Your search keyword '"Rienk Offringa"' showing total 217 results

1. T-Cell-Based Platform for Functional Screening of T-Cell Receptors Identified in Single-Cell RNA Sequencing Data Sets of Tumor-Infiltrating T-Cells

Author

Aaron Rodriguez Ehrenfried, Stefan Zens, Laura Steffens, Hannes Kehm, Alina Paul, Claudia Lauenstein, Michael Volkmar, Isabel Poschke, Zibo Meng, and Rienk Offringa

Subjects

Biology (General), QH301-705.5

Abstract

The advent of single-cell RNA sequencing (scRNAseq) has enabled in-depth gene expression analysis of several thousand cells isolated from tissues. We recently reported the application of scRNAseq toward the dissection of the tumor-infiltrating T-cell repertoire in human pancreatic cancer samples. In this study, we demonstrated that combined whole transcriptome and T-cell receptor (TCR) sequencing provides an effective way to identify tumor-reactive TCR clonotypes on the basis of gene expression signatures. An important aspect in this respect was the experimental validation of TCR-mediated anti-tumor reactivity by means of an in vitro functional assay, which is the subject of the present protocol. This assay involves the transient transfection of mRNA gene constructs encoding TCRα/β pairs into a well-defined human T-cell line, followed by co-cultivation with the tumor cells of interest and detection of T-cell activation by flow cytometry. Due to the high transfectability and the low background reactivity of the mock-transfected T-cell line to a wide variety of tumor cells, this assay offers a highly robust and versatile platform for the functional screening of large numbers of TCR clonotypes as identified in scRNAseq data sets. Whereas the assay was initially developed to test TCRs of human origin, it was more recently also applied successfully for the screening of TCRs of murine origin.

Published

2024

2. Identification of TRDV-TRAJ V domains in human and mouse T-cell receptor repertoires

Author

Michael Volkmar, Elham Fakhr, Stefan Zens, Alice Bury, Rienk Offringa, Jessica Gordon, Enes Huduti, Thomas Wölfel, and Catherine Wölfel

Subjects

T cell receptor (TR), TCR, TRDV-TRAJ, hybrid V-domain, V-(D)-J rearrangement, TRDV1, Immunologic diseases. Allergy, RC581-607

Abstract

Here, we describe the identification of two T-cell receptors (TRs) containing TRDV genes in their TRA chains, the first one in human and the second one in mouse. First, using 5’RACE on a mixed lymphocyte-tumor cell culture (MLTC), we identified TRDV1 5’-untranslated region (UTR) and complete coding sequence rearranged productively to TRAJ24. Single-cell TR RNA sequencing (RNA-seq) of the MLTC, conducted to identify additional clonotypes, revealed that the analysis software detected the hybrid TRDV-TRAJ TRA (TRA) chain but excluded it from the final results. In a separate project, we performed TR sequencing of tumor-infiltrating lymphocytes (TILs) in a murine tumor model. Here, the predominant clonotype contained a TRA chain with a TRDV2-2-TRAJ49 rearrangement. Again, the hybrid TRA chain was not reported in the final results. Transfection of both TR cDNAs resulted in cell surface localization of TR together with CD3, suggesting a productive protein in both cases. Tumor recognition of the Homo sapiens (Homsap) TRDV1-containing TR could be demonstrated by IFN Gamma ELISA ELISpot kit, whereas the Mus musculus (Musmus) TR did not recognize a tumor-derived cell line. To determine whether the TRDV-containing TRA chains we detected were rare events or whether TRDV genes are commonly incorporated into TRA chains, we queried the NCBI Sequence Read Archive for TR single-cell RNA-seq data and analyzed 21 human and 23 murine datasets. We found that especially Homsap TRDV1, Musmus TRDV1, and to some extent Musmus TRDV2-2 are more commonly incorporated into TRA chains than several TRAV genes, making those TRDV genes a relevant contribution to TRA diversity. TRDV-containing TRA chains are currently excluded from the final results of V-(D)-J dataset analyses with the CellRanger software. We provide a work-around to avoid exclusion of those hybrid TRA chains from the final analysis results.

Published

2023

3. Targeting the aryl hydrocarbon receptor (AhR) with BAY 2416964: a selective small molecule inhibitor for cancer immunotherapy

Author

Rienk Offringa, Ralf Lesche, Iris Oezen, Michael Platten, Daniel Baumann, Christiane A Opitz, Ahmed Sadik, Catherine Olesch, Frederik Cichon, Norbert Schmees, Ulrike Roehn, Florian Prinz, Detlef Stoeckigt, Katharina Sahm, Nirmeen Elmadany, Christina Kober, Julian Roewe, Lars Roese, Benjamin Bader, Mátyás Gorjánácz, Helge Gottfried Roider, Gabriele Leder, Horst Irlbacher, Julien Lefranc, Mine Oezcan-Wahlbrink, Ankita Sati Batra, Rafael Carretero, Hilmar Weinmann, Ingo V Hartung, Bertolt Kreft, and Ilona Gutcher

Subjects

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

Abstract

Background The metabolism of tryptophan to kynurenines (KYN) by indoleamine-2,3-dioxygenase or tryptophan-2,3-dioxygenase is a key pathway of constitutive and adaptive tumor immune resistance. The immunosuppressive effects of KYN in the tumor microenvironment are predominantly mediated by the aryl hydrocarbon receptor (AhR), a cytosolic transcription factor that broadly suppresses immune cell function. Inhibition of AhR thus offers an antitumor therapy opportunity via restoration of immune system functions.Methods The expression of AhR was evaluated in tissue microarrays of head and neck squamous cell carcinoma (HNSCC), non-small cell lung cancer (NSCLC) and colorectal cancer (CRC). A structure class of inhibitors that block AhR activation by exogenous and endogenous ligands was identified, and further optimized, using a cellular screening cascade. The antagonistic properties of the selected AhR inhibitor candidate BAY 2416964 were determined using transactivation assays. Nuclear translocation, target engagement and the effect of BAY 2416964 on agonist-induced AhR activation were assessed in human and mouse cancer cells. The immunostimulatory properties on gene and cytokine expression were examined in human immune cell subsets. The in vivo efficacy of BAY 2416964 was tested in the syngeneic ovalbumin-expressing B16F10 melanoma model in mice. Coculture of human H1299 NSCLC cells, primary peripheral blood mononuclear cells and fibroblasts mimicking the human stromal-tumor microenvironment was used to assess the effects of AhR inhibition on human immune cells. Furthermore, tumor spheroids cocultured with tumor antigen-specific MART-1 T cells were used to study the antigen-specific cytotoxic T cell responses. The data were analyzed statistically using linear models.Results AhR expression was observed in tumor cells and tumor-infiltrating immune cells in HNSCC, NSCLC and CRC. BAY 2416964 potently and selectively inhibited AhR activation induced by either exogenous or endogenous AhR ligands. In vitro, BAY 2416964 restored immune cell function in human and mouse cells, and furthermore enhanced antigen-specific cytotoxic T cell responses and killing of tumor spheroids. In vivo, oral application with BAY 2416964 was well tolerated, induced a proinflammatory tumor microenvironment, and demonstrated antitumor efficacy in a syngeneic cancer model in mice.Conclusions These findings identify AhR inhibition as a novel therapeutic approach to overcome immune resistance in various types of cancers.

Published

2023

4. 926 BAY 2965501: a highly selective DGK zeta inhibitor for cancer immunotherapy

Author

Rienk Offringa, Catherine Olesch, Frederik Cichon, Mareike Grees, Norbert Schmees, Ulrike Roehn, Florian Prinz, Detlef Stoeckigt, Michael Erkelenz, Thi Thanh Uyen Nguyen, Ulf Boemer, Judith Günther, Marc Kunze, Kirstin Petersen, and Dennis Kirchhoff

Subjects

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

Published

2023

5. Secretogranin II influences the assembly and function of MHC class I in melanoma

Author

Tamara Steinfass, Juliane Poelchen, Qian Sun, Giovanni Mastrogiulio, Daniel Novak, Marlene Vierthaler, Sandra Pardo, Aniello Federico, Laura Hüser, Thomas Hielscher, Rafael Carretero, Rienk Offringa, Peter Altevogt, Viktor Umansky, and Jochen Utikal

Subjects

Melanoma, SCG2, HLA, MHC class I, Prognosis, Diseases of the blood and blood-forming organs, RC633-647.5, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Melanoma is the deadliest form of skin cancer showing rising incidence over the past years. New insights into the mechanisms of melanoma progression contributed to the development of novel treatment options, such as immunotherapies. However, acquiring resistance to treatment poses a big problem to therapy success. Therefore, understanding the mechanisms underlying resistance could improve therapy efficacy. Correlating expression levels in tissue samples of primary melanoma and metastases revealed that secretogranin 2 (SCG2) is highly expressed in advanced melanoma patients with poor overall survival (OS) rates. By conducting transcriptional analysis between SCG2-overexpressing (OE) and control melanoma cells, we detected a downregulation of components of the antigen presenting machinery (APM), which is important for the assembly of the MHC class I complex. Flow cytometry analysis revealed a downregulation of surface MHC class I expression on melanoma cells that showed resistance towards the cytotoxic activity of melanoma-specific T cells. IFNγ treatment partially reversed these effects. Based on our findings, we suggest that SCG2 might stimulate mechanisms of immune evasion and therefore be associated with resistance to checkpoint blockade and adoptive immunotherapy.

Published

2023

6. T cell-mediated elimination of cancer cells by blocking CEACAM6–CEACAM1 interaction

Author

Jessica Pinkert, Hans-Henning Boehm, Mark Trautwein, Wolf-Dietrich Doecke, Florian Wessel, Yingzi Ge, Eva Maria Gutierrez, Rafael Carretero, Christoph Freiberg, Uwe Gritzan, Merlin Luetke-Eversloh, Sven Golfier, Oliver Von Ahsen, Valentina Volpin, Antonio Sorrentino, Anchana Rathinasamy, Maria Xydia, Robert Lohmayer, Julian Sax, Ayse Nur-Menevse, Abir Hussein, Slava Stamova, Georg Beckmann, Julian Marius Glueck, Dorian Schoenfeld, Joerg Weiske, Dieter Zopf, Rienk Offringa, Bertolt Kreft, Philipp Beckhove, and Joerg Willuda

Subjects

ceacam6, immune checkpoint inhibitor, humanized antibody, t cell, immune response, elimination of cancer cells, Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Carcinoembryonic antigen-related cell adhesion molecule 6 (CEACAM6), a cell surface receptor, is expressed on normal epithelial tissue and highly expressed in cancers of high unmet medical need, such as non-small cell lung, pancreatic, and colorectal cancer. CEACAM receptors undergo homo- and heterophilic interactions thereby regulating normal tissue homeostasis and angiogenesis, and in cancer, tumor invasion and metastasis. CEACAM6 expression on malignant plasma cells inhibits antitumor activity of T cells, and we hypothesize a similar function on epithelial cancer cells. The interactions between CEACAM6 and its suggested partner CEACAM1 on T cells were studied. A humanized CEACAM6-blocking antibody, BAY 1834942, was developed and characterized for its immunomodulating effects in co-culture experiments with T cells and solid cancer cells and in comparison to antibodies targeting the immune checkpoints programmed cell death protein 1 (PD-1), programmed death-ligand 1 (PD-L1), and T cell immunoglobulin mucin-3 (TIM-3). The immunosuppressive activity of CEACAM6 was mediated by binding to CEACAM1 expressed by activated tumor-specific T cells. BAY 1834942 increased cytokine secretion by T cells and T cell-mediated killing of cancer cells. The in vitro efficacy of BAY 1834942 correlated with the degree of CEACAM6 expression on cancer cells, suggesting potential in guiding patient selection. BAY 1834942 was equally or more efficacious compared to blockade of PD-L1, and at least an additive efficacy was observed in combination with anti-PD-1 or anti-TIM-3 antibodies, suggesting an efficacy independent of the PD-1/PD-L1 axis. In summary, CEACAM6 blockade by BAY 1834942 reactivates the antitumor response of T cells. This warrants clinical evaluation.

Published

2022

7. Photon versus carbon ion irradiation: immunomodulatory effects exerted on murine tumor cell lines

Author

Laura Hartmann, Philipp Schröter, Wolfram Osen, Daniel Baumann, Rienk Offringa, Mahmoud Moustafa, Rainer Will, Jürgen Debus, Stephan Brons, Stefan Rieken, and Stefan B. Eichmüller

Subjects

Medicine, Science

Abstract

Abstract While for photon radiation hypofractionation has been reported to induce enhanced immunomodulatory effects, little is known about the immunomodulatory potential of carbon ion radiotherapy (CIRT). We thus compared the radio-immunogenic effects of photon and carbon ion irradiation on two murine cancer cell lines of different tumor entities. We first calculated the biological equivalent doses of carbon ions corresponding to photon doses of 1, 3, 5, and 10 Gy of the murine breast cancer cell line EO771 and the OVA-expressing pancreatic cancer cell line PDA30364/OVA by clonogenic survival assays. We compared the potential of photon and carbon ion radiation to induce cell cycle arrest, altered surface expression of immunomodulatory molecules and changes in the susceptibility of cancer cells to cytotoxic T cell (CTL) mediated killing. Irradiation induced a dose-dependent G2/M arrest in both cell lines irrespective from the irradiation source applied. Likewise, surface expression of the immunomodulatory molecules PD-L1, CD73, H2-Db and H2-Kb was increased in a dose-dependent manner. Both radiation modalities enhanced the susceptibility of tumor cells to CTL lysis, which was more pronounced in EO771/Luci/OVA cells than in PDA30364/OVA cells. Overall, compared to photon radiation, the effects of carbon ion radiation appeared to be enhanced at higher dose range for EO771 cells and extenuated at lower dose range for PDA30364/OVA cells. Our data show for the first time that equivalent doses of carbon ion and photon irradiation exert similar immunomodulating effects on the cell lines of both tumor entities, highlighted by an enhanced susceptibility to CTL mediated cytolysis in vitro.

Published

2020

8. Targeting immune-checkpoint inhibitor resistance mechanisms by MEK inhibitor and agonist anti-CD40 antibody combination therapy

Author

Daniel Baumann and Rienk Offringa

Subjects

cancer immunotherapy, immune checkpoint blockade, combinatorial immunotherapy, immunogenic cell death, cytostatic agents, mek inhibition, mapk, cd40, agonist, Medicine, Biology (General), QH301-705.5

Abstract

The widespread application of immune-checkpoint blockade (ICB) has resulted in unprecedented response rates in patients with immunogenic cancers, such as melanoma and lung cancer. However, sub-groups of patients with these indications do not respond to ICB, and the same applies to patients with other cancer types. Mechanisms of resistance to ICB include low tumor immunogenicity associated with low T cell infiltration (‘cold’ tumors), suppression of anti-tumor immunity by immunosuppressive cells in the tumor microenvironment (TME), lack of antigen-presentation and immune escape (e.g. by downregulation of MHC-I on tumor cells) as well as oncologic pathways that suppress immune responses. Combination strategies, involving cytostatic drugs, harbor the potential to overcome refractoriness to immunotherapy. However, suppression of immune cell function by cytostatic drugs may limit the efficacy. In our study, we show that combination treatment of targeted inhibition of mitogen-activated protein kinase (MAPK) kinase (MEK) and agonist immunostimulatory anti-CD40 antibody (Ab) is particularly suitable in counteracting aforementioned ICB resistance mechanisms (Fig. 1).

Published

2020

9. The m6A-Related mRNA Signature Predicts the Prognosis of Pancreatic Cancer Patients

Author

Zibo Meng, Qingchen Yuan, Jingyuan Zhao, Bo Wang, Shoukang Li, Rienk Offringa, Xin Jin, and Heshui Wu

Subjects

N6-methyladenosine modification, pancreatic adenocarcinoma, mRNA signature, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

N6-methyladenosine (m6A) has an important epitranscriptomic modification that controls cancer self-renewal and cell fate. The addition of m6A to mRNA is a reversible modification. The deposition of m6A is encoded by a methyltransferase complex involving three homologous factors, jargonized as “writers,” “erasers,” and “readers.” However, their roles in pancreatic adenocarcinoma (PAAD) are underexploited. With the use of The Cancer Genome Atlas (TCGA) and International Cancer Genome Consortium (ICGC) databases, we provided an mRNA signature that may improve the prognostic prediction of PAAD patients based on the genetic status of m6A regulators. PAAD patients with genetic alteration of m6A regulators had worse disease-free and overall survival. After comparing PAAD groups with/without genetic alteration of m6A regulators, we identified 196 differentially expressed genes (DEGs). Then, we generated a 16-mRNA signature score system through least absolute shrinkage and selection operator (LASSO) Cox regression analysis. Multivariate cox regression analysis demonstrated that a high-risk score significantly correlates with poor prognosis. Moreover, time-dependent receiver operating characteristic (ROC) curves revealed it was effective in predicting the overall survival in both training and validation sets. PAH, ZPLD1, PPFIA3, and TNNT1 from our signature also exhibited an independent prognostic value. Collectively, these findings can improve the understanding of m6A modifications in PAAD and potentially guide therapies in PAAD patients.

Published

2020

10. Novel Non-integrating DNA Nano-S/MAR Vectors Restore Gene Function in Isogenic Patient-Derived Pancreatic Tumor Models

Author

Matthias Bozza, Edward W. Green, Elisa Espinet, Alice De Roia, Corinna Klein, Vanessa Vogel, Rienk Offringa, James A. Williams, Martin Sprick, and Richard P. Harbottle

Subjects

nano-DNA vector, S/MAR, antibiotic-free, non-integrating, isogenic cells, tumor models, Genetics, QH426-470, Cytology, QH573-671

Abstract

We describe herein non-integrating minimally sized nano-S/MAR DNA vectors, which can be used to genetically modify dividing cells in place of integrating vectors. They represent a unique genetic tool, which avoids vector-mediated damage. Previous work has shown that DNA vectors comprising a mammalian S/MAR element can provide persistent mitotic stability over hundreds of cell divisions, resisting epigenetic silencing and thereby allowing sustained transgene expression. The composition of the original S/MAR vectors does present some inherent limitations that can provoke cellular toxicity. Herein, we present a new system, the nano-S/MAR, which drives higher transgene expression and has improved efficiency of establishment, due to the minimal impact on cellular processes and perturbation of the endogenous transcriptome. We show that these features enable the hitherto challenging genetic modification of patient-derived cells to stably restore the tumor suppressor gene SMAD4 to a patient-derived SMAD4 knockout pancreatic cancer line. Nano-S/MAR modification does not alter the molecular or phenotypic integrity of the patient-derived cells in cell culture and xenograft mouse models. In conclusion, we show that these DNA vectors can be used to persistently modify a range of cells, providing sustained transgene expression while avoiding the risks of insertional mutagenesis and other vector-mediated toxicity.

Published

2020

11. Proimmunogenic impact of MEK inhibition synergizes with agonist anti-CD40 immunostimulatory antibodies in tumor therapy

Author

Daniel Baumann, Tanja Hägele, Julian Mochayedi, Jennifer Drebant, Caroline Vent, Sven Blobner, Julia Han Noll, Irena Nickel, Corinna Schumacher, Sophie Luise Boos, Aline Sophie Daniel, Susann Wendler, Michael Volkmar, Oliver Strobel, and Rienk Offringa

Subjects

Science

Abstract

Immune checkpoint inhibitors have limited efficacy in tumors with lower mutational burden and non-permissive microenvironment. Here, the authors show that combining MEK inhibition with an agonist anti-CD40 immunostimulatory antibody improves antitumor treatment by inducing immunogenic changes in the tumor microenvironment.

Published

2020

12. p38 MAPK signaling in M1 macrophages results in selective elimination of M2 macrophages by MEK inhibition

Author

Rienk Offringa, Daniel Baumann, Jennifer Drebant, Tanja Hägele, Luisa Burger, Clara Serger, Claudia Lauenstein, Przemyslaw Dudys, and Gerrit Erdmann

Subjects

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

Abstract

M2 macrophages promote tumor progression and therapy resistance, whereas proimmunogenic M1 macrophages can contribute to the efficacy of cytostatic and immunotherapeutic strategies. The abundance of M2 macrophages in the immune infiltrate of many cancer types has prompted the search for strategies to target and eliminate this subset. From our prior experiments in syngeneic mouse tumor models, we learned that pharmacological inhibition of mitogen-activated protein kinase kinase (MEK) did not merely result in tumor cell death, but also in the modulation of the tumor immune infiltrate. This included a prominent decrease in the numbers of macrophages as well as an increase in the M1/M2 macrophage ratio. Investigation of the mechanism underlying this finding in primary murine macrophage cultures revealed that M2 macrophages are significantly more sensitive to MEK inhibition-induced cell death than their M1 counterparts. Further analyses showed that the p38 MAPK pathway, which is activated in M1 macrophages only, renders these cells resistant to death by MEK inhibition. In conclusion, the dependency of M2 macrophages on the MEK/extracellular-signal regulated kinase (ERK) pathway empowers MEK inhibitors to selectively eliminate this subset from the tumor microenvironment.

Published

2021

13. Cancer Neoepitopes for Immunotherapy: Discordance Between Tumor-Infiltrating T Cell Reactivity and Tumor MHC Peptidome Display

Author

Stina L. Wickström, Tanja Lövgren, Michael Volkmar, Bruce Reinhold, Jonathan S. Duke-Cohan, Laura Hartmann, Janina Rebmann, Anja Mueller, Jeroen Melief, Roeltje Maas, Maarten Ligtenberg, Johan Hansson, Rienk Offringa, Barbara Seliger, Isabel Poschke, Ellis L. Reinherz, and Rolf Kiessling

Subjects

TIL, tumor, Immune peptidome, neoepitopes, mass spectrometry, immunotherapy, Immunologic diseases. Allergy, RC581-607

Abstract

Tumor-infiltrating lymphocytes (TIL) are considered enriched for T cells recognizing shared tumor antigens or mutation-derived neoepitopes. We performed exome sequencing and HLA-A*02:01 epitope prediction from tumor cell lines from two HLA-A2-positive melanoma patients whose TIL displayed strong tumor reactivity. The potential neoepitopes were screened for recognition using autologous TIL by immunological assays and presentation on tumor major histocompatibility complex class I (MHC-I) molecules by Poisson detection mass spectrometry (MS). TIL from the patients recognized 5/181 and 3/49 of the predicted neoepitopes, respectively. MS screening detected 3/181 neoepitopes on tumor MHC-I from the first patient but only one was also among those recognized by TIL. Consequently, TIL enriched for neoepitope specificity failed to recognize tumor cells, despite being activated by peptides. For the second patient, only after IFN-γ treatment of the tumor cells was one of 49 predicted neoepitopes detected by MS, and this coincided with recognition by TIL sorted for the same specificity. Importantly, specific T cells could be expanded from patient and donor peripheral blood mononuclear cells (PBMC) for all neoepitopes recognized by TIL and/or detected on tumor MHC-I. In summary, stimulating the appropriate inflammatory environment within tumors may promote neoepitope MHC presentation while expanding T cells in blood may circumvent lack of specific TIL. The discordance in detection between physical and functional methods revealed here can be rationalized and used to improve neoantigen-targeted T cell immunotherapy.

Published

2019

14. Sensitization of Tumors for Attack by Virus-Specific CD8+ T-Cells Through Antibody-Mediated Delivery of Immunogenic T-Cell Epitopes

Author

Julian P. Sefrin, Lars Hillringhaus, Olaf Mundigl, Karin Mann, Doris Ziegler-Landesberger, Heike Seul, Gloria Tabares, Dominic Knoblauch, Andreas Leinenbach, Irene Friligou, Sebastian Dziadek, Rienk Offringa, Valeria Lifke, and Alexander Lifke

Subjects

antigen-armed antibodies, antibody-targeted pathogen-derived peptides (ATPP), cancer immunotherapy, immune tolerance, CD8+ T-cell, immunogenicity, Immunologic diseases. Allergy, RC581-607

Abstract

Anti-tumor immunity is limited by a number of factors including the lack of fully activated T-cells, insufficient antigenic stimulation and the immune-suppressive tumor microenvironment. We addressed these hurdles by developing a novel class of immunoconjugates, Antibody-Targeted Pathogen-derived Peptides (ATPPs), which were designed to efficiently deliver viral T-cell epitopes to tumors with the aim of redirecting virus-specific memory T-cells against the tumor. ATPPs were generated through covalent binding of mature MHC class I peptides to antibodies specific for cell surface-expressed tumor antigens that mediate immunoconjugate internalization. By means of a cleavable linker, the peptides are released in the endosomal compartment, from which they are loaded into MHC class I without the need for further processing. Pulsing of tumor cells with ATPPs was found to sensitize these for recognition by virus-specific CD8+ T-cells with much greater efficiency than exogenous loading with free peptides. Systemic injection of ATPPs into tumor-bearing mice enhanced the recruitment of virus-specific T-cells into the tumor and, when combined with immune checkpoint blockade, suppressed tumor growth. Our data thereby demonstrate the potential of ATPPs as a means of kick-starting the immune response against “cold” tumors and increasing the efficacy of checkpoint inhibitors.

Published

2019

15. Optimized dendritic cell vaccination induces potent CD8 T cell responses and anti-tumor effects in transgenic mouse melanoma models

Author

Mareike Grees, Adi Sharbi-Yunger, Christos Evangelou, Daniel Baumann, Gal Cafri, Esther Tzehoval, Stefan B. Eichmüller, Rienk Offringa, Jochen Utikal, Lea Eisenbach, and Viktor Umansky

Subjects

chimeric construct, dendritic cells, immunotherapy, melanoma, mhc class i, mrna, vaccination, Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Despite melanoma immunogenicity and remarkable therapeutic effects of negative immune checkpoint inhibitors, a significant fraction of patients does not respond to current treatments. This could be due to limitations in tumor immunogenicity and profound immunosuppression in the melanoma microenvironment. Moreover, insufficient tumor antigen processing and presentation by dendritic cells (DC) may hamper the development of tumor-specific T cells. Using two genetically engineered mouse melanoma models (RET and BRAFV600E transgenic mice), in which checkpoint inhibitor therapy alone is not efficacious, we performed proof-of-concept studies with an improved, multivalent DC vaccination strategy based on our recently developed genetic mRNA cancer vaccines. The in vivo expression of multiple chimeric MHC class I receptors allows a simultaneous presentation of several melanoma-associated shared antigens tyrosinase related protein (TRP)-1, tyrosinase, human glycoprotein 100 and TRP-2. The DC vaccine induced a significantly improved survival in both transgenic mouse models. Vaccinated melanoma-bearing mice displayed an increased CD8 T cell reactivity indicated by a higher IFN-γ production and an upregulation of activation marker expression along with an attenuated immunosuppressive pattern of myeloid-derived suppressor cells (MDSC) and regulatory T cells (Treg). The combination of DC vaccination with ultra-low doses of paclitaxel or anti-PD-1 antibodies resulted in further prolongation of mouse survival associated with a stronger reduction of MDSC and Treg immunosuppressive phenotype. Our data suggest that an improved multivalent DC vaccine based on shared tumor antigens induces potent anti-tumor effects and could be combined with checkpoint inhibitors or targeting immunosuppressive cells to further improve their therapeutic efficiency.

Published

2018

16. A high‐throughput RNAi screen for detection of immune‐checkpoint molecules that mediate tumor resistance to cytotoxic T lymphocytes

Author

Nisit Khandelwal, Marco Breinig, Tobias Speck, Tillmann Michels, Christiane Kreutzer, Antonio Sorrentino, Ashwini Kumar Sharma, Ludmila Umansky, Heinke Conrad, Isabel Poschke, Rienk Offringa, Rainer König, Helga Bernhard, Arthur Machlenkin, Michael Boutros, and Philipp Beckhove

Subjects

cancer immunotherapy, immune suppression, RNAi screen, Medicine (General), R5-920, Genetics, QH426-470

Abstract

Abstract The success of T cell‐based cancer immunotherapy is limited by tumor's resistance against killing by cytotoxic T lymphocytes (CTLs). Tumor‐immune resistance is mediated by cell surface ligands that engage immune‐inhibitory receptors on T cells. These ligands represent potent targets for therapeutic inhibition. So far, only few immune‐suppressive ligands have been identified. We here describe a rapid high‐throughput siRNA‐based screening approach that allows a comprehensive identification of ligands on human cancer cells that inhibit CTL‐mediated tumor cell killing. We exemplarily demonstrate that CCR9, which is expressed in many cancers, exerts strong immune‐regulatory effects on T cell responses in multiple tumors. Unlike PDL1, which inhibits TCR signaling, CCR9 regulates STAT signaling in T cells, resulting in reduced T‐helper‐1 cytokine secretion and reduced cytotoxic capacity. Moreover, inhibition of CCR9 expression on tumor cells facilitated immunotherapy of human tumors by tumor‐specific T cells in vivo. Taken together, this method allows a rapid and comprehensive determination of immune‐modulatory genes in human tumors which, as an entity, represent the ‘immune modulatome’ of cancer.

Published

2015

17. Trial Watch: Immunostimulatory monoclonal antibodies for oncological indications

Author

Mariona Cabo, Rienk Offringa, Laurence Zitvogel, Guido Kroemer, Aura Muntasell, and Lorenzo Galluzzi

Subjects

cd137, cd40, gitr, icos, ox40, pd-1, Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

The goal of cancer immunotherapy is to establish new or boost pre-existing anticancer immune responses that eradicate malignant cells while generating immunological memory to prevent disease relapse. Over the past few years, immunomodulatory monoclonal antibodies (mAbs) that block co-inhibitory receptors on immune effectors cells – such as cytotoxic T lymphocyte-associated protein 4 (CTLA4), programmed cell death 1 (PDCD1, best known as PD-1) – or their ligands – such as CD274 (best known as PD-L1) – have proven very successful in this sense. As a consequence, many of such immune checkpoint blockers (ICBs) have already entered the clinical practice for various oncological indications. Considerable attention is currently being attracted by a second group of immunomodulatory mAbs, which are conceived to activate co-stimulatory receptors on immune effector cells. Here, we discuss the mechanisms of action of these immunostimulatory mAbs and summarize recent progress in their preclinical and clinical development.

Published

2017

18. Human papillomavirus (HPV) upregulates the cellular deubiquitinase UCHL1 to suppress the keratinocyte's innate immune response.

Author

Rezaul Karim, Bart Tummers, Craig Meyers, Jennifer L Biryukov, Samina Alam, Claude Backendorf, Veena Jha, Rienk Offringa, Gert-Jan B van Ommen, Cornelis J M Melief, Daniele Guardavaccaro, Judith M Boer, and Sjoerd H van der Burg

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Persistent infection of basal keratinocytes with high-risk human papillomavirus (hrHPV) may cause cancer. Keratinocytes are equipped with different pattern recognition receptors (PRRs) but hrHPV has developed ways to dampen their signals resulting in minimal inflammation and evasion of host immunity for sustained periods of time. To understand the mechanisms underlying hrHPV's capacity to evade immunity, we studied PRR signaling in non, newly, and persistently hrHPV-infected keratinocytes. We found that active infection with hrHPV hampered the relay of signals downstream of the PRRs to the nucleus, thereby affecting the production of type-I interferon and pro-inflammatory cytokines and chemokines. This suppression was shown to depend on hrHPV-induced expression of the cellular protein ubiquitin carboxyl-terminal hydrolase L1 (UCHL1) in keratinocytes. UCHL1 accomplished this by inhibiting tumor necrosis factor receptor-associated factor 3 (TRAF3) K63 poly-ubiquitination which lead to lower levels of TRAF3 bound to TANK-binding kinase 1 and a reduced phosphorylation of interferon regulatory factor 3. Furthermore, UCHL1 mediated the degradation of the NF-kappa-B essential modulator with as result the suppression of p65 phosphorylation and canonical NF-κB signaling. We conclude that hrHPV exploits the cellular protein UCHL1 to evade host innate immunity by suppressing PRR-induced keratinocyte-mediated production of interferons, cytokines and chemokines, which normally results in the attraction and activation of an adaptive immune response. This identifies UCHL1 as a negative regulator of PRR-induced immune responses and consequently its virus-increased expression as a strategy for hrHPV to persist.

Published

2013

19. Human papillomavirus deregulates the response of a cellular network comprising of chemotactic and proinflammatory genes.

Author

Rezaul Karim, Craig Meyers, Claude Backendorf, Kristina Ludigs, Rienk Offringa, Gert-Jan B van Ommen, Cornelis J M Melief, Sjoerd H van der Burg, and Judith M Boer

Subjects

Medicine, Science

Abstract

Despite the presence of intracellular pathogen recognition receptors that allow infected cells to attract the immune system, undifferentiated keratinocytes (KCs) are the main targets for latent infection with high-risk human papilloma viruses (hrHPVs). HPV infections are transient but on average last for more than one year suggesting that HPV has developed means to evade host immunity. To understand how HPV persists, we studied the innate immune response of undifferentiated human KCs harboring episomal copies of HPV16 and 18 by genome-wide expression profiling. Our data showed that the expression of the different virus-sensing receptors was not affected by the presence of HPV. Poly(I:C) stimulation of the viral RNA receptors TLR3, PKR, MDA5 and RIG-I, the latter of which indirectly senses viral DNA through non-self RNA polymerase III transcripts, showed dampening in downstream signalling of these receptors by HPVs. Many of the genes downregulated in HPV-positive KCs involved components of the antigen presenting pathway, the inflammasome, the production of antivirals, pro-inflammatory and chemotactic cytokines, and components downstream of activated pathogen receptors. Notably, gene and/or protein interaction analysis revealed the downregulation of a network of genes that was strongly interconnected by IL-1β, a crucial cytokine to activate adaptive immunity. In summary, our comprehensive expression profiling approach revealed that HPV16 and 18 coordinate a broad deregulation of the keratinocyte's inflammatory response, and contributes to the understanding of virus persistence.

Published

2011

20. Supplementary Table from Timed Ang2-Targeted Therapy Identifies the Angiopoietin–Tie Pathway as Key Regulator of Fatal Lymphogenous Metastasis

Author

Hellmut G. Augustin, Sudhakar R. Chintharlapalli, Rienk Offringa, Matthias Schlesner, Junhao Hu, Moritz Felcht, Jochen Utikal, Stephanie Gehrs, Daniel Baumann, Claudine Fricke, Eva Besemfelder, Ashik Ahmed Abdul Pari, Laura Milde, Ling Hai, Carolin Mogler, Mahak Singhal, and Nicolas Gengenbacher

Abstract

Table S1

Published

2023

21. Supplementary Figures from Timed Ang2-Targeted Therapy Identifies the Angiopoietin–Tie Pathway as Key Regulator of Fatal Lymphogenous Metastasis

Author

Hellmut G. Augustin, Sudhakar R. Chintharlapalli, Rienk Offringa, Matthias Schlesner, Junhao Hu, Moritz Felcht, Jochen Utikal, Stephanie Gehrs, Daniel Baumann, Claudine Fricke, Eva Besemfelder, Ashik Ahmed Abdul Pari, Laura Milde, Ling Hai, Carolin Mogler, Mahak Singhal, and Nicolas Gengenbacher

Abstract

Supplementary Figures S1 - S28

Published

2023

22. Data from Timed Ang2-Targeted Therapy Identifies the Angiopoietin–Tie Pathway as Key Regulator of Fatal Lymphogenous Metastasis

Author

Hellmut G. Augustin, Sudhakar R. Chintharlapalli, Rienk Offringa, Matthias Schlesner, Junhao Hu, Moritz Felcht, Jochen Utikal, Stephanie Gehrs, Daniel Baumann, Claudine Fricke, Eva Besemfelder, Ashik Ahmed Abdul Pari, Laura Milde, Ling Hai, Carolin Mogler, Mahak Singhal, and Nicolas Gengenbacher

Abstract

Recent clinical and preclinical advances have highlighted the existence of a previously hypothesized lymphogenous route of metastasis. However, due to a lack of suitable preclinical modeling tools, its contribution to long-term disease outcome and relevance for therapy remain controversial. Here, we established a genetically engineered mouse model (GEMM) fragment–based tumor model uniquely sustaining a functional network of intratumoral lymphatics that facilitates seeding of fatal peripheral metastases. Multiregimen survival studies and correlative patient data identified primary tumor–derived Angiopoietin-2 (Ang2) as a potent therapeutic target to restrict lymphogenous tumor cell dissemination. Mechanistically, tumor-associated lymphatic endothelial cells (EC), in contrast to blood vascular EC, were found to be critically addicted to the Angiopoietin–Tie pathway. Genetic manipulation experiments in combination with single-cell mapping revealed agonistically acting Ang2–Tie2 signaling as key regulator of lymphatic maintenance. Correspondingly, acute presurgical Ang2 neutralization was sufficient to prolong survival by regressing established intratumoral lymphatics, hence identifying a therapeutic regimen that warrants further clinical evaluation.Significance:Exploiting multiple mouse tumor models including a unique GEMM-derived allograft system in combination with preclinical therapy designs closely matching the human situation, this study provides fundamental insight into the biology of tumor-associated lymphatic EC and defines an innovative presurgical therapeutic window of migrastatic Ang2 neutralization to restrict lymphogenous metastasis.This article is highlighted in the In This Issue feature, p. 211

Published

2023

23. Supplementary Figure 3 from The Outcome of Ex Vivo TIL Expansion Is Highly Influenced by Spatial Heterogeneity of the Tumor T-Cell Repertoire and Differences in Intrinsic In Vitro Growth Capacity between T-Cell Clones

Author

Rienk Offringa, Oliver Strobel, Michael Flossdorf, Frank Bergmann, Rolf Kiessling, Joost van den Berg, John B.A.G. Haanen, Anna-Katharina König, Jasmin Roth, Claudia Lauenstein, Stina L. Wickström, Tanja Lövgren, Johanna Lehmann, Lena M. Appel, Ignacio Heras-Murillo, Katharina A.M. Lindner, Aaron Rodriguez-Ehrenfried, Jessica C. Hassel, and Isabel C. Poschke

Abstract

Supplemental Figure 3: Patterns of clonal shifts during early and late phase of in vitro TIL expansion

Published

2023

24. Data from The Outcome of Ex Vivo TIL Expansion Is Highly Influenced by Spatial Heterogeneity of the Tumor T-Cell Repertoire and Differences in Intrinsic In Vitro Growth Capacity between T-Cell Clones

Author

Rienk Offringa, Oliver Strobel, Michael Flossdorf, Frank Bergmann, Rolf Kiessling, Joost van den Berg, John B.A.G. Haanen, Anna-Katharina König, Jasmin Roth, Claudia Lauenstein, Stina L. Wickström, Tanja Lövgren, Johanna Lehmann, Lena M. Appel, Ignacio Heras-Murillo, Katharina A.M. Lindner, Aaron Rodriguez-Ehrenfried, Jessica C. Hassel, and Isabel C. Poschke

Abstract

Purpose:During our efforts to develop tumor-infiltrating lymphocyte (TIL) therapy to counter the devastating recurrence rate in patients with primary resectable pancreatic ductal adenocarcinoma (PDA), we found that PDA TILs can readily be expanded in vitro and that the majority of resulting TIL cultures show reactivity against the autologous tumor. However, the fraction of tumor-reactive T cells is low. We investigated to which extent this was related to the in vitro expansion.Experimental Design:We compared the clonal composition of TIL preparations before and after in vitro expansion using T-cell receptor (TCR) deep sequencing. Our findings for PDA were benchmarked to experiments with melanoma TILs.Results:We found that the TIL TCR repertoire changes dramatically during in vitro expansion, leading to loss of tumor- dominant T-cell clones and overgrowth by newly emerging T-cell clones that are barely detectable in the tumor. These changes are primarily driven by differences in the intrinsic in vitro expansion capacity of T-cell clones. Single-cell experiments showed an association between poor proliferative capacity and expression of markers related to antigen experience and dysfunction. Furthermore, we found that spatial heterogeneity of the TIL repertoire resulted in TCR repertoires that are greatly divergent between TIL cultures derived from distant tumor samples of the same patient.Conclusions:Culture-induced changes in clonal composition are likely to affect tumor reactivity of TIL preparations. TCR deep sequencing provides important insights into the factors that govern the outcome of in vitro TIL expansion and thereby a path toward optimization of the production of TIL preparations with high therapeutic efficacy.See related commentary by Lozano-Rabella and Gros, p. 4177

Published

2023

25. Supplementary Figure 5 from The Outcome of Ex Vivo TIL Expansion Is Highly Influenced by Spatial Heterogeneity of the Tumor T-Cell Repertoire and Differences in Intrinsic In Vitro Growth Capacity between T-Cell Clones

Author

Rienk Offringa, Oliver Strobel, Michael Flossdorf, Frank Bergmann, Rolf Kiessling, Joost van den Berg, John B.A.G. Haanen, Anna-Katharina König, Jasmin Roth, Claudia Lauenstein, Stina L. Wickström, Tanja Lövgren, Johanna Lehmann, Lena M. Appel, Ignacio Heras-Murillo, Katharina A.M. Lindner, Aaron Rodriguez-Ehrenfried, Jessica C. Hassel, and Isabel C. Poschke

Abstract

Supplemental Figure 5: Intratumoral and intra-patient heterogeneity of the PDA and melanoma TIL TCR repertoire

Published

2023

26. Supplementary Figure 7 from The Outcome of Ex Vivo TIL Expansion Is Highly Influenced by Spatial Heterogeneity of the Tumor T-Cell Repertoire and Differences in Intrinsic In Vitro Growth Capacity between T-Cell Clones

Author

Rienk Offringa, Oliver Strobel, Michael Flossdorf, Frank Bergmann, Rolf Kiessling, Joost van den Berg, John B.A.G. Haanen, Anna-Katharina König, Jasmin Roth, Claudia Lauenstein, Stina L. Wickström, Tanja Lövgren, Johanna Lehmann, Lena M. Appel, Ignacio Heras-Murillo, Katharina A.M. Lindner, Aaron Rodriguez-Ehrenfried, Jessica C. Hassel, and Isabel C. Poschke

Abstract

Supplemental Figure 7: Schematic representation of TIL repertoire in different tumor samples from the same patient and the result of ex vivo TIL expansion.

Published

2023

27. Data from Prevailing Role of Contact Guidance in Intrastromal T-cell Trapping in Human Pancreatic Cancer

Author

Eduard Ryschich, Jens Werner, Rienk Offringa, Isabel Poschke, Thomas Giese, Nathalia A. Giese, and Natalie Hartmann

Abstract

Purpose: Pancreatic ductal adenocarcinoma (PDAC) is characterized by extensive collagen-rich stroma. T cells that infiltrate pancreatic cancers frequently become trapped in the stroma and do not contact tumor cells. Here, we aimed to analyze how chemokines and extracellular matrix (ECM) collagen interact in mediating T-cell infiltration in PDAC.Experimental Design: T-cell distribution and ECM structure within tumors were analyzed. Chemokine concentrations in human PDAC were compared with the levels of immune cell infiltration. We assessed the influences of selected chemokines and collagen on directed and random T-cell movement using in vitro migration systems.Results: PDAC overproduced several T-cell-active chemokines, but their levels were not correlated with intratumoral T-cell infiltration. In the absence of collagen, directed migration of activated T cells was induced by chemokines. Interestingly, collagen itself promoted high migratory activity of T cells, but completely abolished chemokine-guided movement. This effect was not altered by a β1-integrin blocking antibody. Activated T cells actively migrated in low-density collagen matrices, but migration was inhibited in dense collagen. Accordingly, T cells were heterogeneously distributed in the pancreatic cancer stroma, with the majority residing in areas of low-density collagen far from tumor clusters.Conclusion: The excessive desmoplasia in PDAC promotes T-cell migration by contact guidance, which abrogates tumor cell–directed movement. Furthermore, dense collagen networks represent a physical barrier, additionally rearranging T-cell distribution to favor tumor stroma. These mechanisms are mainly responsible for intrastromal T-cell trapping in pancreatic cancer and may hinder the development of T-cell–based immunotherapies. Clin Cancer Res; 20(13); 3422–33. ©2014 AACR.

Published

2023

28. Supplementary Table 1 from The Outcome of Ex Vivo TIL Expansion Is Highly Influenced by Spatial Heterogeneity of the Tumor T-Cell Repertoire and Differences in Intrinsic In Vitro Growth Capacity between T-Cell Clones

Author

Rienk Offringa, Oliver Strobel, Michael Flossdorf, Frank Bergmann, Rolf Kiessling, Joost van den Berg, John B.A.G. Haanen, Anna-Katharina König, Jasmin Roth, Claudia Lauenstein, Stina L. Wickström, Tanja Lövgren, Johanna Lehmann, Lena M. Appel, Ignacio Heras-Murillo, Katharina A.M. Lindner, Aaron Rodriguez-Ehrenfried, Jessica C. Hassel, and Isabel C. Poschke

Abstract

Supplementary Table 1

Published

2023

29. Supplementary Figure 2 from The Outcome of Ex Vivo TIL Expansion Is Highly Influenced by Spatial Heterogeneity of the Tumor T-Cell Repertoire and Differences in Intrinsic In Vitro Growth Capacity between T-Cell Clones

Author

Rienk Offringa, Oliver Strobel, Michael Flossdorf, Frank Bergmann, Rolf Kiessling, Joost van den Berg, John B.A.G. Haanen, Anna-Katharina König, Jasmin Roth, Claudia Lauenstein, Stina L. Wickström, Tanja Lövgren, Johanna Lehmann, Lena M. Appel, Ignacio Heras-Murillo, Katharina A.M. Lindner, Aaron Rodriguez-Ehrenfried, Jessica C. Hassel, and Isabel C. Poschke

Abstract

Supplemental Figure 2: Tumor antigen reactivity is associated with CD8 +CCR7 -CD45RA-PD-1high cells

Published

2023

30. Supplementary Figure 4 from The Outcome of Ex Vivo TIL Expansion Is Highly Influenced by Spatial Heterogeneity of the Tumor T-Cell Repertoire and Differences in Intrinsic In Vitro Growth Capacity between T-Cell Clones

Author

Rienk Offringa, Oliver Strobel, Michael Flossdorf, Frank Bergmann, Rolf Kiessling, Joost van den Berg, John B.A.G. Haanen, Anna-Katharina König, Jasmin Roth, Claudia Lauenstein, Stina L. Wickström, Tanja Lövgren, Johanna Lehmann, Lena M. Appel, Ignacio Heras-Murillo, Katharina A.M. Lindner, Aaron Rodriguez-Ehrenfried, Jessica C. Hassel, and Isabel C. Poschke

Abstract

Supplemental Figure 4: TIL expansion is influenced by the use of feeder cells

Published

2023

31. Supplementary Figure 1 from Prevailing Role of Contact Guidance in Intrastromal T-cell Trapping in Human Pancreatic Cancer

Author

Eduard Ryschich, Jens Werner, Rienk Offringa, Isabel Poschke, Thomas Giese, Nathalia A. Giese, and Natalie Hartmann

Abstract

PDF file - 53KB, Phenotype of non-activated and activated T cells, representative FACS data of CD45RO/CCR7 (A) and CRs expression (B). Activated PBT displayed an effector/memory CD45RO+ CCR7- phenotype (A) and mainly expressed CXCR4 and CXCR3 (B).

Published

2023

32. Supplementary Methods from The Outcome of Ex Vivo TIL Expansion Is Highly Influenced by Spatial Heterogeneity of the Tumor T-Cell Repertoire and Differences in Intrinsic In Vitro Growth Capacity between T-Cell Clones

Author

Rienk Offringa, Oliver Strobel, Michael Flossdorf, Frank Bergmann, Rolf Kiessling, Joost van den Berg, John B.A.G. Haanen, Anna-Katharina König, Jasmin Roth, Claudia Lauenstein, Stina L. Wickström, Tanja Lövgren, Johanna Lehmann, Lena M. Appel, Ignacio Heras-Murillo, Katharina A.M. Lindner, Aaron Rodriguez-Ehrenfried, Jessica C. Hassel, and Isabel C. Poschke

Abstract

Supplementary Methods

Published

2023

33. Supplementary Figure 1 from The Outcome of Ex Vivo TIL Expansion Is Highly Influenced by Spatial Heterogeneity of the Tumor T-Cell Repertoire and Differences in Intrinsic In Vitro Growth Capacity between T-Cell Clones

Author

Rienk Offringa, Oliver Strobel, Michael Flossdorf, Frank Bergmann, Rolf Kiessling, Joost van den Berg, John B.A.G. Haanen, Anna-Katharina König, Jasmin Roth, Claudia Lauenstein, Stina L. Wickström, Tanja Lövgren, Johanna Lehmann, Lena M. Appel, Ignacio Heras-Murillo, Katharina A.M. Lindner, Aaron Rodriguez-Ehrenfried, Jessica C. Hassel, and Isabel C. Poschke

Abstract

Supplemental Figure 1: TIL expansion is reproducible

Published

2023

34. Supplementary Figure 2 from Prevailing Role of Contact Guidance in Intrastromal T-cell Trapping in Human Pancreatic Cancer

Author

Eduard Ryschich, Jens Werner, Rienk Offringa, Isabel Poschke, Thomas Giese, Nathalia A. Giese, and Natalie Hartmann

Abstract

PDF file - 44KB, T cell migration in response to SDF-1 and IP-10 in collagen matrix of different densities with and without beta1-integrin blockade. Migration of activated PBTs in a collagen type I matrix was not changed through the uniform chemokine concentration and was independent of beta1-integrin blockade.

Published

2023

35. Supplementary Table 2 from The Outcome of Ex Vivo TIL Expansion Is Highly Influenced by Spatial Heterogeneity of the Tumor T-Cell Repertoire and Differences in Intrinsic In Vitro Growth Capacity between T-Cell Clones

Author

Rienk Offringa, Oliver Strobel, Michael Flossdorf, Frank Bergmann, Rolf Kiessling, Joost van den Berg, John B.A.G. Haanen, Anna-Katharina König, Jasmin Roth, Claudia Lauenstein, Stina L. Wickström, Tanja Lövgren, Johanna Lehmann, Lena M. Appel, Ignacio Heras-Murillo, Katharina A.M. Lindner, Aaron Rodriguez-Ehrenfried, Jessica C. Hassel, and Isabel C. Poschke

Abstract

Supplementary Table 2

Published

2023

36. Supplementary Figure Legends 1-6 from Design of Agonistic Altered Peptides for the Robust Induction of CTL Directed towards H-2Db in Complex with the Melanoma-Associated Epitope gp100

Author

Adnane Achour, Thorbald van Hall, Rienk Offringa, Marjolein Sluijter, Daniel Badia-Martinez, and Marianne J.B. van Stipdonk

Abstract

Supplementary Figure Legends 1-6 from Design of Agonistic Altered Peptides for the Robust Induction of CTL Directed towards H-2Db in Complex with the Melanoma-Associated Epitope gp100

Published

2023

37. Supplementary Table 1 from Design of Agonistic Altered Peptides for the Robust Induction of CTL Directed towards H-2Db in Complex with the Melanoma-Associated Epitope gp100

Author

Adnane Achour, Thorbald van Hall, Rienk Offringa, Marjolein Sluijter, Daniel Badia-Martinez, and Marianne J.B. van Stipdonk

Abstract

Supplementary Table 1 from Design of Agonistic Altered Peptides for the Robust Induction of CTL Directed towards H-2Db in Complex with the Melanoma-Associated Epitope gp100

Published

2023

38. Supplementary Figure 2 from Design of Agonistic Altered Peptides for the Robust Induction of CTL Directed towards H-2Db in Complex with the Melanoma-Associated Epitope gp100

Author

Adnane Achour, Thorbald van Hall, Rienk Offringa, Marjolein Sluijter, Daniel Badia-Martinez, and Marianne J.B. van Stipdonk

Abstract

Supplementary Figure 2 from Design of Agonistic Altered Peptides for the Robust Induction of CTL Directed towards H-2Db in Complex with the Melanoma-Associated Epitope gp100

Published

2023

39. Supplementary Figure 1 from Design of Agonistic Altered Peptides for the Robust Induction of CTL Directed towards H-2Db in Complex with the Melanoma-Associated Epitope gp100

Author

Adnane Achour, Thorbald van Hall, Rienk Offringa, Marjolein Sluijter, Daniel Badia-Martinez, and Marianne J.B. van Stipdonk

Abstract

Supplementary Figure 1 from Design of Agonistic Altered Peptides for the Robust Induction of CTL Directed towards H-2Db in Complex with the Melanoma-Associated Epitope gp100

Published

2023

40. Data from Design of Agonistic Altered Peptides for the Robust Induction of CTL Directed towards H-2Db in Complex with the Melanoma-Associated Epitope gp100

Author

Adnane Achour, Thorbald van Hall, Rienk Offringa, Marjolein Sluijter, Daniel Badia-Martinez, and Marianne J.B. van Stipdonk

Abstract

Immunogenicity of tumor-associated antigens (TAA) is often weak because many TAA are autoantigens for which the T-cell repertoire is sculpted by tolerance mechanisms. Substitutions at main anchor positions to increase the complementarity between the peptide and the MHC class I (MHC-I) binding cleft constitute a common procedure to improve binding capacity and immunogenicity of TAA. However, such alterations are tailored for each MHC-I allele and may recruit different CTL specificities through conformational changes in the targeted peptides. Comparative analysis of substituted melanoma-differentiation antigen gp100 in complex with H-2Db revealed that combined introduction of glycine and proline residues at the nonanchor positions 2 and 3, respectively, resulted in an agonistic altered peptide with dramatically enhanced binding affinity, stability, and immunogenicity of this TAA. Peptide vaccination using the p2Gp3P-altered peptide version of gp100 induced high frequencies of melanoma-specific CTL in the endogenous CD8+ repertoire. Crystal structure analysis of MHC/peptide complexes revealed that the conformation of the modified p2Gp3P-peptide was similar to the wild-type peptide, and indicated that this mimotope was stabilized through interactions between peptide residue p3P and the tyrosine residue Y159 that is conserved among most known MHC-I molecules throughout mammalian species. Our results may provide an alternative approach to enhance MHC stabilization capacity and immunogenicity of low-affinity peptides for induction of robust tumor-specific CTL. [Cancer Res 2009;69(19):7784–92]

Published

2023

41. Supplementary Figure 3 from Design of Agonistic Altered Peptides for the Robust Induction of CTL Directed towards H-2Db in Complex with the Melanoma-Associated Epitope gp100

Author

Adnane Achour, Thorbald van Hall, Rienk Offringa, Marjolein Sluijter, Daniel Badia-Martinez, and Marianne J.B. van Stipdonk

Abstract

Supplementary Figure 3 from Design of Agonistic Altered Peptides for the Robust Induction of CTL Directed towards H-2Db in Complex with the Melanoma-Associated Epitope gp100

Published

2023

42. Supplementary Figure 4 from Design of Agonistic Altered Peptides for the Robust Induction of CTL Directed towards H-2Db in Complex with the Melanoma-Associated Epitope gp100

Author

Adnane Achour, Thorbald van Hall, Rienk Offringa, Marjolein Sluijter, Daniel Badia-Martinez, and Marianne J.B. van Stipdonk

Abstract

Supplementary Figure 4 from Design of Agonistic Altered Peptides for the Robust Induction of CTL Directed towards H-2Db in Complex with the Melanoma-Associated Epitope gp100

Published

2023

43. Supplementary Figure 6 from Design of Agonistic Altered Peptides for the Robust Induction of CTL Directed towards H-2Db in Complex with the Melanoma-Associated Epitope gp100

Author

Adnane Achour, Thorbald van Hall, Rienk Offringa, Marjolein Sluijter, Daniel Badia-Martinez, and Marianne J.B. van Stipdonk

Abstract

Supplementary Figure 6 from Design of Agonistic Altered Peptides for the Robust Induction of CTL Directed towards H-2Db in Complex with the Melanoma-Associated Epitope gp100

Published

2023

44. Supplementary Figure 5 from Design of Agonistic Altered Peptides for the Robust Induction of CTL Directed towards H-2Db in Complex with the Melanoma-Associated Epitope gp100

Author

Adnane Achour, Thorbald van Hall, Rienk Offringa, Marjolein Sluijter, Daniel Badia-Martinez, and Marianne J.B. van Stipdonk

Abstract

Supplementary Figure 5 from Design of Agonistic Altered Peptides for the Robust Induction of CTL Directed towards H-2Db in Complex with the Melanoma-Associated Epitope gp100

Published

2023

45. Incorporation of TRDV segments into TCR alpha chains

Author

Michael Volkmar, Elham Fakhr, Stefan Zens, Rienk Offringa, Alice Bury, Jessica Gordon, Enes Huduti, Thomas Wölfel, and Catherine Wölfel

Abstract

In human tumor models we tried to identify and clone the TCR of tumor-reactive T cells enriched in mixed lymphocyte tumor-cell cultures (MLTC). In a particular MLTC, we identified a predominant TCR beta chain using the Beta Mark Vbeta Kit, but a corresponding alpha chain could not be amplified via RT-PCR usingTRAV-specific forward primers. Therefore, we applied 5’RACE to obtain the TCR alpha chain sequences. The 5’RACE product revealed an alpha chain that encompassed 89bp of theTRDV15’UTR, followed by theTRDV1coding sequence joined in frame toTRAJ24. The ORF reaching from theTRDV1start codon to theTRACsegment was intact, suggesting a functional TCR. To analyze this MLTC population in greater depth we conducted 10X VDJ sequencing. CellRanger identified the beta chain known from the Beta Mark analysis, but no corresponding alpha chain in the filtered results. The corresponding TRDV-containing TCR alpha chain could, however, be detected in the “all_contig_annotations” files.In a separate project, we performed TCR sequencing of tumor-infiltrating lymphocytes (TILs) in a murine tumor model. Also here, a predominant clonotype contained a TCR alpha chain joiningTrdv2-2in frame toTraj49.Transfection of both TCR cDNAs resulted in cell surface localization of TCR and CD3 as validated by FACS. Tumor recognition of the human, TRDV1-containing TCR could be demonstrated by IFNgamma ELISpot whereas the murine TCR did not recognize a tumor-derived cell line.TRDV-containing alpha chains have been reported in the literature for two HLA I-restricted TCRs against HIV peptides (Ueno et al, Eur J Immunol, 2003). To determine whether such TDRV-containing TCRs are unique events or whether Vdelta segments are commonly incorporated into TCR alpha chains, we queried the NCBI Sequence Read Archive (SRA) for 10X VDJ data and analyzed 21 human and 23 murine datasets. We found that especiallyTRDV1, Trdv1and to some extentTrdv2-2are more commonly incorporated into TCR alpha chains than someTRAVgenes, making theTRDVsegments a relevant contribution to TCR alpha diversity.For apparently solitary beta chains in 10X VDJ datasets, we suggest to scrutinize the “all_contig_annotations” files as these may contain an accompanying, TRDV-containing alpha chain.

Published

2023

46. The expanding role for small molecules in immuno-oncology

Author

Rienk Offringa, Lisa Kötzner, Bayard Huck, and Klaus Urbahns

Subjects

Pharmacology, Neoplasms, T-Lymphocytes, Drug Discovery, Tumor Microenvironment, Humans, Cytokines, General Medicine, Immunotherapy

Abstract

The advent of immune checkpoint inhibition (ICI) using antibodies against PD1 and its ligand PDL1 has prompted substantial efforts to develop complementary drugs. Although many of these are antibodies directed against additional checkpoint proteins, there is an increasing interest in small-molecule immuno-oncology drugs that address intracellular pathways, some of which have recently entered clinical trials. In parallel, small molecules that target pro-tumorigenic pathways in cancer cells and the tumour microenvironment have been found to have immunostimulatory effects that synergize with the action of ICI antibodies, leading to the approval of an increasing number of regimens that combine such drugs. Combinations with small molecules targeting cancer metabolism, cytokine/chemokine and innate immune pathways, and T cell checkpoints are now under investigation. This Review discusses the recent milestones and hurdles encountered in this area of drug development, as well as our views on the best path forward.

Published

2022

47. Timed Ang2-Targeted Therapy Identifies the Angiopoietin–Tie Pathway as Key Regulator of Fatal Lymphogenous Metastasis

Author

Ling Hai, Matthias Schlesner, Stephanie Gehrs, Nicolas Gengenbacher, Daniel Baumann, Mahak Singhal, Rienk Offringa, Sudhakar Chintharlapalli, Hellmut G. Augustin, Junhao Hu, Claudine Fricke, Ashik Ahmed Abdul Pari, Jochen Utikal, Laura Milde, Moritz Felcht, Eva Besemfelder, and Carolin Mogler

Subjects

0301 basic medicine, Lung Neoplasms, medicine.medical_treatment, government.form_of_government, Regulator, Mice, Transgenic, Mice, SCID, Metastasis, Targeted therapy, Angiopoietin-2, Functional networks, Angiopoietin, Mice, 03 medical and health sciences, 0302 clinical medicine, medicine, Animals, Humans, ddc:610, business.industry, Endothelial Cells, medicine.disease, Receptor, TIE-2, Mice, Inbred C57BL, Disease Models, Animal, Lymphatic Endothelium, 030104 developmental biology, Lymphatic system, Oncology, Lymphatic Metastasis, 030220 oncology & carcinogenesis, Genetically Engineered Mouse, Cancer research, government, Female, business, Signal Transduction

Abstract

Recent clinical and preclinical advances have highlighted the existence of a previously hypothesized lymphogenous route of metastasis. However, due to a lack of suitable preclinical modeling tools, its contribution to long-term disease outcome and relevance for therapy remain controversial. Here, we established a genetically engineered mouse model (GEMM) fragment–based tumor model uniquely sustaining a functional network of intratumoral lymphatics that facilitates seeding of fatal peripheral metastases. Multiregimen survival studies and correlative patient data identified primary tumor–derived Angiopoietin-2 (Ang2) as a potent therapeutic target to restrict lymphogenous tumor cell dissemination. Mechanistically, tumor-associated lymphatic endothelial cells (EC), in contrast to blood vascular EC, were found to be critically addicted to the Angiopoietin–Tie pathway. Genetic manipulation experiments in combination with single-cell mapping revealed agonistically acting Ang2–Tie2 signaling as key regulator of lymphatic maintenance. Correspondingly, acute presurgical Ang2 neutralization was sufficient to prolong survival by regressing established intratumoral lymphatics, hence identifying a therapeutic regimen that warrants further clinical evaluation. Significance: Exploiting multiple mouse tumor models including a unique GEMM-derived allograft system in combination with preclinical therapy designs closely matching the human situation, this study provides fundamental insight into the biology of tumor-associated lymphatic EC and defines an innovative presurgical therapeutic window of migrastatic Ang2 neutralization to restrict lymphogenous metastasis. This article is highlighted in the In This Issue feature, p. 211

Published

2021

48. Photon versus carbon ion irradiation: immunomodulatory effects exerted on murine tumor cell lines

Author

Philipp Schröter, Jürgen Debus, Laura Hartmann, Stephan Brons, Wolfram Osen, Daniel Baumann, Stefan Rieken, Rienk Offringa, Mahmoud Moustafa, Stefan B. Eichmüller, and Rainer Will

Subjects

Cell cycle checkpoint, Cell Survival, Science, Apoptosis, Heavy Ion Radiotherapy, Article, Immunomodulation, Mice, Breast cancer, Cell Line, Tumor, Cytotoxic T cell, Animals, Humans, Irradiation, Photons, Multidisciplinary, Radiotherapy, Chemistry, Dose-Response Relationship, Radiation, Pancreatic cancer, Cell Cycle Checkpoints, Carbon, Pancreatic Neoplasms, Cytolysis, CTL, Cell culture, Cancer cell, Cancer research, Carbon Ion Radiotherapy, Tumour immunology, Medicine

Abstract

While for photon radiation hypofractionation has been reported to induce enhanced immunomodulatory effects, little is known about the immunomodulatory potential of carbon ion radiotherapy (CIRT). We thus compared the radio-immunogenic effects of photon and carbon ion irradiation on two murine cancer cell lines of different tumor entities. We first calculated the biological equivalent doses of carbon ions corresponding to photon doses of 1, 3, 5, and 10 Gy of the murine breast cancer cell line EO771 and the OVA-expressing pancreatic cancer cell line PDA30364/OVA by clonogenic survival assays. We compared the potential of photon and carbon ion radiation to induce cell cycle arrest, altered surface expression of immunomodulatory molecules and changes in the susceptibility of cancer cells to cytotoxic T cell (CTL) mediated killing. Irradiation induced a dose-dependent G2/M arrest in both cell lines irrespective from the irradiation source applied. Likewise, surface expression of the immunomodulatory molecules PD-L1, CD73, H2-Db and H2-Kb was increased in a dose-dependent manner. Both radiation modalities enhanced the susceptibility of tumor cells to CTL lysis, which was more pronounced in EO771/Luci/OVA cells than in PDA30364/OVA cells. Overall, compared to photon radiation, the effects of carbon ion radiation appeared to be enhanced at higher dose range for EO771 cells and extenuated at lower dose range for PDA30364/OVA cells. Our data show for the first time that equivalent doses of carbon ion and photon irradiation exert similar immunomodulating effects on the cell lines of both tumor entities, highlighted by an enhanced susceptibility to CTL mediated cytolysis in vitro.

Published

2020

49. The Outcome of Ex Vivo TIL Expansion Is Highly Influenced by Spatial Heterogeneity of the Tumor T-Cell Repertoire and Differences in Intrinsic In Vitro Growth Capacity between T-Cell Clones

Author

Rienk Offringa, Frank Bergmann, Claudia Lauenstein, Aaron Rodriguez-Ehrenfried, Stina L. Wickström, Michael Flossdorf, Anna-Katharina König, John B. A. G. Haanen, Ignacio Heras-Murillo, Lena M. Appel, Jasmin Roth, Oliver Strobel, Rolf Kiessling, Jessica C. Hassel, Tanja Lövgren, Joost H. van den Berg, Johanna Lehmann, Isabel Poschke, and Katharina A.M. Lindner

Subjects

0301 basic medicine, Cancer Research, Melanoma, T cell, T-cell receptor, Cell, hemic and immune systems, chemical and pharmacologic phenomena, Biology, medicine.disease, In vitro, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, Oncology, Antigen, 030220 oncology & carcinogenesis, medicine, Cancer research, Receptor, Ex vivo

Abstract

Purpose: During our efforts to develop tumor-infiltrating lymphocyte (TIL) therapy to counter the devastating recurrence rate in patients with primary resectable pancreatic ductal adenocarcinoma (PDA), we found that PDA TILs can readily be expanded in vitro and that the majority of resulting TIL cultures show reactivity against the autologous tumor. However, the fraction of tumor-reactive T cells is low. We investigated to which extent this was related to the in vitro expansion. Experimental Design: We compared the clonal composition of TIL preparations before and after in vitro expansion using T-cell receptor (TCR) deep sequencing. Our findings for PDA were benchmarked to experiments with melanoma TILs. Results: We found that the TIL TCR repertoire changes dramatically during in vitro expansion, leading to loss of tumor- dominant T-cell clones and overgrowth by newly emerging T-cell clones that are barely detectable in the tumor. These changes are primarily driven by differences in the intrinsic in vitro expansion capacity of T-cell clones. Single-cell experiments showed an association between poor proliferative capacity and expression of markers related to antigen experience and dysfunction. Furthermore, we found that spatial heterogeneity of the TIL repertoire resulted in TCR repertoires that are greatly divergent between TIL cultures derived from distant tumor samples of the same patient. Conclusions: Culture-induced changes in clonal composition are likely to affect tumor reactivity of TIL preparations. TCR deep sequencing provides important insights into the factors that govern the outcome of in vitro TIL expansion and thereby a path toward optimization of the production of TIL preparations with high therapeutic efficacy. See related commentary by Lozano-Rabella and Gros, p. 4177

Published

2020

50. Proimmunogenic impact of MEK inhibition synergizes with agonist anti-CD40 immunostimulatory antibodies in tumor therapy

Author

Michael Volkmar, Jennifer Drebant, Susann Wendler, Corinna Schumacher, Daniel Baumann, Rienk Offringa, Julian Mochayedi, Julia Han Noll, Irena Nickel, Sven Blobner, Tanja Hägele, Sophie L. Boos, Aline Sophie Daniel, Caroline Vent, and Oliver Strobel

Subjects

0301 basic medicine, MAPK/ERK pathway, Male, T-Lymphocytes, cytostatic agents, General Physics and Astronomy, Biomarkers, Pharmacological, Mice, 0302 clinical medicine, Antineoplastic Combined Chemotherapy Protocols, CD40, lcsh:Science, agonist, Multidisciplinary, biology, Kinase, Chemistry, Antibodies, Monoclonal, Drug Synergism, 030220 oncology & carcinogenesis, MEK inhibition, medicine.symptom, Carcinoma, Pancreatic Ductal, Agonist, medicine.drug_class, Cell Survival, Science, Adenocarcinoma, Article, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Cell Line, Tumor, immunogenic cell death, medicine, Animals, Humans, CD40 Antigens, Protein Kinase Inhibitors, Cell Proliferation, Mitogen-Activated Protein Kinase Kinases, Tumor microenvironment, cancer immunotherapy, Gene Expression Profiling, Macrophages, Pancreatic cancer, General Chemistry, Dendritic Cells, immune checkpoint blockade, Microreview, MAPK, Immune checkpoint, Mice, Inbred C57BL, 030104 developmental biology, Mechanism of action, biology.protein, Myeloid-derived Suppressor Cell, Cancer research, lcsh:Q, Transcriptome, combinatorial immunotherapy

Abstract

Cancer types with lower mutational load and a non-permissive tumor microenvironment are intrinsically resistant to immune checkpoint blockade. While the combination of cytostatic drugs and immunostimulatory antibodies constitutes an attractive concept for overcoming this refractoriness, suppression of immune cell function by cytostatic drugs may limit therapeutic efficacy. Here we show that targeted inhibition of mitogen-activated protein kinase (MAPK) kinase (MEK) does not impair dendritic cell-mediated T cell priming and activation. Accordingly, combining MEK inhibitors (MEKi) with agonist antibodies (Abs) targeting the immunostimulatory CD40 receptor results in potent synergistic antitumor efficacy. Detailed analysis of the mechanism of action of MEKi shows that this drug exerts multiple pro-immunogenic effects, including the suppression of M2-type macrophages, myeloid derived suppressor cells and T-regulatory cells. The combination of MEK inhibition with agonist anti-CD40 Ab is therefore a promising therapeutic concept, especially for the treatment of mutant Kras-driven tumors such as pancreatic ductal adenocarcinoma., Immune checkpoint inhibitors have limited efficacy in tumors with lower mutational burden and non-permissive microenvironment. Here, the authors show that combining MEK inhibition with an agonist anti-CD40 immunostimulatory antibody improves antitumor treatment by inducing immunogenic changes in the tumor microenvironment.

Published

2020