. Tetzlaff, Wei-Shen Chen, Sangeetha M. Reddy, Qing Chang, Hong Jiang, Jacob L. Austin-Breneman, Mariana Petaccia De Macedo, Khalida Wani, Vancheswaran Gopalakrishnan, Roland L. Bassett, John P. Miller, Peter A. Prieto, Christine N. Spencer, Zachary A. Cooper, Alexandre Reuben, Whijae Roh, and Pei-Ling Chen

Abstract

Supplementary Figure Legends

Published
2023

40. Data from PD-L1 Antibodies to Its Cytoplasmic Domain Most Clearly Delineate Cell Membranes in Immunohistochemical Staining of Tumor Cells

Author

Gordon J. Freeman, Scott J. Rodig, Sabina Signoretti, Arlene H. Sharpe, F. Stephen Hodi, Edward A. Greenfield, Marcella Callea, Ping Hua, Xiaoyun Liao, Heather Sun, and Kathleen M. Mahoney

Abstract

Blocking the programmed death-1 (PD-1) pathway has clinical benefit in metastatic cancer and has led to the approval of the mAbs pembrolizumab and nivolumab to treat melanoma and nivolumab for non–small cell lung cancer. Expression of PD-L1 on the cell surface of either tumor cells or infiltrating immune cells is associated with a higher likelihood of response to PD-1 blockade in multiple studies. Most mAbs to PD-L1 in use are directed to its extracellular domain and immunohistochemically stain tumor tissue with a mixture of cytoplasmic and membrane staining. Cytoplasmic staining obscures the interpretation of a positive reaction on the tumor cell membrane, and thus affects the accuracy of PD-L1 scoring systems. We developed a mAb to the cytoplasmic domain of PD-L1, 405.9A11 (9A11), which is both more selective for membranous PD-L1 and more sensitive in IHC and Western blotting, compared with previous mAbs specific for the PD-L1 extracellular domain. Here, we compare immunohistochemical staining patterns of PD-L1 expression in five types of tumors, using five PD-L1 mAbs: 9A11, 7G11, and three commercially available mAbs. We demonstrate that 9A11, as well as two other cytoplasmic domain-specific mAbs, E1L3N and SP142, can clearly delineate the membrane of PD-L1–positive cells in formalin-fixed paraffin-embedded tissue and facilitate interpretation of staining results. Cancer Immunol Res; 3(12); 1308–15. ©2015 AACR.

Published
2023

41. Supplementary Figures from Response to BRAF Inhibition in Melanoma Is Enhanced When Combined with Immune Checkpoint Blockade

Author

Jennifer A. Wargo, Arlene H. Sharpe, David E. Fisher, Keith T. Flaherty, Martin McMahon, Marcus W. Bosenberg, Gordon J. Freeman, F. Stephen Hodi, Jennifer A. Lo, Devarati Mitra, Adriano Piris, Dennie T. Frederick, Peter T. Sage, Vikram R. Juneja, and Zachary A. Cooper

Abstract

Supplementary Figure 1. BP cells behave like classic BRAFV600E melanomas after BRAF inhibition. Supplementary Figure 2. Subcutaneously implanted BP cells develop into tumors. Supplementary Figure 3. BRAF inhibition is associated with an increase in density of tumor-infiltrating T cells. Supplementary Figure 4. Kinetics of functional CD8 T cell markers. Supplementary Figure 5. BRAF inhibition is associated with an increase in overall PD-L1 and PD-L2 expression in the tumor. Supplementary Figure 6. Cell type specific changes in PD-L1 expression after BRAF inhibitors. Supplementary Figure 7. PD-1 or PD-L1 blockade synergy with BRAF inhibitors is associated with increased density of tumor-infiltrating T cells.

Published
2023

43. Supplementary Figures 1 through 7 and Supplementary Table 1 from Glioblastoma Eradication Following Immune Checkpoint Blockade in an Orthotopic, Immunocompetent Model

Author

Gordon J. Freeman, Glenn Dranoff, Arlene H. Sharpe, Nancy E. Kohl, Lei Qin, F. Stephen Hodi, Annick D. Van Den Abbeele, Patrick Y. Wen, Jun Zhou, Xiaoyun Liao, Amy Saur Conway, Kristen L. Jones, Shakti H. Ramkissoon, Scott J. Rodig, Keith L. Ligon, Sarah R. Klein, Prafulla C. Gokhale, and David A. Reardon

Abstract

Supplemental Figure 1. Bioluminescence plots of individual animals following treatment with immune checkpoint blocking mAbs. Supplemental Figure 2. Immune cell infiltrates within intracranial GL261-luc2 tumor following treatment with isotype control IgG or combination therapy with CTLA-4 plus PD-1 mAb therapy. Supplemental Figure 3: Treatment antibody and detection antibody for PD-1 do not share same the epitope. Supplemental Figure 4. Representative immunohistochemistry results of intratumoral CD3+, CD4+ and CD8+ T cell infiltrates following immune checkpoint therapy with mAbs against CTLA-4, PD-1 and both CTLA-4 and PD-1. Supplemental Figure 5. Immune cell infiltration within the draining cervical lymph node (cLN) of GL261-luc2 tumor-bearing mice following treatment with isotype control IgG or combination therapy with mAbs against CTLA-4 plus PD-1. Supplemental Figure 6. Comparisons of chemokine expression levels in sera of mice treated with checkpoint blockade. Supplemental Figure 7: Expression of checkpoint ligands and receptors on GL261-Luc cells in vitro. Supplementary Table 1. Arrangement of chemokines on the Mouse Chemokine Antibody Array.

Published
2023

44. Supplementary Tables 1 - 11 from Analysis of Immune Signatures in Longitudinal Tumor Samples Yields Insight into Biomarkers of Response and Mechanisms of Resistance to Immune Checkpoint Blockade

Author

Jennifer A. Wargo, Lynda Chin, James P. Allison, Padmanee Sharma, Jorge Blando, P. Andrew Futreal, Jianhua Hu, Arlene H. Sharpe, Willem W. Overwijk, Wencai Ma, R. Eric Davis, Victor Prieto, Lawrence N. Kwong, Rodabe N. Amaria, Ignacio I. Wistuba, Luis M. Vence, Scott E. Woodman, Isabella C. Glitza, Adi Diab, Wen-Jen Hwu, Patrick Hwu, Sapna P. Patel, Alexander J. Lazar, Lauren Haydu, Jeffrey E. Gershenwald, Michael A. Davies, Russell J. Broaddus, Michael T. Tetzlaff, Wei-Shen Chen, Sangeetha M. Reddy, Qing Chang, Hong Jiang, Jacob L. Austin-Breneman, Mariana Petaccia De Macedo, Khalida Wani, Vancheswaran Gopalakrishnan, Roland L. Bassett, John P. Miller, Peter A. Prieto, Christine N. Spencer, Zachary A. Cooper, Alexandre Reuben, Whijae Roh, and Pei-Ling Chen

Abstract

Supplementary Table S1a. Patient Cohort Clinical Summary. Supplementary Table S1b. Patient clinical characteristics. Supplementary Table S1c. Immune profiling by IHC sample log. Supplementary Table S1d. Nanostring 54 sample log. Supplementary Table S2. Summary of immune profiling by immunohistochemistry. Supplementary Table S3. Summary of immune profiling by 4 additional myeloid markers. Supplementary Table S4. Summary of immune profiling by IHC of additional CTLA-4 blockade-naïve samples. Supplementary Table S5. Nanostring Gene List. Supplementary Table S6a. Nanostring summary 54 samples. Supplementary Table S6b. Differentially upregulated and downregulated genes in pre-treatment anti-CTLA-4 samples. Supplementary Table S6c. Differentially upregulated and downregulated genes in on-treatment anti-CTLA-4 samples. Supplementary Table S6d. Differentially upregulated and downregulated genes in pre-treatment anti-PD-1 samples. Supplementary Table S6e. Differentially upregulated and downregulated genes in on-treatment anti-PD-1 samples. Supplementary Table S7. Differentially upregulated and downregulated genes from pre- to on-treatment anti-CTLA-4. Supplementary Table S8. Differentially upregulated and downregulated genes from pre- to on-treatment anti-PD-1. Supplementary Table S9a. Nanostring gene list - chip used for comparison of CTLA-4 blockade-experienced vs -naive anti-PD1 samples (28 samples). Supplementary Table S9b. NanoString additional 28 samples to compare CTLA-4 blockade-experienced vs -naive anti-PD1 samples. Supplementary Table S9c. NanoString normalized data of additional 28 samples to compare CTLA-4 blockade-experienced vs -naive anti-PD1 samples. Supplementary Table S10. Commonly differentially regulated genes between pre- to on-treatment CTLA-4 blockade and PD-1 blockade. Supplementary Table S11a. Fold changes of significant change by anti-PD-1 therapy for paired samples. Supplementary Table S11b. Frequency of significant change by anti-PD1 therapy for paired samples.

Published
2023

45. Supplementary Figure Legends from Glioblastoma Eradication Following Immune Checkpoint Blockade in an Orthotopic, Immunocompetent Model

Author

Gordon J. Freeman, Glenn Dranoff, Arlene H. Sharpe, Nancy E. Kohl, Lei Qin, F. Stephen Hodi, Annick D. Van Den Abbeele, Patrick Y. Wen, Jun Zhou, Xiaoyun Liao, Amy Saur Conway, Kristen L. Jones, Shakti H. Ramkissoon, Scott J. Rodig, Keith L. Ligon, Sarah R. Klein, Prafulla C. Gokhale, and David A. Reardon

Abstract

Supplementary Figure Legends

Published
2023

46. CRISPR Screens to Identify Regulators of Tumor Immunity

Author

Martin W. LaFleur and Arlene H. Sharpe

Subjects
Cancer Research, Oncology, Cell Biology, Article
Abstract

Cancer immunotherapies, such as immune checkpoint blockade (ICB), have been used in a wide range of tumor types with immense clinical benefit. However, ICB does not work in all patients, and attempts to combine ICB with other immune-based therapies have not lived up to their initial promise. Thus, there is a significant unmet need to discover new targets and combination therapies to extend the benefits of immunotherapy to more patients. Systems biology approaches are well suited for addressing this problem because these approaches enable evaluation of many gene targets simultaneously and ranking their relative importance for a phenotype of interest. As such, loss-of-function CRISPR screens are an emerging set of tools being used to prioritize gene targets for modulating pathways of interest in tumor and immune cells. This review describes the first screens performed to discover cancer immunotherapy targets and the technological advances that will enable next-generation screens.

Published
2023

47. Data from Concurrent Dexamethasone Limits the Clinical Benefit of Immune Checkpoint Blockade in Glioblastoma

Author

David A. Reardon, Gordon J. Freeman, Arlene H. Sharpe, Paul T. Kirschmeier, Ana C. Anderson, E. Antonio Chiocca, Peter K. Sorger, Keith L. Ligon, Gareth R. L. Grant, Quang-Dé Nguyen, Dennis M. Bonal, Gregory J. Baker, Mary Jane Lim-Fat, Yan Gao, Aine Knott, Chhayheng Chhoeu, Kara M. Soroko, Margaret K. Wilkens, Michael J. Poitras, Benjamin K. Eschle, Maria C. Speranza, Prafulla C. Gokhale, and J. Bryan Iorgulescu

Abstract

Purpose:Dexamethasone, a uniquely potent corticosteroid, is frequently administered to patients with brain tumors to decrease tumor-associated edema, but limited data exist describing how dexamethasone affects the immune system systemically and intratumorally in patients with glioblastoma (GBM), particularly in the context of immunotherapy.Experimental Design:We evaluated the dose-dependent effects of dexamethasone when administered with programmed cell death 1 (PD-1) blockade and/or radiotherapy in immunocompetent C57BL/6 mice with syngeneic GL261 and CT-2A GBM tumors. Clinically, the effect of dexamethasone on survival was evaluated in 181 patients with isocitrate dehydrogenase (IDH) wild-type GBM treated with PD-(L)1 blockade, with adjustment for relevant prognostic factors.Results:Despite the inherent responsiveness of GL261 to immune checkpoint blockade, concurrent dexamethasone administration with anti–PD-1 therapy reduced survival in a dose-dependent manner. Concurrent dexamethasone also abrogated survival following anti–PD-1 therapy with or without radiotherapy in immune-resistant CT-2A models. Dexamethasone decreased T-lymphocyte numbers by increasing apoptosis, in addition to decreasing lymphocyte functional capacity. Myeloid and natural killer cell populations were also generally reduced by dexamethasone. Thus, dexamethasone appears to negatively affect both adaptive and innate immune responses. As a clinical correlate, a retrospective analysis of 181 consecutive patients with IDH wild-type GBM treated with PD-(L)1 blockade revealed poorer survival among those on baseline dexamethasone. Upon multivariable adjustment with relevant prognostic factors, baseline dexamethasone administration was the strongest predictor of poor survival [reference, no dexamethasone; P = 0.003 and ≥2 mg HR, 1.97; 95% CI, 1.23–3.16; P = 0.005].Conclusions:Our preclinical and clinical data indicate that concurrent dexamethasone therapy may be detrimental to immunotherapeutic approaches for patients with GBM.

Published
2023

48. Figure S1 from Concurrent Dexamethasone Limits the Clinical Benefit of Immune Checkpoint Blockade in Glioblastoma

Author

David A. Reardon, Gordon J. Freeman, Arlene H. Sharpe, Paul T. Kirschmeier, Ana C. Anderson, E. Antonio Chiocca, Peter K. Sorger, Keith L. Ligon, Gareth R. L. Grant, Quang-Dé Nguyen, Dennis M. Bonal, Gregory J. Baker, Mary Jane Lim-Fat, Yan Gao, Aine Knott, Chhayheng Chhoeu, Kara M. Soroko, Margaret K. Wilkens, Michael J. Poitras, Benjamin K. Eschle, Maria C. Speranza, Prafulla C. Gokhale, and J. Bryan Iorgulescu

Abstract

Figure S1

Published
2023

49. Supplementary Methods and Legends from Concurrent Dexamethasone Limits the Clinical Benefit of Immune Checkpoint Blockade in Glioblastoma

Author

David A. Reardon, Gordon J. Freeman, Arlene H. Sharpe, Paul T. Kirschmeier, Ana C. Anderson, E. Antonio Chiocca, Peter K. Sorger, Keith L. Ligon, Gareth R. L. Grant, Quang-Dé Nguyen, Dennis M. Bonal, Gregory J. Baker, Mary Jane Lim-Fat, Yan Gao, Aine Knott, Chhayheng Chhoeu, Kara M. Soroko, Margaret K. Wilkens, Michael J. Poitras, Benjamin K. Eschle, Maria C. Speranza, Prafulla C. Gokhale, and J. Bryan Iorgulescu

Abstract

Supplementary Methods and Legends

Published
2023

50. Table S1 from Concurrent Dexamethasone Limits the Clinical Benefit of Immune Checkpoint Blockade in Glioblastoma

Author

David A. Reardon, Gordon J. Freeman, Arlene H. Sharpe, Paul T. Kirschmeier, Ana C. Anderson, E. Antonio Chiocca, Peter K. Sorger, Keith L. Ligon, Gareth R. L. Grant, Quang-Dé Nguyen, Dennis M. Bonal, Gregory J. Baker, Mary Jane Lim-Fat, Yan Gao, Aine Knott, Chhayheng Chhoeu, Kara M. Soroko, Margaret K. Wilkens, Michael J. Poitras, Benjamin K. Eschle, Maria C. Speranza, Prafulla C. Gokhale, and J. Bryan Iorgulescu

Abstract

Table S1

Published
2023

Catalog

Books, media, physical & digital resources
See catalog results