Publications by authors named "Thorsten R Mempel"

Local regulation of T cell-mediated immunity to solid tumors occurs at multiple levels, including their recruitment from the bloodstream to the tumor microenvironment (TME), coordinated crosstalk with different subsets of antigen-presenting cells (APCs) controlling their local survival, proliferation, and effector differentiation, as well as their egress from tumors via lymphatics. At each level, chemokines play essential roles, for instance, by guiding directional T cell migration across blood and lymphatic endothelial barriers or by promoting their spatial proximity and direct physical interactions with APCs to enable functional crosstalk. In this article, we will review recent mechanistic insights into the chemokine axes that guide T cell functions in TMEs in light of the emerging functional state heterogeneity of CD8 effector T cells and our growing understanding of how regulatory T cells restrain antitumor activity.

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PD-1 blockade unleashes potent antitumor activity in CD8 T cells but can also promote immunosuppressive T regulatory (Treg) cells, which may worsen the response to immunotherapy. Tumor-Treg inhibition is a promising strategy to improve the efficacy of checkpoint blockade immunotherapy; however, our understanding of the mechanisms supporting tumor-Tregs during PD-1 immunotherapy is incomplete. Here, we show that PD-1 blockade increases tumor-Tregs in mouse models of melanoma and metastatic melanoma patients.

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The etiology and effect of age-related immune dysfunction in cancer is not completely understood. Here we show that limited priming of CD8 T cells in the aged tumor microenvironment (TME) outweighs cell-intrinsic defects in limiting tumor control. Increased tumor growth in aging is associated with reduced CD8 T cell infiltration and function.

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Article Synopsis
  • For our immune system to fight cancer, special blood cells need to move from the bloodstream into the tumors and find their way to specific areas within the tumor.
  • These cells then work together and interact with other important cells to help either fight the cancer or not, depending on how they interact.
  • Understanding how these cells and chemical signals (called chemokines) guide each other can help us discover better ways to treat cancer and understand how the immune system works against it.
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In cancer patients, dendritic cells (DCs) in tumor-draining lymph nodes can present antigens to naive T cells in ways that break immunological tolerance. The clonally expanded progeny of primed T cells are further regulated by DCs at tumor sites. Intratumoral DCs can both provide survival signals to and drive effector differentiation of incoming T cells, thereby locally enhancing antitumor immunity; however, the paucity of intratumoral DCs or their expression of immunoregulatory molecules often limits antitumor T cell responses.

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Article Synopsis
  • The study examines how variations in tumor microenvironments (TMEs) affect cancer progression by analyzing 52 head and neck squamous cell carcinomas.
  • It identifies macrophage polarity—determined by CS expression—as a significant factor for prognosis, rather than traditional M1 and M2 classifications.
  • The findings indicate that TMEs create organized networks of pro- and antitumor responses, emphasizing that CS macrophage polarity could simplify understanding complex cancer behaviors across different types of tumors.
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PD-1 blockade unleashes the potent antitumor activity of CD8 cells but can also promote immunosuppressive T regulatory (Treg) cells, which may worsen response to immunotherapy. Tumor Treg inhibition is a promising strategy to overcome therapeutic resistance; however, the mechanisms supporting tumor Tregs during PD-1 immunotherapy are largely unexplored. Here, we report that PD-1 blockade increases tumor Tregs in mouse models of immunogenic tumors, including melanoma, and metastatic melanoma patients.

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Article Synopsis
  • Regulatory T cells (Tregs) help maintain immune balance but can also hinder effective cancer treatments, making them a target for new therapies like the MALT1 inhibitor, ()-mepazine.
  • Preclinical studies showed that ()-mepazine has strong antitumor effects and works well in combination with anti-PD-1 therapy, specifically in tumor environments without affecting healthy Treg levels.
  • The promising results suggest that further clinical trials are warranted for ()-mepazine in treating patients with challenging tumor types, indicating a new potential approach to improve immunotherapy effectiveness.
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An innovative strategy for cancer therapy is to combine the inhibition of cancer cell-intrinsic oncogenic signaling with cancer cell-extrinsic immunological activation of the tumor microenvironment (TME). In general, such approaches will focus on two or more distinct molecular targets in the malignant cells and in cells of the surrounding TME. In contrast, the protease Mucosa-associated lymphoid tissue protein 1 (MALT1) represents a candidate to enable such a dual approach by engaging only a single target.

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Transcriptional and proteomic profiling of individual cells have revolutionized interpretation of biological phenomena by providing cellular landscapes of healthy and diseased tissues. These approaches, however, do not describe dynamic scenarios in which cells continuously change their biochemical properties and downstream 'behavioural' outputs. Here we used 4D live imaging to record tens to hundreds of morpho-kinetic parameters describing the dynamics of individual leukocytes at sites of active inflammation.

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CD8 T cells responding to chronic infection adapt an altered differentiation program that provides some restraint on pathogen replication yet limits immunopathology. This adaptation is imprinted in stem-like cells and propagated to their progeny. Understanding the molecular control of CD8 T cell differentiation in chronic infection has important therapeutic implications.

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Cytotoxic T lymphocyte (CTL) responses against tumors are maintained by stem-like memory cells that self-renew but also give rise to effector-like cells. The latter gradually lose their anti-tumor activity and acquire an epigenetically fixed, hypofunctional state, leading to tumor tolerance. Here, we show that the conversion of stem-like into effector-like CTLs involves a major chemotactic reprogramming that includes the upregulation of chemokine receptor CXCR6.

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Article Synopsis
  • - The study examines how Foxp3 T regulatory (Treg) cells help tumors evade the immune system, focusing on their activation in the tumor microenvironment (TME).
  • - Researchers found that Treg cells interact with tumor-associated dendritic cells, using unstable contacts to remain functional while stabilizing other immune cells like T helper cells.
  • - Treg cells can self-regulate their activity and number through a feedback loop involving CTLA-4 and CD28, which, when disrupted, may affect cancer treatment outcomes.
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CAR T cell therapy remains ineffective in solid tumors, due largely to poor infiltration and T cell suppression at the tumor site. T regulatory (T) cells suppress the immune response via inhibitory factors such as transforming growth factor-β (TGF-β). T cells expressing the C-C chemokine receptor 8 (CCR8) have been associated with poor prognosis in solid tumors.

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The efficacy of adoptive cell therapy for solid tumours is hampered by the poor accumulation of the transferred T cells in tumour tissue. Here, we show that forced expression of C-X-C chemokine receptor type 6 (whose ligand is highly expressed by human and murine pancreatic cancer cells and tumour-infiltrating immune cells) in antigen-specific T cells enhanced the recognition and lysis of pancreatic cancer cells and the efficacy of adoptive cell therapy for pancreatic cancer. In mice with subcutaneous pancreatic tumours treated with T cells with either a transgenic T-cell receptor or a murine chimeric antigen receptor targeting the tumour-associated antigen epithelial cell adhesion molecule, and in mice with orthotopic pancreatic tumours or patient-derived xenografts treated with T cells expressing a chimeric antigen receptor targeting mesothelin, the T cells exhibited enhanced intratumoral accumulation, exerted sustained anti-tumoral activity and prolonged animal survival only when co-expressing C-X-C chemokine receptor type 6.

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When it comes to cancer evading the immune response, antigen presentation usually gets all the attention. In this issue of Immunity, Tello-Lafoz et al. reveal that cancer cells have another card up their sleeve: by regulating gene expression to "soften" their actin cytoskeleton, cancer cells limit susceptibility to lymphocyte-mediated cytotoxic attack.

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CDK4/6 inhibitors are approved to treat breast cancer and are in trials for other malignancies. We examined CDK4/6 inhibition in mouse and human CD8 T cells during early stages of activation. Mice receiving tumor-specific CD8 T cells treated with CDK4/6 inhibitors displayed increased T-cell persistence and immunologic memory.

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Epithelial resident memory T (eT) cells serve as sentinels in barrier tissues to guard against previously encountered pathogens. How eT cells are generated has important implications for efforts to elicit their formation through vaccination or prevent it in autoimmune disease. Here, we show that during immune homeostasis, the cytokine transforming growth factor β (TGF-β) epigenetically conditions resting naïve CD8 T cells and prepares them for the formation of eT cells in a mouse model of skin vaccination.

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Solid tumours are infiltrated by effector T cells with the potential to control or reject them, as well as by regulatory T (T) cells that restrict the function of effector T cells and thereby promote tumour growth. The anti-tumour activity of effector T cells can be therapeutically unleashed, and is now being exploited for the treatment of some forms of human cancer. However, weak tumour-associated inflammatory responses and the immune-suppressive function of T cells remain major hurdles to broader effectiveness of tumour immunotherapy.

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Chemoattractant-induced arrest of circulating leukocytes and their subsequent diapedesis is a fundamental component of inflammation. However, how tissue-derived chemoattractants are transported into the blood vessel lumen to induce leukocyte entry into tissue is not well understood. Here, intravital microscopy in live mice has shown that the "atypical" complement C5a receptor 2 (C5aR2) and the atypical chemokine receptor 1 (ACKR1) expressed on endothelial cells were required for the transport of C5a and CXCR2 chemokine ligands, respectively, into the vessel lumen in a murine model of immune complex-induced arthritis.

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Over their lifetime, regulatory T cells (Treg) recalibrate their expression of trafficking receptors multiple times as they progress through development, respond to immune challenges, or adapt to the requirements of functioning in various non-lymphoid tissue environments. These trafficking receptors, which include chemokine receptors and other G-protein coupled receptors, integrins, as well as selectins and their ligands, enable Treg not only to enter appropriate tissues from the bloodstream via post-capillary venules, but also to navigate these tissues to locally execute their immune-regulatory functions, and finally to seek out the right antigen-presenting cells and interact with these, in part in order to receive the signals that sustain their survival, proliferation, and functional activity, in part in order to execute their immuno-regulatory function by altering antigen presenting cell function. Here, we will review our current knowledge of when and in what ways Treg alter their trafficking properties.

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HIV-1 primarily infects T lymphocytes and uses these motile cells as migratory vehicles for effective dissemination in the host. Paradoxically, the virus at the same time disrupts multiple cellular processes underlying lymphocyte motility, seemingly counterproductive to rapid systemic infection. Here we show by intravital microscopy in humanized mice that perturbation of the actin cytoskeleton via the lentiviral protein Nef, and not changes to chemokine receptor expression or function, is the dominant cause of dysregulated infected T cell motility in lymphoid tissue by preventing stable cellular polarization required for fast migration.

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Recent advances in intravital video microscopy have allowed the visualization of leukocyte behavior in vivo, revealing unprecedented spatiotemporal dynamics of immune cell interaction. However, state-of-the-art software and methods for automatically measuring cell migration exhibit limitations in tracking the position of leukocytes over time. Challenges arise both from the complex migration patterns of these cells and from the experimental artifacts introduced during image acquisition.

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Glioblastomas are heterogeneous and invariably lethal tumours. They are characterized by genetic and epigenetic variations among tumour cells, which makes the development of therapies that eradicate all tumour cells challenging and currently impossible. An important component of glioblastoma growth is communication with and manipulation of other cells in the brain environs, which supports tumour progression and resistance to therapy.

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Malaria remains one of the world's most significant human infectious diseases and cerebral malaria (CM) is its most deadly complication. CM pathogenesis remains incompletely understood, hindering the development of therapeutics to prevent this lethal complication. Elevated levels of the chemokine CXCL10 are a biomarker for CM, and CXCL10 and its receptor CXCR3 are required for experimental CM (ECM) in mice, but their role has remained unclear.

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