Your search keyword '"Viviana Cremasco"' showing total 69 results

1. Phase I/Ib, open-label, multicenter, dose-escalation study of the anti-TGF-β monoclonal antibody, NIS793, in combination with spartalizumab in adult patients with advanced tumors

Author

Thomas Yau, Ignacio Garrido-Laguna, Pierre-Eric Juif, Markus Joerger, Anna Spreafico, Todd M Bauer, Chia-Chi Lin, Armando Santoro, Richard Greil, Helen Evans, Marc Pelletier, Toshikiko Doi, Maria-Elisabeth Goebeler, Viviana Cremasco, Marie Luise Hütter-Krönke, Antonella Perotti, Darlene Lu, Louise Barys, and Claire Fabre

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Background NIS793 is a human IgG2 monoclonal antibody that binds to transforming growth factor beta (TGF-β). This first-in-human study investigated NIS793 plus spartalizumab treatment in patients with advanced solid tumors.Methods Patients received NIS793 (0.3–1 mg/kg every 3 weeks (Q3W)) monotherapy; following evaluation of two dose levels, dose escalation continued with NIS793 plus spartalizumab (NIS793 0.3–30 mg/kg Q3W and spartalizumab 300 mg Q3W or NIS793 20–30 mg/kg every 2 weeks [Q2W] and spartalizumab 400 mg every 4 weeks (Q4W)). In dose expansion, patients with non-small cell lung cancer (NSCLC) resistant to prior anti-programmed death ligand 1 or patients with microsatellite stable colorectal cancer (MSS-CRC) were treated at the recommended dose for expansion (RDE).Results Sixty patients were treated in dose escalation, 11 with NIS793 monotherapy and 49 with NIS793 plus spartalizumab, and 60 patients were treated in dose expansion (MSS-CRC: n=40; NSCLC: n=20). No dose-limiting toxicities were observed. The RDE was established as NIS793 30 mg/kg (2100 mg) and spartalizumab 300 mg Q3W. Overall 54 (49.5%) patients experienced ≥1 treatment-related adverse event, most commonly rash (n=16; 13.3%), pruritus (n=10; 8.3%), and fatigue (n=9; 7.5%). Three partial responses were reported: one in renal cell carcinoma (NIS793 30 mg/kg Q2W plus spartalizumab 400 mg Q4W), and two in the MSS-CRC expansion cohort. Biomarker data showed evidence of target engagement through increased TGF-β/NIS793 complexes and depleted active TGF-β in peripheral blood. Gene expression analyses in tumor biopsies demonstrated decreased TGF-β target genes and signatures and increased immune signatures.Conclusions In patients with advanced solid tumors, proof of mechanism of NIS793 is supported by evidence of target engagement and TGF-β pathway inhibition.Trial registration number NCT02947165.

Published

2023

2. 798 TGFβ blockade in pancreatic cancer enhances sensitivity to combination chemotherapy

Author

Jennifer Wang, Michael Dougan, Elisa Bello, Marc Pelletier, Li Qiang, Stephanie Dougan, Victoire Cardot-Ruffino, Megan Hoffman, Lestat Ali, Jaime Ivan Castillo Silva, Ayantu Temesgen, Patrick Lenehan, Lauren Kageler, Giselle Uribe, Annan Yang, Andrew J Aguirre, Srivatsan Raghavan, and Viviana Cremasco

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Published

2023

3. PAX8 lineage-driven T cell engaging antibody for the treatment of high-grade serous ovarian cancer

Author

Emily Lee, Sarah Szvetecz, Ryan Polli, Angelo Grauel, Jayson Chen, Joyce Judge, Smita Jaiswal, Rie Maeda, Stephanie Schwartz, Bernd Voedisch, Mateusz Piksa, Chietara Japutra, Lingheswar Sadhasivam, Yiqin Wang, Ana Carrion, Sinan Isim, Jinsheng Liang, Thomas Nicholson, Hong Lei, Qing Fang, Michelle Steinkrauss, Dana Walker, Joel Wagner, Viviana Cremasco, Hui Qin Wang, Giorgio G. Galli, Brian Granda, Keith Mansfield, Quincey Simmons, Andrew Anh Nguyen, and Nicole Vincent Jordan

Subjects

Medicine, Science

Abstract

Abstract High-grade serous ovarian cancers (HGSOC) represent the most common subtype of ovarian malignancies. Due to the frequency of late-stage diagnosis and high rates of recurrence following standard of care treatments, novel therapies are needed to promote durable responses. We investigated the anti-tumor activity of CD3 T cell engaging bispecific antibodies (TCBs) directed against the PAX8 lineage-driven HGSOC tumor antigen LYPD1 and demonstrated that anti-LYPD1 TCBs induce T cell activation and promote in vivo tumor growth inhibition in LYPD1-expressing HGSOC. To selectively target LYPD1-expressing tumor cells with high expression while sparing cells with low expression, we coupled bivalent low-affinity anti-LYPD1 antigen-binding fragments (Fabs) with the anti-CD3 scFv. In contrast to the monovalent anti-LYPD1 high-affinity TCB (VHP354), the bivalent low-affinity anti-LYPD1 TCB (QZC131) demonstrated antigen density-dependent selectivity and showed tolerability in cynomolgus monkeys at the maximum dose tested of 3 mg/kg. Collectively, these data demonstrate that bivalent TCBs directed against LYPD1 have compelling efficacy and safety profiles to support its use as a treatment for high-grade serous ovarian cancers.

Published

2021

4. SHP2 blockade enhances anti-tumor immunity via tumor cell intrinsic and extrinsic mechanisms

Author

Ye Wang, Morvarid Mohseni, Angelo Grauel, Javier Estrada Diez, Wei Guan, Simon Liang, Jiyoung Elizabeth Choi, Minying Pu, Dongshu Chen, Tyler Laszewski, Stephanie Schwartz, Jane Gu, Leandra Mansur, Tyler Burks, Lauren Brodeur, Roberto Velazquez, Steve Kovats, Bhavesh Pant, Giri Buruzula, Emily Deng, Julie T. Chen, Farid Sari-Sarraf, Christina Dornelas, Malini Varadarajan, Haiyan Yu, Chen Liu, Joanne Lim, Huai-Xiang Hao, Xiaomo Jiang, Anthony Malamas, Matthew J. LaMarche, Felipe Correa Geyer, Margaret McLaughlin, Carlotta Costa, Joel Wagner, David Ruddy, Pushpa Jayaraman, Nathaniel D. Kirkpatrick, Pu Zhang, Oleg Iartchouk, Kimberly Aardalen, Viviana Cremasco, Glenn Dranoff, Jeffrey A. Engelman, Serena Silver, Hongyun Wang, William D. Hastings, and Silvia Goldoni

Subjects

Medicine, Science

Abstract

Abstract SHP2 is a ubiquitous tyrosine phosphatase involved in regulating both tumor and immune cell signaling. In this study, we discovered a novel immune modulatory function of SHP2. Targeting this protein with allosteric SHP2 inhibitors promoted anti-tumor immunity, including enhancing T cell cytotoxic function and immune-mediated tumor regression. Knockout of SHP2 using CRISPR/Cas9 gene editing showed that targeting SHP2 in cancer cells contributes to this immune response. Inhibition of SHP2 activity augmented tumor intrinsic IFNγ signaling resulting in enhanced chemoattractant cytokine release and cytotoxic T cell recruitment, as well as increased expression of MHC Class I and PD-L1 on the cancer cell surface. Furthermore, SHP2 inhibition diminished the differentiation and inhibitory function of immune suppressive myeloid cells in the tumor microenvironment. SHP2 inhibition enhanced responses to anti-PD-1 blockade in syngeneic mouse models. Overall, our study reveals novel functions of SHP2 in tumor immunity and proposes that targeting SHP2 is a promising strategy for cancer immunotherapy.

Published

2021

5. TGFβ-blockade uncovers stromal plasticity in tumors by revealing the existence of a subset of interferon-licensed fibroblasts

Author

Angelo L. Grauel, Beverly Nguyen, David Ruddy, Tyler Laszewski, Stephanie Schwartz, Jonathan Chang, Julie Chen, Michelle Piquet, Marc Pelletier, Zheng Yan, Nathaniel D. Kirkpatrick, Jincheng Wu, Antoine deWeck, Markus Riester, Matt Hims, Felipe Correa Geyer, Joel Wagner, Kenzie MacIsaac, James Deeds, Rohan Diwanji, Pushpa Jayaraman, Yenyen Yu, Quincey Simmons, Shaobu Weng, Alina Raza, Brian Minie, Mirek Dostalek, Pavitra Chikkegowda, Vera Ruda, Oleg Iartchouk, Naiyan Chen, Raphael Thierry, Joseph Zhou, Iulian Pruteanu-Malinici, Claire Fabre, Jeffrey A. Engelman, Glenn Dranoff, and Viviana Cremasco

Subjects

Science

Abstract

Understanding the tumor microenviroment is important before it can be exploited therapeutically. Here, the authors use single cell sequencing to study stromal cells in mouse tumors and identify a subset of interferon-licensed cancer associated fibroblasts that appear after anti-TGFβ treatment.

Published

2020

6. Colon stroma mediates an inflammation-driven fibroblastic response controlling matrix remodeling and healing.

Author

Guadalupe J Jasso, Alok Jaiswal, Mukund Varma, Tyler Laszewski, Angelo Grauel, Abdifatah Omar, Nilsa Silva, Glenn Dranoff, Jeffrey A Porter, Keith Mansfield, Viviana Cremasco, Aviv Regev, Ramnik J Xavier, and Daniel B Graham

Subjects

Biology (General), QH301-705.5

Abstract

Chronic inflammation is often associated with the development of tissue fibrosis, but how mesenchymal cell responses dictate pathological fibrosis versus resolution and healing remains unclear. Defining stromal heterogeneity and identifying molecular circuits driving extracellular matrix deposition and remodeling stands to illuminate the relationship between inflammation, fibrosis, and healing. We performed single-cell RNA-sequencing of colon-derived stromal cells and identified distinct classes of fibroblasts with gene signatures that are differentially regulated by chronic inflammation, including IL-11-producing inflammatory fibroblasts. We further identify a transcriptional program associated with trans-differentiation of mucosa-associated fibroblasts and define a functional gene signature associated with matrix deposition and remodeling in the inflamed colon. Our analysis supports a critical role for the metalloprotease Adamdec1 at the interface between tissue remodeling and healing during colitis, demonstrating its requirement for colon epithelial integrity. These findings provide mechanistic insight into how inflammation perturbs stromal cell behaviors to drive fibroblastic responses controlling mucosal matrix remodeling and healing.

Published

2022

7. IgE/FcεRI-Mediated Antigen Cross-Presentation by Dendritic Cells Enhances Anti-Tumor Immune Responses

Author

Barbara Platzer, Kutlu G. Elpek, Viviana Cremasco, Kristi Baker, Madeleine M. Stout, Cornelia Schultz, Eleonora Dehlink, Kai-Ting C. Shade, Robert M. Anthony, Richard S. Blumberg, Shannon J. Turley, and Edda Fiebiger

Subjects

Biology (General), QH301-705.5

Abstract

Epidemiologic studies discovered an inverse association between immunoglobulin E (IgE)-mediated allergies and cancer, implying tumor-protective properties of IgE. However, the underlying immunologic mechanisms remain poorly understood. Antigen cross-presentation by dendritic cells (DCs) is of key importance for anti-tumor immunity because it induces the generation of cytotoxic CD8+ T lymphocytes (CTLs) with specificity for tumor antigens. We demonstrate that DCs use IgE and FcεRI, the high-affinity IgE receptor, for cross-presentation and priming of CTLs in response to free soluble antigen at low doses. Importantly, IgE/FcεRI-mediated cross-presentation is a distinct receptor-mediated pathway because it does not require MyD88 signals or IL-12 induction in DCs. Using passive immunization with tumor antigen-specific IgE and DC-based vaccination experiments, we demonstrate that IgE-mediated cross-presentation significantly improves anti-tumor immunity and induces memory responses in vivo. Our findings suggest a cellular mechanism for the tumor-protective features of IgE and expand the known physiological functions of this immunoglobulin.

Published

2015

8. Topological Small-World Organization of the Fibroblastic Reticular Cell Network Determines Lymph Node Functionality.

Author

Mario Novkovic, Lucas Onder, Jovana Cupovic, Jun Abe, David Bomze, Viviana Cremasco, Elke Scandella, Jens V Stein, Gennady Bocharov, Shannon J Turley, and Burkhard Ludewig

Subjects

Biology (General), QH301-705.5

Abstract

Fibroblastic reticular cells (FRCs) form the cellular scaffold of lymph nodes (LNs) and establish distinct microenvironmental niches to provide key molecules that drive innate and adaptive immune responses and control immune regulatory processes. Here, we have used a graph theory-based systems biology approach to determine topological properties and robustness of the LN FRC network in mice. We found that the FRC network exhibits an imprinted small-world topology that is fully regenerated within 4 wk after complete FRC ablation. Moreover, in silico perturbation analysis and in vivo validation revealed that LNs can tolerate a loss of approximately 50% of their FRCs without substantial impairment of immune cell recruitment, intranodal T cell migration, and dendritic cell-mediated activation of antiviral CD8+ T cells. Overall, our study reveals the high topological robustness of the FRC network and the critical role of the network integrity for the activation of adaptive immune responses.

Published

2016

9. Phospholipase C gamma 2 is critical for development of a murine model of inflammatory arthritis by affecting actin dynamics in dendritic cells.

Author

Viviana Cremasco, Elisa Benasciutti, Marina Cella, Marina Kisseleva, Monica Croke, and Roberta Faccio

Subjects

Medicine, Science

Abstract

BACKGROUND:Dendritic cells (DCs) are highly specialized cells, which capture antigen in peripheral tissues and migrate to lymph nodes, where they dynamically interact with and activate T cells. Both migration and formation of DC-T cell contacts depend on cytoskeleton plasticity. However, the molecular bases governing these events have not been completely defined. METHODOLOGY/PRINCIPAL FINDINGS:Utilizing a T cell-dependent model of arthritis, we find that PLCgamma2-/- mice are protected from local inflammation and bone erosion. PLCgamma2 controls actin remodeling in dendritic cells, thereby affecting their capacity to prime T cells. DCs from PLCgamma2-/- mice mature normally, however they lack podosomes, typical actin structures of motile cells. Absence of PLCgamma2 impacts both DC trafficking to the lymph nodes and migration towards CCL21. The interaction with T cells is also affected by PLCgamma2 deficiency. Mechanistically, PLCgamma2 is activated by CCL21 and modulates Rac activation. Rac1/2-/- DCs also lack podosomes and do not respond to CCL21. Finally, antigen pulsed PLCgamma2-/- DCs fail to promote T cell activation and induce inflammation in vivo when injected into WT mice. Conversely, injection of WT DCs into PLCgamma2-/- mice rescues the inflammatory response but not focal osteolysis, confirming the importance of PLCgamma2 both in immune and bone systems. CONCLUSIONS/SIGNIFICANCE:This study demonstrates a critical role for PLCgamma2 in eliciting inflammatory responses by regulating actin dynamics in DCs and positions the PLCgamma2 pathway as a common orchestrator of bone and immune cell functions during arthritis.

Published

2010

10. Tumor-driven stromal reprogramming in the pre-metastatic lymph node [version 1; peer review: awaiting peer review]

Author

Michelle Piquet, David A Ruddy, Viviana Cremasco, and Jonathan Chang

Subjects

Research Article, Articles, Tumor Draining Lymph Node, scRNAseq, metastasis, Stromal Cell, Fibroblast, Endothelial Cell, pre-metastatic Niche

Abstract

Background Metastatic dissemination is critically reliant on the formation of a receptive niche, a process which is thought to rely on signals derived from the primary tumor. Lymph nodes are continuously exposed to such signals through the flow of afferent lymph, allowing the potential reprograming of lymphoid tissue stroma in support of metastases or immunosuppression. The objective of this study was therefore to better characterize tumor-driven transcriptomic changes occurring to specific stromal populations within the tumor-draining lymph node. Methods We utilize single cell RNA sequencing of dissociated LN tissue extracted from tumor-bearing and naïve mice to profile the reprograming of tissue stroma within the pre-metastatic lymph node. Results Resulting data provides transcriptomic evidence of tumor-induced imprinting on marginal reticular cells (MRCs) and floor lymphatic endothelial cells (fLECs) populating the subcapsular sinus. These alterations appear to be unique to the tumor-draining LN and are not observed during inflammatory antigenic challenge. Notably, MRCs exhibit characteristics reminiscent of early desmoplastic CAF differentiation, fLECs engage distinct chemoattractant pathways thought to facilitate recruitment of circulating cancer cells, and both stromal populations exhibit signs of metabolic reprograming and immune-modulating potential. Conclusions Cumulatively, these findings build upon existing literature describing pre-metastatic niche formation and offer several promising avenues for future exploration.

Published

2024

11. Targeting the IL1β Pathway for Cancer Immunotherapy Remodels the Tumor Microenvironment and Enhances Antitumor Immune Responses

Author

Rohan Diwanji, Neil A. O'Brien, Jiyoung E. Choi, Beverly Nguyen, Tyler Laszewski, Angelo L. Grauel, Zheng Yan, Xin Xu, Jincheng Wu, David A. Ruddy, Michelle Piquet, Marc R. Pelletier, Alexander Savchenko, LaSalette Charette, Vanessa Rodrik-Outmezguine, Jason Baum, John M. Millholland, Connie C. Wong, Anne-Marie Martin, Glenn Dranoff, Iulian Pruteanu-Malinici, Viviana Cremasco, Catherine Sabatos-Peyton, and Pushpa Jayaraman

Subjects

Cancer Research, Immunology

Abstract

High levels of IL1β can result in chronic inflammation, which in turn can promote tumor growth and metastasis. Inhibition of IL1β could therefore be a promising therapeutic option in the treatment of cancer. Here, the effects of IL1β blockade induced by the mAbs canakinumab and gevokizumab were evaluated alone or in combination with docetaxel, anti–programmed cell death protein 1 (anti–PD-1), anti-VEGFα, and anti-TGFβ treatment in syngeneic and humanized mouse models of cancers of different origin. Canakinumab and gevokizumab did not show notable efficacy as single-agent therapies; however, IL1β blockade enhanced the effectiveness of docetaxel and anti–PD-1. Accompanying these effects, blockade of IL1β alone or in combination induced significant remodeling of the tumor microenvironment (TME), with decreased numbers of immune suppressive cells and increased tumor infiltration by dendritic cells (DC) and effector T cells. Further investigation revealed that cancer-associated fibroblasts (CAF) were the cell type most affected by treatment with canakinumab or gevokizumab in terms of change in gene expression. IL1β inhibition drove phenotypic changes in CAF populations, particularly those with the ability to influence immune cell recruitment. These results suggest that the observed remodeling of the TME following IL1β blockade may stem from changes in CAF populations. Overall, the results presented here support the potential use of IL1β inhibition in cancer treatment. Further exploration in ongoing clinical studies will help identify the best combination partners for different cancer types, cancer stages, and lines of treatment.

Published

2023

12. Supplementary Tables and Figures from Targeting the IL1β Pathway for Cancer Immunotherapy Remodels the Tumor Microenvironment and Enhances Antitumor Immune Responses

Author

Pushpa Jayaraman, Catherine Sabatos-Peyton, Viviana Cremasco, Iulian Pruteanu-Malinici, Glenn Dranoff, Anne-Marie Martin, Connie C. Wong, John M. Millholland, Jason Baum, Vanessa Rodrik-Outmezguine, LaSalette Charette, Alexander Savchenko, Marc R. Pelletier, Michelle Piquet, David A. Ruddy, Jincheng Wu, Xin Xu, Zheng Yan, Angelo L. Grauel, Tyler Laszewski, Beverly Nguyen, Jiyoung E. Choi, Neil A. O'Brien, and Rohan Diwanji

Abstract

Supplementary tables S1-S5 and figures S1-S7

Published

2023

13. Data from Targeting the IL1β Pathway for Cancer Immunotherapy Remodels the Tumor Microenvironment and Enhances Antitumor Immune Responses

Author

Pushpa Jayaraman, Catherine Sabatos-Peyton, Viviana Cremasco, Iulian Pruteanu-Malinici, Glenn Dranoff, Anne-Marie Martin, Connie C. Wong, John M. Millholland, Jason Baum, Vanessa Rodrik-Outmezguine, LaSalette Charette, Alexander Savchenko, Marc R. Pelletier, Michelle Piquet, David A. Ruddy, Jincheng Wu, Xin Xu, Zheng Yan, Angelo L. Grauel, Tyler Laszewski, Beverly Nguyen, Jiyoung E. Choi, Neil A. O'Brien, and Rohan Diwanji

Abstract

High levels of IL1β can result in chronic inflammation, which in turn can promote tumor growth and metastasis. Inhibition of IL1β could therefore be a promising therapeutic option in the treatment of cancer. Here, the effects of IL1β blockade induced by the mAbs canakinumab and gevokizumab were evaluated alone or in combination with docetaxel, anti–programmed cell death protein 1 (anti–PD-1), anti-VEGFα, and anti-TGFβ treatment in syngeneic and humanized mouse models of cancers of different origin. Canakinumab and gevokizumab did not show notable efficacy as single-agent therapies; however, IL1β blockade enhanced the effectiveness of docetaxel and anti–PD-1. Accompanying these effects, blockade of IL1β alone or in combination induced significant remodeling of the tumor microenvironment (TME), with decreased numbers of immune suppressive cells and increased tumor infiltration by dendritic cells (DC) and effector T cells. Further investigation revealed that cancer-associated fibroblasts (CAF) were the cell type most affected by treatment with canakinumab or gevokizumab in terms of change in gene expression. IL1β inhibition drove phenotypic changes in CAF populations, particularly those with the ability to influence immune cell recruitment. These results suggest that the observed remodeling of the TME following IL1β blockade may stem from changes in CAF populations. Overall, the results presented here support the potential use of IL1β inhibition in cancer treatment. Further exploration in ongoing clinical studies will help identify the best combination partners for different cancer types, cancer stages, and lines of treatment.

Published

2023

14. Supplementary Table 3 from The Tumor Microenvironment Shapes Lineage, Transcriptional, and Functional Diversity of Infiltrating Myeloid Cells

Author

Shannon J. Turley, Paul A. Monach, Daniel R. Goldstein, Kai W. Wucherpfennig, Christopher J. Harvey, Hua Shen, Viviana Cremasco, and Kutlu G. Elpek

Abstract

XLSX file - 12K, Supplementary Table S3: Expression values for neutrophil-associated genes from the heatmap in Figure 5B.

Published

2023

15. Supplementary Figure Legends from The Tumor Microenvironment Shapes Lineage, Transcriptional, and Functional Diversity of Infiltrating Myeloid Cells

Author

Shannon J. Turley, Paul A. Monach, Daniel R. Goldstein, Kai W. Wucherpfennig, Christopher J. Harvey, Hua Shen, Viviana Cremasco, and Kutlu G. Elpek

Abstract

PDF file - 63K

Published

2023

16. Supplementary Table 1 from The Tumor Microenvironment Shapes Lineage, Transcriptional, and Functional Diversity of Infiltrating Myeloid Cells

Author

Shannon J. Turley, Paul A. Monach, Daniel R. Goldstein, Kai W. Wucherpfennig, Christopher J. Harvey, Hua Shen, Viviana Cremasco, and Kutlu G. Elpek

Abstract

XLSX file - 29K, Supplementary Table S1: Expression values for myeloid cell signature genes from the heatmap in Figure 1E.

Published

2023

17. Supplementary Figure 2 from The Tumor Microenvironment Shapes Lineage, Transcriptional, and Functional Diversity of Infiltrating Myeloid Cells

Author

Shannon J. Turley, Paul A. Monach, Daniel R. Goldstein, Kai W. Wucherpfennig, Christopher J. Harvey, Hua Shen, Viviana Cremasco, and Kutlu G. Elpek

Abstract

PDF file - 42K, Supplementary Figure S2: Additional figures on myeloid cell characterization based on tumor type and anatomical location.

Published

2023

18. Supplementary Table 4 from The Tumor Microenvironment Shapes Lineage, Transcriptional, and Functional Diversity of Infiltrating Myeloid Cells

Author

Shannon J. Turley, Paul A. Monach, Daniel R. Goldstein, Kai W. Wucherpfennig, Christopher J. Harvey, Hua Shen, Viviana Cremasco, and Kutlu G. Elpek

Abstract

XLSX file - 4K, Supplementary Table S4: Expression values for neutrophil cytokine-chemokine genes from the heatmap in Figure 6B.

Published

2023

19. Supplementary Table 6 from The Tumor Microenvironment Shapes Lineage, Transcriptional, and Functional Diversity of Infiltrating Myeloid Cells

Author

Shannon J. Turley, Paul A. Monach, Daniel R. Goldstein, Kai W. Wucherpfennig, Christopher J. Harvey, Hua Shen, Viviana Cremasco, and Kutlu G. Elpek

Abstract

XLSX file - 1K, Supplementary Table S6: Expression values for neutrophil granular effector molecules from the heatmap in Figure 7A.

Published

2023

20. Supplementary Figure 1 from The Tumor Microenvironment Shapes Lineage, Transcriptional, and Functional Diversity of Infiltrating Myeloid Cells

Author

Shannon J. Turley, Paul A. Monach, Daniel R. Goldstein, Kai W. Wucherpfennig, Christopher J. Harvey, Hua Shen, Viviana Cremasco, and Kutlu G. Elpek

Abstract

PDF file - 136K, Supplementary Figure S1: Additional figures on myeloid cell characterization in different tumor models.

Published

2023

21. Supplementary Figures from FAP Delineates Heterogeneous and Functionally Divergent Stromal Cells in Immune-Excluded Breast Tumors

Author

Shannon J. Turley, Michael C. Carroll, Glenn Dranoff, Ellen Pure, Kai W. Wucherpfennig, Martin LaFleur, Anne L. Fletcher, Konstantin Knoblich, Sara Cruz Migoni, Tyler Laszewski, Zohreh Amoozgar, Stephen Santoro, Lotte Spel, Michael Wu, Matthew C. Woodruff, Kenzie MacIsaac, Shilpa Keerthivasan, Angelo L. Grauel, Jillian L. Astarita, and Viviana Cremasco

Abstract

Supplementary Figures 1-8

Published

2023

22. Supplementary Figure Legend from FAP Delineates Heterogeneous and Functionally Divergent Stromal Cells in Immune-Excluded Breast Tumors

Author

Shannon J. Turley, Michael C. Carroll, Glenn Dranoff, Ellen Pure, Kai W. Wucherpfennig, Martin LaFleur, Anne L. Fletcher, Konstantin Knoblich, Sara Cruz Migoni, Tyler Laszewski, Zohreh Amoozgar, Stephen Santoro, Lotte Spel, Michael Wu, Matthew C. Woodruff, Kenzie MacIsaac, Shilpa Keerthivasan, Angelo L. Grauel, Jillian L. Astarita, and Viviana Cremasco

Abstract

Figure legends for Supplementary Figures 1-8

Published

2023

23. Supplementary Table 5 from The Tumor Microenvironment Shapes Lineage, Transcriptional, and Functional Diversity of Infiltrating Myeloid Cells

Author

Shannon J. Turley, Paul A. Monach, Daniel R. Goldstein, Kai W. Wucherpfennig, Christopher J. Harvey, Hua Shen, Viviana Cremasco, and Kutlu G. Elpek

Abstract

XLSX file - 2K, Supplementary Table S5: Expression values for PPARa-associated genes from the heatmap in Figure 6C.

Published

2023

24. Data from FAP Delineates Heterogeneous and Functionally Divergent Stromal Cells in Immune-Excluded Breast Tumors

Author

Shannon J. Turley, Michael C. Carroll, Glenn Dranoff, Ellen Pure, Kai W. Wucherpfennig, Martin LaFleur, Anne L. Fletcher, Konstantin Knoblich, Sara Cruz Migoni, Tyler Laszewski, Zohreh Amoozgar, Stephen Santoro, Lotte Spel, Michael Wu, Matthew C. Woodruff, Kenzie MacIsaac, Shilpa Keerthivasan, Angelo L. Grauel, Jillian L. Astarita, and Viviana Cremasco

Abstract

Cancer-associated fibroblasts (CAFs) are generally associated with poor clinical outcome. CAFs support tumor growth in a variety of ways and can suppress antitumor immunity and response to immunotherapy. However, a precise understanding of CAF contributions to tumor growth and therapeutic response is lacking. Discrepancies in this field of study may stem from heterogeneity in the composition and function of fibroblasts in the tumor microenvironment. Furthermore, it remains unclear whether CAFs directly interact with and suppress T cells. Here, mouse and human breast tumors were used to examine stromal cells expressing fibroblast activation protein (FAP), a surface marker for CAFs. Two discrete populations of FAP+ mesenchymal cells were identified on the basis of podoplanin (PDPN) expression: a FAP+PDPN+ population of CAFs and a FAP+PDPN− population of cancer-associated pericytes (CAPs). Although both subsets expressed extracellular matrix molecules, the CAF transcriptome was enriched in genes associated with TGFβ signaling and fibrosis compared with CAPs. In addition, CAFs were enriched at the outer edge of the tumor, in close contact with T cells, whereas CAPs were localized around vessels. Finally, FAP+PDPN+ CAFs suppressed the proliferation of T cells in a nitric oxide–dependent manner, whereas FAP+PDPN− pericytes were not immunosuppressive. Collectively, these findings demonstrate that breast tumors contain multiple populations of FAP-expressing stromal cells of dichotomous function, phenotype, and location.

Published

2023

25. Data from The Tumor Microenvironment Shapes Lineage, Transcriptional, and Functional Diversity of Infiltrating Myeloid Cells

Author

Shannon J. Turley, Paul A. Monach, Daniel R. Goldstein, Kai W. Wucherpfennig, Christopher J. Harvey, Hua Shen, Viviana Cremasco, and Kutlu G. Elpek

Abstract

Myeloid cells play important regulatory roles within the tumor environment by directly promoting tumor progression and modulating the function of tumor-infiltrating lymphocytes, and as such, they represent a potential therapeutic target for the treatment of cancer. Although distinct subsets of tumor-associated myeloid cells have been identified, a broader analysis of the complete myeloid cell landscape within individual tumors and also across different tumor types has been lacking. By establishing the developmental and transcriptomic signatures of infiltrating myeloid cells from multiple primary tumors, we found that tumor-associated macrophages (TAM) and tumor-associated neutrophils (TAN), while present within all tumors analyzed, exhibited strikingly different frequencies, gene expression profiles, and functions across cancer types. We also evaluated the impact of anatomic location and circulating factors on the myeloid cell composition of tumors. The makeup of the myeloid compartment was determined by the tumor microenvironment rather than the anatomic location of tumor development or tumor-derived circulating factors. Protumorigenic and hypoxia-associated genes were enriched in TAMs and TANs compared with splenic myeloid-derived suppressor cells. Although all TANs had an altered expression pattern of secretory effector molecules, in each tumor type they exhibited a unique cytokine, chemokine, and associated receptor expression profile. One such molecule, haptoglobin, was uniquely expressed by 4T1 TANs and identified as a possible diagnostic biomarker for tumors characterized by the accumulation of myeloid cells. Thus, we have identified considerable cancer-specific diversity in the lineage, gene expression, and function of tumor-infiltrating myeloid cells. Cancer Immunol Res; 2(7); 655–67. ©2014 AACR.

Published

2023

26. Supplementary Figures 2-5 from CD8+ T Cells Regulate Bone Tumor Burden Independent of Osteoclast Resorption

Author

Roberta Faccio, Katherine Weilbaecher, Deborah V. Novack, Angela C. Hirbe, Viviana Cremasco, Seokho Kim, and Kaihua Zhang

Abstract

Supplementary Figures 2-5 from CD8+ T Cells Regulate Bone Tumor Burden Independent of Osteoclast Resorption

Published

2023

27. Supplementary Figure 1 from CD8+ T Cells Regulate Bone Tumor Burden Independent of Osteoclast Resorption

Author

Roberta Faccio, Katherine Weilbaecher, Deborah V. Novack, Angela C. Hirbe, Viviana Cremasco, Seokho Kim, and Kaihua Zhang

Abstract

Supplementary Figure 1 from CD8+ T Cells Regulate Bone Tumor Burden Independent of Osteoclast Resorption

Published

2023

28. Supplementary Materials and Methods from CD8+ T Cells Regulate Bone Tumor Burden Independent of Osteoclast Resorption

Author

Roberta Faccio, Katherine Weilbaecher, Deborah V. Novack, Angela C. Hirbe, Viviana Cremasco, Seokho Kim, and Kaihua Zhang

Abstract

Supplementary Materials and Methods from CD8+ T Cells Regulate Bone Tumor Burden Independent of Osteoclast Resorption

Published

2023

29. Supplementary Figure Legends 1-5 from CD8+ T Cells Regulate Bone Tumor Burden Independent of Osteoclast Resorption

Author

Roberta Faccio, Katherine Weilbaecher, Deborah V. Novack, Angela C. Hirbe, Viviana Cremasco, Seokho Kim, and Kaihua Zhang

Abstract

Supplementary Figure Legends 1-5 from CD8+ T Cells Regulate Bone Tumor Burden Independent of Osteoclast Resorption

Published

2023

30. Gremlin 1+ fibroblastic niche maintains dendritic cell homeostasis in lymphoid tissues

Author

Alessandra Castiglioni, Markus Brown, Jillian L. Astarita, Mark Z. Chen, Lucinda Tam, Richard Bourgon, Claudia X. Dominguez, Shilpa Keerthivasan, Cecile Chalouni, Wendy Sandoval, Viviana Cremasco, Xiumin Wu, Yeqing Angela Yang, Andrey S. Shaw, Frederic J. de Sauvage, Ira Mellman, Elaine E. Storm, Catherine B Carbone, Merone Roose-Girma, Zora Modrusan, Amber W. Wang, Akshay T. Krishnamurty, Yasin Senbabaoglu, Wyne P. Lee, Jonas Doerr, Maximilian Nitschké, Shannon J. Turley, Varun N. Kapoor, Ryan Lane, Sören Müller, and Christine Moussion

Subjects

0301 basic medicine, Stromal cell, Lymphocyte, Immunology, Compartmentalization (psychology), Biology, Acquired immune system, Cell junction, Cell biology, 03 medical and health sciences, Dendritic cell homeostasis, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, Reticular cell, medicine, Immunology and Allergy, Homeostasis, 030215 immunology

Abstract

Fibroblastic reticular cells (FRCs) are specialized stromal cells that define tissue architecture and regulate lymphocyte compartmentalization, homeostasis, and innate and adaptive immunity in secondary lymphoid organs (SLOs). In the present study, we used single-cell RNA sequencing (scRNA-seq) of human and mouse lymph nodes (LNs) to identify a subset of T cell-zone FRCs defined by the expression of Gremlin1 (Grem1) in both species. Grem1-CreERT2 knock-in mice enabled localization, multi-omics characterization and genetic depletion of Grem1+ FRCs. Grem1+ FRCs primarily localize at T-B cell junctions of SLOs, neighboring pre-dendritic cells and conventional dendritic cells (cDCs). As such, their depletion resulted in preferential loss and decreased homeostatic proliferation and survival of resident cDCs and compromised T cell immunity. Trajectory analysis of human LN scRNA-seq data revealed expression similarities to murine FRCs, with GREM1+ cells marking the endpoint of both trajectories. These findings illuminate a new Grem1+ fibroblastic niche in LNs that functions to maintain the homeostasis of lymphoid tissue-resident cDCs.

Published

2021

31. TGFβ-blockade uncovers stromal plasticity in tumors by revealing the existence of a subset of interferon-licensed fibroblasts

Author

Zheng Yan, Raphael Thierry, Antoine deWeck, Claire Fabre, Felipe Correa Geyer, Joel Wagner, Oleg Iartchouk, Jeffrey A. Engelman, Beverly Nguyen, Rohan Diwanji, James Deeds, Julie Chen, Quincey Simmons, Naiyan Chen, Viviana Cremasco, Jonathan Chang, Joseph X. Zhou, Matt Hims, Yenyen Yu, Shaobu Weng, Pushpa Jayaraman, Stephanie Schwartz, David A. Ruddy, Michelle Piquet, Vera M. Ruda, Nathaniel D. Kirkpatrick, Pavitra Chikkegowda, Mirek Dostalek, Iulian Pruteanu-Malinici, Brian Minie, Glenn Dranoff, Markus Riester, Marc Pelletier, Alina Raza, Angelo Grauel, Kenzie MacIsaac, Jincheng Wu, and Tyler Laszewski

Subjects

0301 basic medicine, Stromal cell, medicine.medical_treatment, Science, Cell Plasticity, Programmed Cell Death 1 Receptor, Population, General Physics and Astronomy, Biology, Article, General Biochemistry, Genetics and Molecular Biology, Mice, 03 medical and health sciences, 0302 clinical medicine, Cancer-Associated Fibroblasts, Transforming Growth Factor beta, Cell Line, Tumor, Antineoplastic Combined Chemotherapy Protocols, Tumor Microenvironment, medicine, Animals, Humans, education, Immune Checkpoint Inhibitors, education.field_of_study, Tumor microenvironment, Multidisciplinary, Carcinoma, Mesenchymal stem cell, Drug Synergism, Interferon-beta, General Chemistry, Immunotherapy, Disease Models, Animal, 030104 developmental biology, Single cell sequencing, 030220 oncology & carcinogenesis, Cancer research, Tumour immunology, Female, Stromal Cells, Myofibroblast

Abstract

Despite the increasing interest in targeting stromal elements of the tumor microenvironment, we still face tremendous challenges in developing adequate therapeutics to modify the tumor stromal landscape. A major obstacle to this is our poor understanding of the phenotypic and functional heterogeneity of stromal cells in tumors. Herein, we perform an unbiased interrogation of tumor mesenchymal cells, delineating the co-existence of distinct subsets of cancer-associated fibroblasts (CAFs) in the microenvironment of murine carcinomas, each endowed with unique phenotypic features and functions. Furthermore, our study shows that neutralization of TGFβ in vivo leads to remodeling of CAF dynamics, greatly reducing the frequency and activity of the myofibroblast subset, while promoting the formation of a fibroblast population characterized by strong response to interferon and heightened immunomodulatory properties. These changes correlate with the development of productive anti-tumor immunity and greater efficacy of PD1 immunotherapy. Along with providing the scientific rationale for the evaluation of TGFβ and PD1 co-blockade in the clinical setting, this study also supports the concept of plasticity of the stromal cell landscape in tumors, laying the foundation for future investigations aimed at defining pathways and molecules to program CAF composition for cancer therapy., Understanding the tumor microenviroment is important before it can be exploited therapeutically. Here, the authors use single cell sequencing to study stromal cells in mouse tumors and identify a subset of interferon-licensed cancer associated fibroblasts that appear after anti-TGFβ treatment.

Published

2020

32. Characterization of sabatolimab, a novel immunotherapy with immuno-myeloid activity directed against TIM-3 receptor

Author

Stephanie Schwartz, Nidhi Patel, Tyler Longmire, Pushpa Jayaraman, Xiaomo Jiang, Hongbo Lu, Lisa Baker, Janelle Velez, Radha Ramesh, Anne-Sophie Wavreille, Melanie Verneret, Hong Fan, Tiancen Hu, Fangmin Xu, John Taraszka, Marc Pelletier, Joy Miyashiro, Mikael Rinne, Glenn Dranoff, Catherine Sabatos-Peyton, and Viviana Cremasco

Subjects

General Medicine

Abstract

Objectives Sabatolimab is a humanized monoclonal antibody (hIgG4, S228P) directed against human T-cell immunoglobulin domain and mucin domain-3 (TIM-3). Herein, we describe the development and characterization of sabatolimab. Methods Sabatolimab was tested for binding to its target TIM-3 and blocking properties. The functional effects of sabatolimab were tested in T-cell killing and myeloid cell cytokine assays. Antibody-mediated cell phagocytosis (ADCP) by sabatolimab was also assessed. Results Sabatolimab was shown to (i) enhance T-cell killing and inflammatory cytokine production by dendritic cells (DCs); (ii) facilitate the phagocytic uptake of TIM-3-expressing target cells; and (iii) block the interaction between TIM-3 and its ligands PtdSer/galectin-9. Conclusion Taken together, our results support both direct anti-leukemic effects and immune-mediated modulation by sabatolimab, reinforcing the notion that sabatolimab represents a novel immunotherapy with immuno-myeloid activity, holding promise for the treatment of myeloid cell neoplasms.

Published

2022

33. Phase Ib study testing neoadjuvant transforming growth factor (TGF)-β antibody, NIS793, plus 5-fluorouracil, irinotecan, and oxaliplatin chemotherapy (FOLFIRINOX) in patients (pts) with borderline resectable (BR)/locally advanced (LA) pancreatic ductal adenocarcinoma (PDAC)

Author

Colin D. Weekes, David Tsai Ting, Aparna Raj Parikh, Stacie Ittershagen, Claire Fabre, Viviana Cremasco, David Ruddy, Andrew Liss, Aileen O'Shea, Mukesh Harisinghani, Michelle Piquet, Jonathan Chang, Eunice Lee Kwak, and David P. Ryan

Subjects

Cancer Research, Oncology

Abstract

TPS762 Background: Overcoming resistance to chemotherapy and immune checkpoint inhibitors remains an unmet need for PDAC. In this context, TGF-β plays a key role in PDAC by promoting the activation of fibroblasts and extracellular matrix deposition, facilitating epithelial-to-mesenchymal transition, immune evasion, and resistance to chemotherapy. Combination of FOLFIRINOX with losartan, an indirect TGF-β inhibitor with antifibrotic properties, has shown an increased R0 resection rate in pts with BR/LA PDAC, providing the rationale to explore the combination of other TGF-β targeting agents with FOLFIRINOX in the neoadjuvant setting (PMID: 34884782; PMID: 31145418). NIS793 is a first-in-class monoclonal antibody that directly binds TGF-β and reduces intratumoral fibrosis in preclinical models (PMID: 33298926). NIS793 also has an acceptable safety profile and preliminary clinical activity. This study investigates whether NIS793 modulation of the tumor fibrotic network improves clinical outcomes of FOLFIRINOX neoadjuvant therapy in BR/LA PDAC. Our aim is to demonstrate how TGF-β inhibition and stroma remodeling contribute to clinical outcomes. Methods: This is a single institution, open label, 2-part, 2-arm, non-comparator, Phase Ib study (NCT05417386) of FOLFIRINOX + NIS793 as neoadjuvant therapy for pts with untreated BR/LA PDAC. Eligible pts are adults with measurable disease, adequate organ and bone marrow function, and ECOG PS ≤1. In Part 1 (safety run-in), 6-18 pts with histologically confirmed untreated metastatic PDAC receive FOLFIRINOX + NIS793 at different dose levels. Dose escalation is primarily guided by the number of dose-limiting toxicities. Primary objectives are assessing safety, defining the recommended Phase II dose (RP2D), and providing initial evidence of clinical benefit of the combination. In Part 2, pts with untreated BR/LA PDAC are randomized 4:1 and stratified by BR vs LA. Pts in Arm 1 (n=5) receive 8 cycles of FOLFIRINOX followed by chemoradiation therapy (CRT) and surgery. Pts in Arm 2 (n=23) receive 8 cycles of FOLFIRINOX + NIS793 at RP2D followed by CRT + NIS793, surgery, and 12 cycles of adjuvant NIS793. The primary endpoint is R0 resection rate. Secondary endpoints are disease-free survival, progression-free survival, overall survival, and pathologic complete response. The effect of neoadjuvant therapy will be assessed by ferumoxytol-MRI, circulating cell-free DNA dynamics analysis, single-cell RNA sequencing, immunohistochemistry, and digital spatial analysis. Together, these correlative analyses may enable development of a mechanistic model for TGF-β inhibition in PDAC. This study is ongoing. The first pt was treated on Aug 2, 2022. Clinical trial information: NCT05417386 .

Published

2023

34. Abstract C029: Chemotherapy backbone alters the mechanism of action of TGFb blockade in pancreatic cancer

Author

Li Qiang, Lestat Ali, Meggie Hoffman, Jaime Ivan Castillo Silva, Patrick Lenehan, Elisa Bello, Marc Pelletier, Viviana Cremasco, and Stephanie Dougan

Subjects

Cancer Research, Oncology

Abstract

TGFβ plays a critical role in promoting pancreatic tumor progression, attenuating CD8 T cell proliferation and cytokine production, enhancing the differentiation of myofibroblasts and the deposition of extracellular matrix. However, single agent TGFβ blockade has shown limited efficacy in mouse models of pancreatic cancer. Here we showed that in combination with chemotherapy, using either gemcitabine/n(ab)-paclitaxel or FOLFIRINOX, neutralization of TGFβ can reduce tumor burden in the poorly immunogenic 6694c2 orthotopic pancreatic cancer mouse model, without affecting the metastatic rate of cancer cells. As expected, anti-TGFβ with combination chemotherapy significantly increased the mean survival time of the orthotopic mouse models. Surprisingly, the efficacy of both combinational therapies is not dependent on CD8 T cells in either immunogenic or non-immunogenic models, as CD8 depleted or RAG2 knockout mice are responsive to the treatments to similar levels. Instead, comparing to chemotherapy single treatment, in the presence of TGFβ blocking antibody, tumor cells are more vulnerable to chemotherapy-induced cell death, both in vitro and in vivo. Recent studies from Raghavan et al. demonstrated that the plasticity of the classical and basal lineage of pancreatic cancer can be regulated by TGFβ ligand. Consistently, here we show that single-cell analysis and limited bulk RNAseq on tumor cells sorted ex vivo revealed 6694c2 tumor cells treated with TGFβ blockade maintain classical lineage, the state of pancreatic cancer with more sensitivity to chemotherapy and better prognosis. FOLFIRINOX treatments have largely modified tumor stromal landscape, with a unique CAF population presented expressing high levels of PTX3, which further verified by immunohistochemistry. This study provides the scientific rationale for the evaluation of TGFβ with both chemotherapy backbone in the clinical setting, as well as supports the concept of plasticity of pancreatic cancer cell state and plasticity of stromal cell landscape in tumors, providing foundations for future investigations on the mechanisms of TGFβ with different chemotherapy backbone in regulating the crosstalk among fibroblast subsets, immune cells and pancreatic cancer cells. Citation Format: Li Qiang, Lestat Ali, Meggie Hoffman, Jaime Ivan Castillo Silva, Patrick Lenehan, Elisa Bello, Marc Pelletier, Viviana Cremasco, Stephanie Dougan. Chemotherapy backbone alters the mechanism of action of TGFb blockade in pancreatic cancer [abstract]. In: Proceedings of the AACR Special Conference on Pancreatic Cancer; 2022 Sep 13-16; Boston, MA. Philadelphia (PA): AACR; Cancer Res 2022;82(22 Suppl):Abstract nr C029.

Published

2022

35. Fibroblastic reticular cells enhance T cell metabolism and survival via epigenetic remodeling

Author

Kevin Bi, Jernej Godec, Arlene H. Sharpe, Frank A. Schildberg, Illana A. Stanley, Debattama R. Sen, Flavian D. Brown, Veronika Lukacs-Kornek, Stéphane J. H. Ricoult, Varun N. Kapoor, Nika N. Danial, W. Nicholas Haining, Viviana Cremasco, Brendan D. Manning, Kathleen B. Yates, Shannon J. Turley, Justin D. Trombley, Martin W. LaFleur, and Hye-Jung Kim

Subjects

Cytotoxicity, Immunologic, 0301 basic medicine, Cell Survival, Cellular differentiation, medicine.medical_treatment, T cell, Immunology, CD8-Positive T-Lymphocytes, Lymphocyte Activation, Nitric Oxide, Article, Epigenesis, Genetic, Mice, 03 medical and health sciences, 0302 clinical medicine, Reticular cell, medicine, Animals, Immunology and Allergy, Lymph node, Cells, Cultured, Cell Proliferation, Mice, Knockout, Interleukin-6, Cell growth, Chemistry, Cell Differentiation, Fibroblasts, Cellular Reprogramming, Chromatin Assembly and Disassembly, Chromatin, Cell biology, Mice, Inbred C57BL, 030104 developmental biology, medicine.anatomical_structure, Cytokine, Gene Expression Regulation, Lymph Nodes, Immunologic Memory, CD8, 030215 immunology

Abstract

Lymph node fibroblastic reticular cells (FRCs) respond to signals from activated T cells by releasing nitric oxide, which inhibits T cell proliferation and restricts the size of the expanding T cell pool. Whether interactions with FRCs also support the function or differentiation of activated CD8(+) T cells is not known. Here we report that encounters with FRCs enhanced cytokine production and remodeled chromatin accessibility in newly activated CD8(+) T cells via interleukin-6. These epigenetic changes facilitated metabolic reprogramming and amplified the activity of pro-survival pathways through differential transcription factor activity. Accordingly, FRC conditioning significantly enhanced the persistence of virus-specific CD8+ T cells in vivo and augmented their differentiation into tissue-resident memory T cells. Our study demonstrates that FRCs play a role beyond restricting T cell expansion—they can also shape the fate and function of CD8(+) T cells.

Published

2019

36. PAX8 lineage-driven T cell engaging antibody for the treatment of high-grade serous ovarian cancer

Author

Jayson Chen, Mateusz Piksa, Giorgio G. Galli, Smita Jaiswal, Keith Mansfield, Viviana Cremasco, Sinan Isim, Thomas B. Nicholson, Angelo Grauel, Ana Carrion, Stephanie Schwartz, Bernd Voedisch, Emily Lee, Joyce Judge, Michelle Steinkrauss, Andrew Anh Nguyen, Sarah Szvetecz, Chietara Japutra, Lingheswar Sadhasivam, Nicole Vincent Jordan, Brian Granda, Jinsheng Liang, Hong Lei, Hui Qin Wang, Dana B. Walker, Yiqin Wang, Joel Wagner, Qing Fang, Rie Maeda, Quincey Simmons, and Ryan Polli

Subjects

0301 basic medicine, CD3 Complex, Science, T cell, CD3, T-Lymphocytes, Immunology, GPI-Linked Proteins, Article, 03 medical and health sciences, Mice, PAX8 Transcription Factor, 0302 clinical medicine, Antigen, In vivo, Antibodies, Bispecific, medicine, Animals, Cancer, Ovarian Neoplasms, Multidisciplinary, biology, business.industry, Drug discovery, Tumor Suppressor Proteins, Xenograft Model Antitumor Assays, Tumor antigen, Serous fluid, Macaca fascicularis, 030104 developmental biology, medicine.anatomical_structure, 030220 oncology & carcinogenesis, biology.protein, Cancer research, Medicine, Female, Immunotherapy, Antibody, Neoplasm Grading, PAX8, business, Biotechnology

Abstract

High-grade serous ovarian cancers (HGSOC) represent the most common subtype of ovarian malignancies. Due to the frequency of late-stage diagnosis and high rates of recurrence following standard of care treatments, novel therapies are needed to promote durable responses. We investigated the anti-tumor activity of CD3 T cell engaging bispecific antibodies (TCBs) directed against the PAX8 lineage-driven HGSOC tumor antigen LYPD1 and demonstrated that anti-LYPD1 TCBs induce T cell activation and promote in vivo tumor growth inhibition in LYPD1-expressing HGSOC. To selectively target LYPD1-expressing tumor cells with high expression while sparing cells with low expression, we coupled bivalent low-affinity anti-LYPD1 antigen-binding fragments (Fabs) with the anti-CD3 scFv. In contrast to the monovalent anti-LYPD1 high-affinity TCB (VHP354), the bivalent low-affinity anti-LYPD1 TCB (QZC131) demonstrated antigen density-dependent selectivity and showed tolerability in cynomolgus monkeys at the maximum dose tested of 3 mg/kg. Collectively, these data demonstrate that bivalent TCBs directed against LYPD1 have compelling efficacy and safety profiles to support its use as a treatment for high-grade serous ovarian cancers.

Published

2021

37. 439 Dual modes of action for anti-TIM-3 antibody MBG453 in myelodysplastic syndromes (MDS) and acute myeloid leukemia (AML): preclinical evidence for immune-mediated and anti-leukemic activity

Author

Anne-Sophie Wavreille, Shumei Qiu, Viviana Cremasco, Glenn Dranoff, Xiaomo Jiang, Melanie Verneret, Mikael L. Rinne, Nidhi Patel, Hongbo Lu, Fiona Sharp, Catherine Anne Sabatos-Peyton, Pushpa Jayaraman, Stephanie Schwartz, Lisa Baker, and Tyler Longmire

Subjects

business.industry, Myelodysplastic syndromes, Azacitidine, Myeloid leukemia, Decitabine, medicine.disease, Stem cell marker, Cell killing, Hypomethylating agent, Cancer research, Medicine, Stem cell, business, medicine.drug

Abstract

Background TIM-3 is expressed on leukemic stem cells (LSCs) and blasts in AML,1 2 and TIM-3 expression on MDS blasts correlates with disease progression.3 Functional evidence for TIM-3 in AML was established with an anti-TIM-3 antibody which inhibited engraftment and development of human AML in immuno-deficient murine hosts.1 TIM-3 promotes an autocrine stimulatory loop via the TIM-3/Galectin-9 interaction, supporting LSC self-renewal.4 In addition to its cell-autonomous role on LSCs/blasts, TIM-3 also has a critical role in immune system regulation, in adaptive (CD4+ and CD8+ T effector cells, regulatory T cells) and innate (macrophages, dendritic cells, NK cells) immune responses.5 MBG453 is a high-affinity, humanized anti-TIM-3 IgG4 antibody (Ab) (stabilized hinge, S228P), which blocks the binding of TIM-3 to phosphatidylserine (PtdSer). Recent results from a multi-center, open label phase Ib dose-escalation study (NCT03066648) in patients with high-risk MDS and no prior hypomethylating agent therapy evaluating MBG453 in combination with decitabine demonstrated encouraging preliminary efficacy with an overall response rate of 58%,6 and MBG453 combined with azacitidine also showed encouraging response rates.7 Preclinical experiments were undertaken to define the mechanism of action of the hypomethylating agent and anti-TIM-3 combination. Methods THP-1 cells (a human monocytic AML cell line) were pre-treated with decitabine and co-cultured with anti-CD3 activated healthy human donor peripheral blood mononuclear cells (PBMCs) in an Incucyte-based assay to measure cell killing. The ability of MBG453 to mediate antibody-dependent cellular phagocytosis (ADCP) was measured by determining the phagocytic uptake of an engineered TIM-3-overexpressing Raji cell line in the presence of MBG453 by phorbol 12-myristate 13-acetate (PMA)-activated THP-1 cells. Patient-derived AML xenograft studies were undertaken in immune-deficient murine hosts to evaluate the combination of decitabine and MBG453. Results MBG453 was determined to partially block the TIM-3/Galectin-9 interaction in a plate-based MSD (Meso Scale Discovery) assay, supported by a crystal structure of human TIM-3.8 Pre-treatment of THP-1 cells with decitabine enhanced sensitivity to immune-mediated killing in the presence of MBG453. MBG453 was determined to mediate modest ADCP, relative to controls. MBG453 did not enhance the anti-leukemic activity of decitabine in patient-derived xenograft studies in immuno-deficient hosts. Conclusions Taken together, these results support both direct anti-leukemic effects and immune-mediated modulation by MBG453. Further studies are ongoing to determine: (1) whether MBG453 can mediate physiologically relevant ADCP of TIM-3-expressing leukemic cells; and (2) the potential of MBG453 to impact the autocrine feedback loop of TIM-3/Galectin-9. Ethics Approval The human tissue used in these studies was under the Novartis Institutes of BioMedical Research Ethics Board IRB, Approval Number 201252867. References Kikushige Y, Shima T, Takayanagi S, et al. TIM-3 is a promising target to selectively kill acute myeloid leukemia stem cells. Cell Stem Cell 2010;7(6):708–717. Jan M, Chao MP, Cha AC, et al. Prospective separation of normal and leukemic stem cells based on differential expression of TIM3, a human acute myeloid leukemia stem cell marker. Proc Natl Acad Sci USA 2011; 108(12): 5009–5014. Asayama T, Tamura H, Ishibashi M, et al. Functional expression of Tim-3 on blasts and clinical impact of its ligand galectin-9 in myelodysplastic syndromes. Oncotarget 2017;8(51): 88904–88917. Kikushige Y, Miyamoto T, Yuda J, et al. A TIM-3/Gal-9 autocrine stimulatory loop drives self-renewal of human myeloid leukemia stem cells and leukemic progression. Cell Stem Cell 2015; 17(3):341–352. Acharya N, Sabatos-Peyton C, Anderson AC. Tim-3 finds its place in the cancer immunotherapy landscape. J Immunother Cancer 2020; 8(1):e000911. Borate U, Esteve J, Porkka K, et al. Phase Ib Study of the Anti-TIM-3 Antibody MBG453 in combination with decitabine in patients with high-risk myelodysplastic syndrome (MDS) and acute myeloid leukemia (AML). Blood 2019;134 (Supplement_1):570. Borate U, Esteve J, Porkka K, et al. Abstract S185: Anti-TIM-3 antibody MBG453 in combination with hypomethylating agents (HMAs) in patients (pts) with high-risk myelodysplastic syndrome (HR-MDS) and acute myeloid leukemia (AML): a Phase 1 study. EHA 2020. Sabatos-Peyton C. MBG453: A high affinity, ligand-blocking anti-TIM-3 monoclonal Ab. AACR 2016.

Published

2020

38. FAP Delineates Heterogeneous and Functionally Divergent Stromal Cells in Immune-Excluded Breast Tumors

Author

Stephen Santoro, Shilpa Keerthivasan, Viviana Cremasco, Kai W. Wucherpfennig, Lotte Spel, Matthew C. Woodruff, Jillian L. Astarita, Sara Cruz Migoni, Angelo Grauel, Michael P Wu, Martin W. LaFleur, Kenzie MacIsaac, Konstantin Knoblich, Tyler Laszewski, Michael C. Carroll, Shannon J. Turley, Ellen Puré, Anne L. Fletcher, Zohreh Amoozgar, and Glenn Dranoff

Subjects

0301 basic medicine, Cancer Research, Stromal cell, T-Lymphocytes, Immunology, Population, Breast Neoplasms, Biology, Nitric Oxide, Article, 03 medical and health sciences, Immune system, Cancer-Associated Fibroblasts, Fibroblast activation protein, alpha, Endopeptidases, Tumor Microenvironment, Animals, Humans, education, PDPN, Cell Proliferation, Mice, Inbred BALB C, Tumor microenvironment, education.field_of_study, Membrane Glycoproteins, Serine Endopeptidases, Mesenchymal stem cell, Membrane Proteins, Mice, Inbred C57BL, 030104 developmental biology, Gene Expression Regulation, Podoplanin, Gelatinases, Cancer research, Female, Stromal Cells, Pericytes

Abstract

Cancer-associated fibroblasts (CAFs) are generally associated with poor clinical outcome. CAFs support tumor growth in a variety of ways and can suppress antitumor immunity and response to immunotherapy. However, a precise understanding of CAF contributions to tumor growth and therapeutic response is lacking. Discrepancies in this field of study may stem from heterogeneity in the composition and function of fibroblasts in the tumor microenvironment. Furthermore, it remains unclear whether CAFs directly interact with and suppress T cells. Here, mouse and human breast tumors were used to examine stromal cells expressing fibroblast activation protein (FAP), a surface marker for CAFs. Two discrete populations of FAP+ mesenchymal cells were identified on the basis of podoplanin (PDPN) expression: a FAP+PDPN+ population of CAFs and a FAP+PDPN− population of cancer-associated pericytes (CAPs). Although both subsets expressed extracellular matrix molecules, the CAF transcriptome was enriched in genes associated with TGFβ signaling and fibrosis compared with CAPs. In addition, CAFs were enriched at the outer edge of the tumor, in close contact with T cells, whereas CAPs were localized around vessels. Finally, FAP+PDPN+ CAFs suppressed the proliferation of T cells in a nitric oxide–dependent manner, whereas FAP+PDPN− pericytes were not immunosuppressive. Collectively, these findings demonstrate that breast tumors contain multiple populations of FAP-expressing stromal cells of dichotomous function, phenotype, and location.

Published

2018

39. Single-Cell Characterization of the Immune and Leukemic Cells Following Anti-TIM3 and Hypomethylating Agent Combination Therapy in Patients with AML or MDS

Author

Oscar Brück, Kimmo Porkka, Satu Mustjoki, Marc Pelletier, Joel Wagner, Elena Orlando, Matti Kankainen, Olli Dufva, Karita Peltonen, Viviana Cremasco, Anna Kreutzman, Jay Klievink, Hanna Lähteenmäki, Harri Lähdesmäki, Mikael L. Rinne, Mika Kontro, Jani Huuhtanen, Tiina Kasanen, Catherine Anne Sabatos-Peyton, and Mette Ilander

Subjects

0303 health sciences, Combination therapy, business.industry, Immunology, Cell, Cell Biology, Hematology, Biochemistry, 3. Good health, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Immune system, Hypomethylating agent, Cancer research, Medicine, In patient, business, 030304 developmental biology, 030215 immunology

Abstract

Background The success of allogeneic stem cell transplantation supports the notion that immunotherapy can have curative potential in AML, but immune checkpoint therapies (e.g., anti-PD1) have shown only modest clinical efficacy. TIM3 is an immune-checkpoint molecule expressed both on immune and leukemic cells but not on healthy hematopoietic stem cells (HSCs), making it a particularly interesting target in AML. In myeloid malignancies, the combination of anti-TIM3 therapy with hypomethylating agents (HMA), which may prime the tumor microenvironment for immune therapies, has shown promising initial response rates up to 50%-60% of patients, but their mechanism of action is not fully understood. Methods We analyzed the effects of anti-TIM3 (sabatolimab, MBG453) in combination with decitabine in 11 refractory/relapsed AML patients and 1 MDS patient recruited in a phase Ib trial (NCT03066648), with 5/12 responders (3 CR, 2 CRi). We studied paired bone-marrow (BM) and peripheral blood samples with scRNA+TCRαβ-seq enriched for CD45+ immune cells (90% of input) and blast cells (10%) and flow cytometry. Additionally, to explore the expression of TIM3 and other immune checkpoints in different cell populations, we combined scRNAseq data from 160 BM aspirate samples across 10 different hematological malignancies and healthy controls. Results Our pan-heme scRNA-seq data analysis of over 500'000 cells revealed that unlike PD1 and CTLA4, HAVCR2 (TIM3) was primarily expressed in NK and myeloid cells (including dendritic cells [DCs], macrophages, and monocytes). In healthy controls, the expression of HAVCR2 was low in T-cells, but in patients with heme-malignancies, expression was seen on activated T-cells. In HSC populations, AML patients had generally upregulated HAVCR2 expression compared with healthy subjects. ScRNAseq data of 20 samples (n=7 patients) treated with anti-TIM3+HMA revealed that at baseline, DCs were more highly represented in samples from the responding (n=4) than from the non-responding patients (n=3). Following anti-TIM3+HMA treatment, DCs expanded significantly, and upregulated pathways related to interleukin production (IL-1b, IL-18) in responders, suggestive of an activated inflammasome response. At baseline, the most expanded NK-phenotype expressed the highest amounts of HAVCR2, which varied between patients from CD56 bright to adaptive NK cells. Anti-TIM3+HMA therapy modulated NK cells especially in responders, in which NK cells downregulated HAVCR2 and upregulated the NF-κB pathway. Importantly, the NF-κB pathway was upregulated in other cell types in responding patients, but not in non-responding patients. In contrast, the IFN-γ response was downregulated in both responding and non-responding patients in multiple different cell types. The highest expression of HAVCR2 in T cells was seen in cells co-expressing NK-receptors and with the highest cytotoxicity. Analysis of the scTCRαβ-seq revealed that the combination treatment did not have a marked effect on T-cell clonality, but one patient with CR had a significantly expanded large granular lymphocyte (LGL) clone covering 4%-25% of the repertoire. In responding patients, HAVCR2+ regulatory T-cells were more numerous at baseline, contracted following therapy, and lost response to IFN-γ, a pattern not seen in non-responding patients. The analysis of predicted cell-cell interactions between leukemic and immune cells did not show significant interactions between inhibitory PD1 or CTLA4, and their ligands, but ubiquitous LGALS9 - HAVCR2 interactions were predicted in leukemic bone marrows. Responding patients had more these interactions, which decreased following therapy. Non-responding patients had multiple interactions between T/NK cells and blasts via PVR and its ligands which were not seen in responding patients, which represent a putative resistance mechanism for anti-TIM3+HMA therapy. Conclusions Unlike PD1 and CTLA4, TIM3 is expressed on leukemic, DC, myeloid, and NK cells, and consistent with this finding, the effects of TIM3 blockade in vivo were mainly observed in these cell types. In responding patients, NFκB pathway was activated in T/NK cells following anti-TIM3 and HMA treatment concomitant with a decrease in inhibitory interactions. Our results pinpoint the differential effects of TIM3-blockade on immune cells and may aid in developing predictive biomarkers for treatment outcome. Figure 1 Figure 1. Disclosures Kreutzman: Novartis: Current Employment. Kontro: Astellas: Consultancy, Membership on an entity's Board of Directors or advisory committees; Jazz Pharmaceuticals: Membership on an entity's Board of Directors or advisory committees; AbbVie: Membership on an entity's Board of Directors or advisory committees, Research Funding. Orlando: Novartis: Current Employment. Cremasco: Novartis: Current Employment. Wagner: Novartis: Current Employment, Current holder of individual stocks in a privately-held company. Pelletier: Novartis: Current Employment. Sabatos-Peyton: Novartis: Current Employment. Rinne: Novartis: Current Employment; Qiagen: Consultancy. Mustjoki: Janpix: Research Funding; Novartis: Research Funding; Pfizer: Research Funding; BMS: Research Funding.

Published

2021

40. Prospects for combining targeted and conventional cancer therapy with immunotherapy

Author

Jeffrey A. Engelman, Catherine Anne Sabatos-Peyton, Adam S. Crystal, Scott Cameron, Viviana Cremasco, Sonia Quaratino, Philip Gotwals, Becker Hewes, Glenn Dranoff, Daniela Cipolletta, Britta Mueller, and Lilli Petruzzelli

Subjects

0301 basic medicine, Oncology, medicine.medical_specialty, General Mathematics, medicine.medical_treatment, T cell, medicine.disease_cause, 03 medical and health sciences, 0302 clinical medicine, Cancer immunotherapy, Neoplasms, Internal medicine, medicine, Animals, Humans, Combined Modality Therapy, Molecular Targeted Therapy, business.industry, Applied Mathematics, Cancer, Immunotherapy, medicine.disease, Immune checkpoint, Radiation therapy, 030104 developmental biology, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Immunology, business, Carcinogenesis

Abstract

Over the past 25 years, research in cancer therapeutics has largely focused on two distinct lines of enquiry. In one approach, efforts to understand the underlying cell-autonomous, genetic drivers of tumorigenesis have led to the development of clinically important targeted agents that result in profound, but often not durable, tumour responses in genetically defined patient populations. In the second parallel approach, exploration of the mechanisms of protective tumour immunity has provided several therapeutic strategies - most notably the 'immune checkpoint' antibodies that reverse the negative regulators of T cell function - that accomplish durable clinical responses in subsets of patients with various tumour types. The integration of these potentially complementary research fields provides new opportunities to improve cancer treatments. Targeted and immune-based therapies have already transformed the standard-of-care for several malignancies. However, additional insights into the effects of targeted therapies, along with conventional chemotherapy and radiation therapy, on the induction of antitumour immunity will help to advance the design of combination strategies that increase the rate of complete and durable clinical response in patients.

Published

2017

41. Gremlin 1

Author

Varun N, Kapoor, Sören, Müller, Shilpa, Keerthivasan, Markus, Brown, Cecile, Chalouni, Elaine E, Storm, Alessandra, Castiglioni, Ryan, Lane, Maximilian, Nitschke, Claudia X, Dominguez, Jillian L, Astarita, Akshay T, Krishnamurty, Catherine B, Carbone, Yasin, Senbabaoglu, Amber W, Wang, Xiumin, Wu, Viviana, Cremasco, Merone, Roose-Girma, Lucinda, Tam, Jonas, Doerr, Mark Z, Chen, Wyne P, Lee, Zora, Modrusan, Yeqing Angela, Yang, Richard, Bourgon, Wendy, Sandoval, Andrey S, Shaw, Frederic J, de Sauvage, Ira, Mellman, Christine, Moussion, and Shannon J, Turley

Subjects

Male, Immunity, Cellular, Cell Survival, T-Lymphocytes, Apoptosis, Mice, Transgenic, Fibroblasts, Mice, Gene Expression Regulation, Animals, Humans, Intercellular Signaling Peptides and Proteins, Female, Gene Knock-In Techniques, Lymph Nodes, RNA-Seq, Single-Cell Analysis, Stromal Cells, Dendritic Cells, Follicular, Aged, Cell Proliferation

Abstract

Fibroblastic reticular cells (FRCs) are specialized stromal cells that define tissue architecture and regulate lymphocyte compartmentalization, homeostasis, and innate and adaptive immunity in secondary lymphoid organs (SLOs). In the present study, we used single-cell RNA sequencing (scRNA-seq) of human and mouse lymph nodes (LNs) to identify a subset of T cell-zone FRCs defined by the expression of Gremlin1 (Grem1) in both species. Grem1-CreER

Published

2019

42. Phase Ib study of the anti-TGF-β monoclonal antibody (mAb) NIS793 combined with spartalizumab (PDR001), a PD-1 inhibitor, in patients (pts) with advanced solid tumors

Author

Viviana Cremasco, Claire Fabre, Marc Pelletier, Louise Barys, Todd M. Bauer, Antonella Perotti, Maria-Elisabeth Goebeler, Thomas Yau, Anna Spreafico, Richard Greil, Chia-Chi Lin, Darlene Lu, Armando Santoro, Vicky Katsanou, Toshihiko Doi, Mirek Dostalek, Marie Luise Huetter-Kroenke, Ignacio Garrido-Laguna, and Markus Joerger

Subjects

Cancer Research, Tumor microenvironment, biology, medicine.drug_class, Activator (genetics), business.industry, Monoclonal antibody, Oncology, Programmed cell death 1, biology.protein, medicine, Cancer research, In patient, business, Transforming growth factor

Abstract

2509 Background: TGF-β plays a key role in regulating the tumor microenvironment. Emerging evidence suggests TGF-β is a key activator of cancer-associated fibroblasts, leading to fibrotic network development and immune exclusion. Preclinical data in murine models showed that TGF-β blockade alleviates intratumoral fibrosis, augmenting the efficacy of PD-1 immunotherapy. NIS793 is a human IgG2 mAb that binds to TGF-β. This study investigates NIS793 + spartalizumab in pts with advanced solid tumors. Methods: Pts initially received NIS793 (0.3–1 mg/kg Q3W) monotherapy; following evaluation of two dose levels, dose escalation continued with NIS793 + spartalizumab (NIS793 0.3–30 mg/kg Q3W + spartalizumab 300 mg Q3W; or NIS793 20–30 mg/kg Q2W + spartalizumab 400 mg Q4W) in pts with/without prior anti-PD-(L)1 therapy. In dose expansion, pts with non-small cell lung cancer (NSCLC) resistant to prior anti-PD-(L)1 or pts with microsatellite stable colorectal cancer (MSS-CRC) were treated at the recommended dose for expansion (RDE). Paired tumor biopsies were required from all pts. The primary objectives were to characterize safety and tolerability of the combination and determine the RDE. Results: By December 1, 2020, 60 pts were treated in the dose-escalation phase, mainly with NIS793 + spartalizumab (n = 49), and 60 pts were treated in dose expansion (MSS-CRC: n = 40; NSCLC: n = 20). Two pts were still receiving treatment. No dose-limiting toxicities were observed, and the RDE was established as 30 mg/kg (2100 mg) NIS793 + 300 mg spartalizumab Q3W. Overall 50% pts experienced ≥1 treatment-related AE (TRAE). The most common were rash (n = 15/120), pruritus (n = 10/120), fatigue (n = 9/120), and nausea (n = 8/120). Grade 3/4 TRAEs occurred in 11% pts, with rash (3%) being the most common. Treatment-related serious AEs were reported in 8 pts; 6 were grade 3/4 in severity. No deaths occurred due to AEs; 3 (2.5%) pts discontinued due to AEs. PK for NIS793 was linearly dose proportional with no obvious correlation between exposure and response. Two pts achieved a partial response (PR; one confirmed in clear cell renal cell carcinoma and one unconfirmed in NSCLC) during dose escalation of the combination. Two confirmed PRs were achieved in the MSS-CRC dose-expansion group. Biomarker data showed evidence of target engagement through increased TGF-β/NIS793 complexes and depleted active TGF-β in peripheral blood. Gene expression and protein analyses in tumor biopsies displayed decreased TGF-β target genes, decreased TGF-β signatures and increased immune signatures suggesting modulation of the TGF-β pathway and preliminary evidence of biological activity. Conclusions: Data showing target engagement and TGF-β pathway inhibition supported the proof of mechanism of NIS793. The RDE of the combination was established and well tolerated in pts with advanced solid tumors. Clinical trial information: NCT02947165.

Published

2021

43. 903 SINGLE-CELL RNA SEQUENCING ANALYSIS OF PANCREATIC DUCTAL ADENOCARCINOMA REVEALS TRANSCRIPTOMIC CHANGES IN FIBROBLASTS FOLLOWING FOLFIRINOX-BASED NEOADJUVANT CHEMORADIATION THERAPY

Author

Slavica Dimitrieva, Jonathan E. Chang, Carlos Fernandez-del Castillo, Keith D. Lillemoe, Mari Mino-Kenudson, Dave Ruddy, Michelle Piquet, Andrew S. Liss, Millicent Gabriel, Andrew L. Warshaw, Viviana Cremasco, and Jon M Harrison

Subjects

Transcriptome, medicine.anatomical_structure, Pancreatic ductal adenocarcinoma, Hepatology, FOLFIRINOX, Cell, Gastroenterology, medicine, Cancer research, RNA, Biology

Published

2021

44. 797 SINGLE-CELL RNA SEQUENCING ANALYSIS OF PANCREATIC DUCTAL ADENOCARCINOMA REVEALS INTERTUMORAL TRANSCRIPTOMIC HETEROGENEITY

Author

Keith D. Lillemoe, Thomas Hank, Andrew L. Warshaw, Carlos Fernandez-del Castillo, Dave Ruddy, Viviana Cremasco, Slavica Dimitrieva, Mari Mino-Kenudson, Jon M Harrison, Michelle Piquet, Andrew S. Liss, Jonathan E. Chang, and Millicent Gabriel

Subjects

Transcriptome, Pancreatic ductal adenocarcinoma, medicine.anatomical_structure, Hepatology, Cell, Gastroenterology, medicine, Cancer research, RNA, Biology

Published

2020

45. Diacylglycerol Kinase ζ (DGKζ) Is a Critical Regulator of Bone Homeostasis Via Modulation of c-Fos Levels in Osteoclasts

Author

Viviana Cremasco, Corinne E. Decker, Lindsey Hughes, Deborah V. Novack, Ali Zamani, and Roberta Faccio

Subjects

medicine.medical_specialty, Gene knockdown, Activator (genetics), Kinase, Endocrinology, Diabetes and Metabolism, Regulator, Biology, Cell biology, Endocrinology, RANKL, Internal medicine, medicine, biology.protein, lipids (amino acids, peptides, and proteins), Orthopedics and Sports Medicine, Receptor, Transcription factor, Diacylglycerol kinase

Abstract

Increased diacylglycerol (DAG) levels are observed in numerous pathologies, including conditions associated with bone loss. However, the effects of DAG accumulation on the skeleton have never been directly examined. Because DAG is strictly controlled by tissue-specific diacylglycerol kinases (DGKs), we sought to examine the biological consequences of DAG accumulation on bone homeostasis by genetic deletion of DGKζ, a highly expressed DGK isoform in osteoclasts (OCs). Strikingly, DGKζ(-/-) mice are osteoporotic because of a marked increase in OC numbers. In vitro, DGKζ(-/-) bone marrow macrophages (BMMs) form more numerous, larger, and highly resorptive OCs. Surprisingly, although increased DAG levels do not alter receptor activator of NF-κB (RANK)/RANK ligand (RANKL) osteoclastogenic pathway, DGKζ deficiency increases responsiveness to the proliferative and pro-survival cytokine macrophage colony-stimulating factor (M-CSF). We find that M-CSF is responsible for increased DGKζ(-/-) OC differentiation by promoting higher expression of the transcription factor c-Fos, and c-Fos knockdown in DGKζ(-/-) cultures dose-dependently reduces OC differentiation. Using a c-Fos luciferase reporter assay lacking the TRE responsive element, we also demonstrate that M-CSF induces optimal c-Fos expression through DAG production. Finally, to demonstrate the importance of the M-CSF/DGKζ/DAG axis on regulation of c-Fos during osteoclastogenesis, we turned to PLCγ2(+/-) BMMs, which have reduced DAG levels and form fewer OCs because of impaired expression of the master regulator of osteoclastogenesis NFATc1 and c-Fos. Strikingly, genetic deletion of DGKζ in PLCγ2(+/-) mice rescues OC formation and normalizes c-Fos levels without altering NFATc1 expression. To our knowledge, this is the first report implicating M-CSF/DGKζ/DAG axis as a critical regulator of bone homeostasis via its actions on OC differentiation and c-Fos expression.

Published

2015

46. The CLEC-2–podoplanin axis controls the contractility of fibroblastic reticular cells and lymph node microarchitecture

Author

Max Darnell, Michael C. Carroll, Viviana Cremasco, Alvin Gogineni, Jillian L. Astarita, Jianxin Fu, Janice M Nieves-Bonilla, James R Peck, Matthew C. Woodruff, Burkhard Ludewig, Lijun Xia, David J. Mooney, Kai Song, Robby M. Weimer, Yuji Kondo, Lucas Onder, and Shannon J. Turley

Subjects

Male, Pathology, medicine.medical_specialty, Mice, 129 Strain, Cell Survival, Pyridines, Immunology, Inflammation, Biology, Article, Contractility, Reticular cell, medicine, Animals, Immunology and Allergy, Lectins, C-Type, Enzyme Inhibitors, Phosphorylation, Lymph node, PDPN, Cytoskeleton, Mice, Knockout, Membrane Glycoproteins, Microscopy, Confocal, Fibroblasts, Amides, Specific Pathogen-Free Organisms, Cell biology, Mice, Inbred C57BL, medicine.anatomical_structure, Podoplanin, Reticular connective tissue, Female, Collagen, Lymph Nodes, Lymph, medicine.symptom

Abstract

In lymph nodes, fibroblastic reticular cells (FRCs) form a collagen-based reticular network that supports migratory dendritic cells (DCs) and T cells and transports lymph. A hallmark of FRCs is their propensity to contract collagen, yet this function is poorly understood. Here we demonstrate that podoplanin (PDPN) regulates actomyosin contractility in FRCs. Under resting conditions, when FRCs are unlikely to encounter mature DCs expressing the PDPN receptor CLEC-2, PDPN endowed FRCs with contractile function and exerted tension within the reticulum. Upon inflammation, CLEC-2 on mature DCs potently attenuated PDPN-mediated contractility, which resulted in FRC relaxation and reduced tissue stiffness. Disrupting PDPN function altered the homeostasis and spacing of FRCs and T cells, which resulted in an expanded reticular network and enhanced immunity.

Published

2014

47. B cell homeostasis and follicle confines are governed by fibroblastic reticular cells

Author

Lucas Onder, Floriana Cremasco, Shannon J. Turley, Christopher Harvey, Jovana Cupovic, Burkhard Ludewig, Viviana Cremasco, Frank A. Schildberg, Jonathan L. Chang, Kai W. Wucherpfennig, Matthew C. Woodruff, Michael C. Carroll, and Janice M Nieves-Bonilla

Subjects

Male, Cell Survival, T-Lymphocytes, medicine.medical_treatment, T cell, Immunology, Mice, Transgenic, Biology, Article, 03 medical and health sciences, 0302 clinical medicine, Cell Movement, Reticular cell, B cell homeostasis, B-Cell Activating Factor, medicine, Animals, Homeostasis, Immunology and Allergy, B-cell activating factor, Cells, Cultured, B cell, 030304 developmental biology, B-Lymphocytes, 0303 health sciences, Microscopy, Confocal, Dendritic Cells, Fibroblasts, Flow Cytometry, Acquired immune system, Immunity, Humoral, Cell biology, Mice, Inbred C57BL, Luminescent Proteins, medicine.anatomical_structure, Cytokine, Humoral immunity, Lymph Nodes, 030215 immunology

Abstract

Fibroblastic reticular cells (FRCs) are known to inhabit T cell-rich areas of lymphoid organs, where they function to facilitate interactions between T cells and dendritic cells. However, in vivo manipulation of FRCs has been limited by a dearth of genetic tools that target this lineage. Here, using a mouse model to conditionally ablate FRCs, we demonstrated their indispensable role in antiviral T cell responses. Unexpectedly, loss of FRCs also attenuated humoral immunity due to impaired B cell viability and follicular organization. Follicle-resident FRCs established a favorable niche for B lymphocytes via production of the cytokine BAFF. Thus, our study indicates that adaptive immunity requires an intact FRC network and identifies a subset of FRCs that control B cell homeostasis and follicle identity.

Published

2014

48. The Tumor Microenvironment Shapes Lineage, Transcriptional, and Functional Diversity of Infiltrating Myeloid Cells

Author

Kutlu G. Elpek, Shannon J. Turley, Viviana Cremasco, Christopher Harvey, Hua Shen, Kai W. Wucherpfennig, Paul A. Monach, and Daniel R. Goldstein

Subjects

Male, Cancer Research, Myeloid, Neutrophils, medicine.medical_treatment, Receptor expression, Immunology, Biology, Article, Transcriptome, Cell Movement, Biomarkers, Tumor, Tumor Cells, Cultured, Tumor Microenvironment, medicine, Animals, Myeloid Cells, Regulation of gene expression, Mice, Inbred BALB C, Tumor microenvironment, Haptoglobins, Gene Expression Profiling, Gene Expression Regulation, Neoplastic, Mice, Inbred C57BL, Gene expression profiling, Cytokine, medicine.anatomical_structure, Tumor progression, Cancer research, Female, Neoplasm Transplantation

Abstract

Myeloid cells play important regulatory roles within the tumor environment by directly promoting tumor progression and modulating the function of tumor-infiltrating lymphocytes, and as such, they represent a potential therapeutic target for the treatment of cancer. Although distinct subsets of tumor-associated myeloid cells have been identified, a broader analysis of the complete myeloid cell landscape within individual tumors and also across different tumor types has been lacking. By establishing the developmental and transcriptomic signatures of infiltrating myeloid cells from multiple primary tumors, we found that tumor-associated macrophages (TAM) and tumor-associated neutrophils (TAN), while present within all tumors analyzed, exhibited strikingly different frequencies, gene expression profiles, and functions across cancer types. We also evaluated the impact of anatomic location and circulating factors on the myeloid cell composition of tumors. The makeup of the myeloid compartment was determined by the tumor microenvironment rather than the anatomic location of tumor development or tumor-derived circulating factors. Protumorigenic and hypoxia-associated genes were enriched in TAMs and TANs compared with splenic myeloid-derived suppressor cells. Although all TANs had an altered expression pattern of secretory effector molecules, in each tumor type they exhibited a unique cytokine, chemokine, and associated receptor expression profile. One such molecule, haptoglobin, was uniquely expressed by 4T1 TANs and identified as a possible diagnostic biomarker for tumors characterized by the accumulation of myeloid cells. Thus, we have identified considerable cancer-specific diversity in the lineage, gene expression, and function of tumor-infiltrating myeloid cells. Cancer Immunol Res; 2(7); 655–67. ©2014 AACR.

Published

2014

49. Lack of adiponectin leads to increased lymphocyte activation and increased disease severity in a mouse model of multiple sclerosis

Author

Jacob G. Henderson, Daniela Galimberti, Lawrence Chan, Laura Piccio, Robert Mikesell, Viviana Cremasco, Michael J. Ramsbottom, Wesley Haynes, Anne H. Cross, Jiyoon Ryu, Chyi-Song Hsieh, Claudia Cantoni, Daniel Hawiger, and Lily Q. Dong

Subjects

medicine.medical_specialty, Adiponectin, Multiple sclerosis, Immunology, Adipokine, FOXP3, Biology, medicine.disease, Interleukin 10, Myelin, Immune system, medicine.anatomical_structure, Endocrinology, Internal medicine, medicine, Immunology and Allergy, Interleukin 17

Abstract

Multiple sclerosis (MS) is a presumed autoimmune disease directed against central nervous system (CNS) myelin, in which diet and obesity are implicated as risk factors. Immune responses can be influenced by molecules produced by fat cells, called adipokines. Adiponectin is an adipokine with anti-inflammatory effects. We tested the hypothesis that adiponectin has a protective role in the EAE model for MS, that can be induced by immunization with myelin antigens or transfer of myelin-specific T lymphocytes. Adiponectin deficient (ADPKO) mice developed worse EAE with greater CNS inflammation, demyelination, and axon injury. Lymphocytes from myelin-immunized ADPKO mice proliferated more, produced higher amounts of IFN-γ, IL-17, TNF-α, IL-6, and transferred more severe EAE than wild type (WT) lymphocytes. At EAE peak, the spleen and CNS of ADPKO had fewer regulatory T (Treg) cells than WT mice and during EAE recovery, Foxp3, IL-10 and TGF-β expression levels in the CNS were reduced in ADPKO compared with WT mice. Treatment with globular adiponectin in vivo ameliorated EAE, and was associated with an increase in Treg cells. These data indicate that adiponectin is an important regulator of T-cell functions during EAE, suggesting a new avenue of investigation for MS treatment.

Published

2013

50. IL4RA on lymphatic endothelial cells promotes T cell egress during sclerodermatous graft versus host disease

Author

Antonios O. Aliprantis, Ulrich H. von Andrian, Viviana Cremasco, Angelo Grauel, Robert Lafyatis, Kelly Tsang, Joerg Ermann, David Alvarez, and Katia Urso

Subjects

0301 basic medicine, integumentary system, T cell, Lymphocyte, government.form_of_government, General Medicine, Biology, medicine.disease, 3. Good health, 03 medical and health sciences, Lymphatic Endothelium, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, Graft-versus-host disease, 030220 oncology & carcinogenesis, Immunology, medicine, Splenocyte, government, Macrophage, Lymph, Interleukin 4, Research Article

Abstract

Systemic sclerosis (SSc) is a potentially fatal autoimmune disorder with limited therapeutic options. Sclerodermatous graft versus host disease (sclGvHD), induced by transfer of B10.D2 splenocytes into BALB/c Rag2–/– mice, models an inflammatory subset of SSc characterized by a prominent IL13-induced gene expression signature in the skin. Host mice deficient in IL4RA, a subunit of the type II IL4/IL13 receptor, are protected from sclGvHD. While IL4RA has a well-established role in Th2 differentiation and alternative macrophage activation, we report here a previously unappreciated function for IL4RA in lymphatic endothelial cells (LECs): regulation of activated T cell egress. Seven days after splenocyte transfer, Il4ra–/– hosts had increased numbers of activated graft CD4+ T cells in skin draining lymph nodes (dLNs) but fewer T cells in efferent lymph, blood, and skin. Sphingosine-1 phosphate (S1P), master regulator of lymphocyte egress from LNs, was lower in dLNs of Il4ra–/– hosts with a corresponding decrease of S1P kinase 1 (Sphk1) expression in LECs. Bypassing the efferent lymphatics via i.v. injection of CD4+ T cells from dLNs of Il4ra–/– sclGvHD mice restored clinical GvHD in secondary Il4ra–/– recipients. These results identify a role for IL4RA and suggest that modulation of lymphocyte egress from LNs may be effective in SSc and GvHD.

Published

2016