Dissection of single-cell landscapes for the development of chimeric antigen receptor T cells in Hodgkin lymphoma

Adrian Gottschlich; Ruth Grünmeier; Gordon Victor Hoffmann; Sayantan Nandi; Vladyslav Kavaka; Philipp Jie Müller; Jakob Jobst; Arman Öner; Rainer Kaiser; Jan Gärtig; Ignazio Piseddu; Stephanie Frenz-Wiessner; Savannah Fairley; Heiko Schulz; Veronika Igl; Thomas Alexander Janert; Lea Di Fina; Maité Mulkers; Moritz Thomas; Daria Briukhovetska; Donjetë Simnica; Emanuele Carlini; Christina Angeliki Tsiverioti; Marcel P. Trefny; Theo Lorenzini; Florian Märkl; Pedro Mesquita; Ruben Brabenec; Thaddäus Strzalkowski; Sophia Stock; Stefanos Michaelides; Johannes C. Hellmuth; Martin Thelen; Sarah Reinke; Wolfgang Hiddemann; Pascal Gélébart; Leo Nicolai; Carsten Marr; Eduardo Beltrán; Remco T. A. Megens; Christoph Klein; Fanny Baran‐Marszak; Andreas Rosenwald; Michael von Bergwelt‐Baildon; Paul J. Bröckelmann; Stefan Endres; Sebastian Kobold

doi:10.1182/blood.2023022197

Dissection of single-cell landscapes for the development of chimeric antigen receptor T cells in Hodgkin lymphoma

Adrian Gottschlich(German Cancer Research Center), Ruth Grünmeier(German Center for Lung Research), Gordon Victor Hoffmann(German Center for Lung Research), Sayantan Nandi(German Center for Lung Research), Vladyslav Kavaka(BG Klinik Tübingen), Philipp Jie Müller(German Center for Lung Research), Jakob Jobst(German Center for Lung Research), Arman Öner(German Center for Lung Research), Rainer Kaiser(LMU Klinikum), Jan Gärtig(German Center for Lung Research), Ignazio Piseddu(LMU Klinikum), Stephanie Frenz-Wiessner(German Center for Pediatric and Adolescent Rheumatology), Savannah Fairley(Institute for Sports Medicine), Heiko Schulz(Ludwig-Maximilians-Universität München), Veronika Igl(German Center for Lung Research), Thomas Alexander Janert(German Center for Lung Research), Lea Di Fina(LMU Klinikum), Maité Mulkers(LMU Klinikum), Moritz Thomas(Helmholtz Zentrum München), Daria Briukhovetska(German Center for Lung Research), Donjetë Simnica(German Center for Lung Research), Emanuele Carlini(German Center for Lung Research), Christina Angeliki Tsiverioti(German Center for Lung Research), Marcel P. Trefny(German Center for Lung Research), Theo Lorenzini(German Center for Lung Research), Florian Märkl(German Center for Lung Research), Pedro Mesquita(German Center for Lung Research), Ruben Brabenec(Helmholtz Zentrum München), Thaddäus Strzalkowski(German Center for Lung Research), Sophia Stock(German Cancer Research Center), Stefanos Michaelides(German Center for Lung Research), Johannes C. Hellmuth(Ludwig-Maximilians-Universität München), Martin Thelen(University of Cologne), Sarah Reinke(University Hospital Schleswig-Holstein), Wolfgang Hiddemann(University Hospital Schleswig-Holstein), Pascal Gélébart(Haukeland University Hospital), Leo Nicolai(LMU Klinikum), Carsten Marr(Helmholtz Zentrum München), Eduardo Beltrán(Munich Cluster for Systems Neurology), Remco T. A. Megens(Maastricht University Medical Centre), Christoph Klein(German Center for Pediatric and Adolescent Rheumatology), Fanny Baran‐Marszak(Inserm), Andreas Rosenwald(University of Würzburg), Michael von Bergwelt‐Baildon(German Cancer Research Center), Paul J. Bröckelmann(University of Cologne), Stefan Endres(German Cancer Research Center), Sebastian Kobold(German Cancer Research Center)

Blood

April 3, 2025

10.1182/blood.2023022197

Cited by 9Open Access

Full Text

Abstract

ABSTRACT: The success of targeted therapies for hematological malignancies has heralded their potential as both salvage treatment and early treatment lines, reducing the need for high-dose, intensive, and often toxic chemotherapeutic regimens. For young patients with classic Hodgkin lymphoma (cHL), immunotherapies provide the possibility to lessen long-term, treatment-related toxicities. However, suitable therapeutic targets are lacking. By integrating single-cell dissection of the tumor landscape and an in-depth, single-cell-based off-tumor antigen prediction, we identify CD86 as a promising therapeutic target in cHL. CD86 is highly expressed on Hodgkin and Reed-Sternberg cancer cells and cHL-specific tumor-associated macrophages. We reveal CD86-CTLA-4 as a key suppressive pathway in cHL, driving T-cell exhaustion. Cellular therapies targeting CD86 had extraordinary efficacy in vitro and in vivo and were safe in immunocompetent mouse models without compromising bacterial host defense in sepsis models. Our results prove the potential value of anti-CD86 immunotherapies for treating cHL.

Lieping Chen, Dallas B. Flies|Nature reviews. Immunology|2013|3.1k

A subcellular map of the human proteome

Peter Thul, Lovisa Åkesson, Mikaela Wiking et al.|Science|2017|3k

CTLA-4 Control over Foxp3 <sup>+</sup> Regulatory T Cell Function

Kajsa Wing, Yasushi Onishi, Paz Prieto-Martin et al.|Science|2008|2.9k

Case Report of a Serious Adverse Event Following the Administration of T Cells Transduced With a Chimeric Antigen Receptor Recognizing ERBB2

Richard A. Morgan, James C. Yang, Mio Kitano et al.|Molecular Therapy|2010|2.5k

A Single-Cell Transcriptomic Map of the Human and Mouse Pancreas Reveals Inter- and Intra-cell Population Structure

Maayan Baron, Adrian Veres, Samuel L. Wolock et al.|Cell Systems|2016|1.7k

Dissection of single-cell landscapes for the development of chimeric antigen receptor T cells in Hodgkin lymphoma

Abstract

Related Papers