Immunology
Abstract
STING agonists can reprogram the tumor microenvironment to induce immunological clearance within the central nervous system. Using multiplexed sequential immunofluorescence (SeqIF) and the Ivy Glioblastoma Atlas, STING expression was found in myeloid populations and in the perivascular space. The STING agonist 8803 increased median survival in multiple preclinical models of glioblastoma, including QPP8, an immune checkpoint blockade–resistant model, where 100% of mice were cured. Ex vivo flow cytometry profiling during the therapeutic window demonstrated increases in myeloid tumor trafficking and activation, alongside enhancement of CD8+ T cell and NK effector responses. Treatment with 8803 reprogrammed microglia to express costimulatory CD80/CD86 and iNOS, while decreasing immunosuppressive CD206 and arginase. In humanized mice, where tumor cell STING is epigenetically silenced, 8803 therapeutic activity was maintained, further attesting to myeloid dependency and reprogramming. Although the combination with a STAT3 inhibitor did not further enhance STING agonist activity, the addition of anti–PD-1 antibodies to 8803 treatment enhanced survival in an immune checkpoint blockade–responsive glioma model. In summary, 8803 as a monotherapy demonstrates marked in vivo therapeutic activity, meriting consideration for clinical translation.
Authors
Hinda Najem, Spencer T. Lea, Shashwat Tripathi, Lisa Hurley, Chao-Hsien Chen, Ivana William, Moloud Sooreshjani, Michelle Bowie, Genevieve Hartley, Corey Dussold, Sebastian Pacheco, Crismita Dmello, Catalina Lee-Chang, Kathleen McCortney, Alicia Steffens, Jordain Walshon, Martina Ott, Jun Wei, Anantha Marisetty, Irina Balyasnikova, Roger Stupp, Rimas V. Lukas, Jian Hu, Charles David James, Craig M. Horbinski, Maciej S. Lesniak, David M. Ashley, Waldemar Priebe, Leonidas C. Platanias, Michael A. Curran, Amy B. Heimberger
Abstract
Viral vectors are being used for the treatment of cancer. Yet their efficacy varies among tumors and their use poses challenges in immunosuppressed patients, underscoring the need for alternatives. We report striking antitumoral effects by a nonlytic viral vector based on attenuated lymphocytic choriomeningitis virus (r3LCMV). We show in multiple tumor models that injection of tumor-bearing mice with this vector results in improved tumor control and survival. Importantly, r3LCMV improved tumor control in immunodeficient Rag1–/– mice and MyD88–/– mice, suggesting that multiple pathways contributed to the antitumoral effects. The antitumoral effects of r3LCMV were also observed when this vector was administered several weeks before tumor challenges, suggesting the induction of trained immunity. Single cell RNA-Seq analyses, antibody blockade experiments, and KO models revealed a critical role for host-intrinsic IFN-I in the antitumoral efficacy of r3LCMV vectors. Collectively, these data demonstrate potent antitumoral effects by r3LCMV vectors and unveil multiple mechanisms underlying their antitumoral efficacy.
Authors
Young Rock Chung, Bakare Awakoaiye, Tanushree Dangi, Nahid Irani, Slim Fourati, Pablo Penaloza-MacMaster
Abstract
BACKGROUND. Predicting Immune-effector Cell Associated Neurotoxicity Syndrome (ICANS) in patients infused with Chimeric Antigen Receptor T cells (CAR-T) is still a conundrum. This complication, thought to be consequent to CAR-T cell activation, arises a few days after infusion, when circulating CAR-T cells are scarce and specific CAR-T cell-derived biomarkers are lacking. METHODS. Human CD19.CAR-T cells were generated to gain insight into CAR+ extracellular vesicle (CAR+EV) release upon target engagement. A prospective cohort of 100 B-cell lymphoma patients infused with approved CD19.CAR-T cell products (axi-cel, brexu-cel and tisa-cel) was assessed for plasma CAR+EVs as potential biomarkers of in vivo CD19.CAR-T cell activation and predictors of ICANS. Human induced pluripotent stem cells (iPSCs)-derived neural cells were used as a model for CAR+EV-induced neurotoxicity. RESULTS. In vitro, exosome-like CAR+EVs were released by CD19.CAR-T cells upon target engagement. In vivo, CAR+EVs were detectable as early as 1 hour in the plasma of patients. A concentration > 132.8 CAR+EVs/μl at hour +1 or > 224.5 CAR+EVs/μl at day +1 predicted ICANS in advance of 4 days, with a sensitivity up to 96.55% and a specificity up to 80.36%, outperforming other potential ICANS predictors. Enolase 2 (ENO2+) nanoparticles were released by iPSCs-derived neural cells upon CAR+EVs exposure and were increased in the plasma of ICANS patients. CONCLUSIONS. These results convey that plasma CAR+EVs are an immediate signal of CD19.CAR-T cell activation, are suitable predictors of neurotoxicity, and may be involved in ICANS pathogenesis. TRIAL REGISTRATION. NCT04892433, NCT05807789.
Authors
Gianluca Storci, Francesco De Felice, Francesca Ricci, Spartaco Santi, Daria Messelodi, Salvatore Nicola Bertuccio, Noemi Laprovitera, Michele Dicataldo, Lucrezia Rossini, Serena De Matteis, Beatrice Casadei, Francesca Vaglio, Margherita Ursi, Francesco Barbato, Marcello Roberto, Maria Guarino, Gian Maria Asioli, Mario Arpinati, Pietro Cortelli, Enrico Maffini, Enrica Tomassini, Marta Tassoni, Carola Cavallo, Francesco Iannotta, Maria Naddeo, Pier Luigi Tazzari, Elisa Dan, Cinzia Pellegrini, Serafina Guadagnuolo, Matteo Carella, Barbara Sinigaglia, Chiara Pirazzini, Caterina Severi, Paolo Garagnani, Katarzyna Malgorzata Kwiatkowska, Manuela Ferracin, Pier Luigi Zinzani, Massimiliano Bonafè, Francesca Bonifazi
Abstract
The adoptive transfer of T cell receptor–engineered (TCR-engineered) T cells (ACT) targeting the HLA-A2–restricted cancer-testis epitope NY-ESO-1157–165 (A2/NY) has yielded favorable clinical responses against several cancers. Two approaches to improve ACT are TCR affinity optimization and T cell coengineering to express immunomodulatory molecules that can exploit endogenous immunity. By computational design we previously developed a panel of binding-enhanced A2/NY-TCRs including A97L, which augmented the in vitro function of gene-modified T cells as compared with WT. Here, we demonstrated higher persistence and improved tumor control by A97L–T cells. In order to harness macrophages in tumors, we further coengineered A97L–T cells to secrete a high-affinity signal regulatory protein α (SiRPα) decoy (CV1) that blocks CD47. While CV1-Fc–coengineered A97L–T cells mediated significantly better control of tumor outgrowth and survival in Winn assays, in subcutaneous xenograft models the T cells, coated by CV1-Fc, were depleted. Importantly, there was no phagocytosis of CV1 monomer–coengineered T cells by human macrophages. Moreover, avelumab and cetuximab enhanced macrophage-mediated phagocytosis of tumor cells in vitro in the presence of CV1 and improved tumor control upon coadministration with A97L–T cells. Taken together, our study indicates important clinical promise for harnessing macrophages by combining CV1-coengineered TCR–T cells with targeted antibodies to direct phagocytosis against tumor cells.
Authors
Evangelos Stefanidis, Aikaterini Semilietof, Julien Pujol, Bili Seijo, Kirsten Scholten, Vincent Zoete, Olivier Michielin, Raphael Sandaltzopoulos, George Coukos, Melita Irving
Abstract
Calcineurin inhibitors (CNIs) constitute the backbone of modern acute graft-versus-host disease (aGVHD) prophylaxis regimens but have limited efficacy in the prevention and treatment of chronic GVHD (cGVHD). We investigated the effect of CNIs on immune tolerance after stem cell transplantation with discovery-based single-cell gene expression and T cell receptor (TCR) assays of clonal immunity in tandem with traditional protein-based approaches and preclinical modeling. While cyclosporin and tacrolimus suppressed the clonal expansion of CD8+ T cells during GVHD, alloreactive CD4+ T cell clusters were preferentially expanded. Moreover, CNIs mediated reversible dose-dependent suppression of T cell activation and all stages of donor T cell exhaustion. Critically, CNIs promoted the expansion of both polyclonal and TCR-specific alloreactive central memory CD4+ T cells (TCM) with high self-renewal capacity that mediated cGVHD following drug withdrawal. In contrast to posttransplant cyclophosphamide (PT-Cy), CSA was ineffective in eliminating IL-17A–secreting alloreactive T cell clones that play an important role in the pathogenesis of cGVHD. Collectively, we have shown that, although CNIs attenuate aGVHD, they paradoxically rescue alloantigen-specific TCM, especially within the CD4+ compartment in lymphoid and GVHD target tissues, thus predisposing patients to cGVHD. These data provide further evidence to caution against CNI-based immune suppression without concurrent approaches that eliminate alloreactive T cell clones.
Authors
Yewei Wang, Md Ashik Ullah, Olivia G. Waltner, Shruti S. Bhise, Kathleen S. Ensbey, Christine R. Schmidt, Samuel R.W. Legg, Tomoko Sekiguchi, Ethan L. Nelson, Rachel D. Kuns, Nicole S. Nemychenkov, Erden Atilla, Albert C. Yeh, Shuichiro Takahashi, Julie R. Boiko, Antiopi Varelias, Bruce R. Blazar, Motoko Koyama, Simone A. Minnie, Andrew D. Clouston, Scott N. Furlan, Ping Zhang, Geoffrey R. Hill
Abstract
The surface receptor CD8α is present on 20-80% of human (but not mouse) NK cells, yet its function on NK cells remains poorly understood. CD8α expression on donor NK cells was associated with a lack of therapeutic responses for leukemia patients in prior studies, thus we hypothesized that CD8α may impact critical NK cell functions. Here, we discovered that CD8α- NK cells had improved control of leukemia in xenograft models, compared to CD8α+ NK cells, likely due to an enhanced capacity for proliferation. Unexpectedly, CD8α expression was induced on approximately 30% of previously CD8α- NK cells following IL-15 stimulation. These ‘induced’ CD8α+ (‘iCD8α+’) NK cells had the greatest proliferation, responses to IL-15 signaling, and metabolic activity, compared to those that sustained existing CD8α expression (‘sustained CD8α+) or those that remained CD8α- (‘persistent CD8α-‘). These iCD8α+ cells originated from an IL-15Rβ high NK cell population, with CD8α expression dependent on the transcription factor RUNX3. Moreover, CD8A CRISPR/Cas9 deletion resulted in enhanced responses through the activating receptor NKp30, possibly by modulating KIR inhibitory function. Thus, CD8α status identifies human NK cell capacity for IL-15-induced proliferation and metabolism in a time-dependent fashion and exhibits a suppressive effect on NK cell activating receptors.
Authors
Celia C. Cubitt, Pamela Wong, Hannah K. Dorando, Jennifer A. Foltz, Jennifer Tran, Lynne Marsala, Nancy D. Marin, Mark Foster, Timothy Schappe, Hijab Fatima, Michelle Becker-Hapak, Alice Y. Zhou, Kimberly Hwang, Miriam T. Jacobs, David A. Russler-Germain, Emily M. Mace, Melissa M. Berrien-Elliott, Jacqueline E. Payton, Todd A. Fehniger
Abstract
Intratumoral regulatory T cells (Tregs) are key mediators of cancer immunotherapy resistance, including anti-PD-(L)1 immune checkpoint blockade (ICB). The mechanisms driving Treg infiltration into the tumor microenvironment (TME) and the consequence on CD8+ T cell exhaustion remains elusive. Herein, we report that heat shock protein gp96 (GRP94) is indispensable for Treg tumor infiltration, primarily through gp96’s roles in chaperoning integrins. Among various gp96-dependent integrins, we found that only LFA-1 (αL integrin) but not αV, CD103 (αE) or β7 integrin was required for Treg tumor homing. Loss of Treg infiltration into the TME by genetically deleting gp96/LFA-1 potently induces rejection of multiple ICB-resistant murine cancer models in a CD8+ T cell-dependent manner without loss of self-tolerance. Moreover, gp96 deletion impeded Treg activation primarily by suppressing IL-2/STAT5 signaling, which also contributes to tumor regression. By competing for intratumoral IL-2, Tregs prevent activation of CD8+ tumor-infiltrating lymphocytes (TILs), drive TOX induction and induce bona fide CD8+ T cell exhaustion. By contrast, Treg ablation leads to striking CD8+ T cell activation without TOX induction, demonstrating clear uncoupling of the two processes. Our study reveals that the gp96/LFA-1 axis plays a fundamental role in Treg biology and suggests that Treg-specific gp96/LFA-1 targeting represents a valuable strategy for cancer immunotherapy without inflicting autoinflammatory conditions.
Authors
Lei Zhou, Maria Velegraki, Yi Wang, J K Mandula, Yuzhou Chang, Weiwei Liu, No-Joon Song, Hyunwoo Kwon, Tong Xiao, Chelsea Bolyard, Feng Hong, Gang Xin, Qin Ma, Mark P. Rubinstein, Haitao Wen, Zihai Li
Abstract
Authors
Jarmila Stremenova Spegarova, Praisoody Sinnappurajar, Dalila Al Julandani, Rokas Navickas, Helen Griffin, Manisha Ahuja, Angela Grainger, Katie Livingstone, Gillian I. Rice, Fraser Sutherland, Corinne Hayes, Simon Parke, Lewis Pang, Marion R. Roderick, Mary Slatter, Yanick Crow, Athimalaipet V. Ramanan, Sophie Hambleton
Abstract
Group 3 innate lymphoid cells (ILC3s) are key players in intestinal homeostasis. Endoplasmic reticulum (ER) stress is linked to inflammatory bowel disease (IBD). Herein, we used cell culture, mouse models, and human specimens to examine if ER stress in ILC3s impacts IBD pathophysiology. We show that mouse intestinal ILC3s exhibited a 24h-rhythmic expression pattern of the master ER stress response regulator, IRE1α/XBP1. Proinflammatory cytokine IL-23 selectively stimulated IRE1α/XBP1 in mouse ILC3s through mitochondrial reactive oxygen species (mtROS). IRE1α/XBP1 was activated in ILC3s of mice exposed to experimental colitis and in inflamed human IBD specimens. Mice with Ire1α deletion in ILC3s (Ire1αΔRorc) showed reduced expression of ER stress response and cytokine genes including Il22 in ILC3s and were highly vulnerable to infections and colitis. Administration of IL-22 counteracted their colitis susceptibility. In human ILC3s, IRE1 inhibitors suppressed cytokine production, which was upregulated by an IRE1 activator. Moreover, the frequencies of intestinal XBP1s+ ILC3s in Crohn’s disease patients before administration of ustekinumab, an anti-IL-12/IL-23 antibody, positively correlated with response to treatment. We demonstrate that a non-canonical mtROS-IRE1α/XBP1 pathway augments cytokine production by ILC3s and identify XBP1s+ ILC3s as a potential biomarker for predicting response to anti-IL-23 therapies in IBD.
Authors
Siyan Cao, Jose Luis Fachi, Kaiming Ma, Alina Ulezko Antonova, Qianli Wang, Zhangying Cai, Randal J. Kaufman, Matthew A Ciorba, Parakkal Deepak, Marco Colonna
Abstract
Authors
Alyssa Duffy, Maryam I. Azeem, Smriti Kanangat, Melinda Yushak, David Lawson, Madhav V. Dhodapkar, Kavita M. Dhodapkar
Copyright © 2026 American Society for Clinical Investigation
ISSN: 0021-9738 (print), 1558-8238 (online)