Your search keyword '"CD8 T cell"' showing total 984 results

1. Intratumoral immune triads are required for immunotherapy-mediated elimination of solid tumors

Author

Espinosa-Carrasco, Gabriel, Chiu, Edison, Scrivo, Aurora, Zumbo, Paul, Dave, Asim, Betel, Doron, Kang, Sung Wook, Jang, Hee-Jin, Hellmann, Matthew D., Burt, Bryan M., Lee, Hyun-Sung, and Schietinger, Andrea

Published

2024

2. Regulation and impact of tumor-specific CD4+ T cells in cancer and immunotherapy

Author

Guo, Mengdi, Liu, Melissa Yi Ran, and Brooks, David G.

Published

2024

3. Macrophage and CD8 T cell discordance are associated with acute lung allograft dysfunction progression.

Author

Calabrese, Daniel, Ekstrand, Christina, Yellamilli, Shivaram, Singer, Jonathan, Hays, Steven, Leard, Lorriana, Shah, Rupal, Venado, Aida, Kolaitis, Nicholas, Perez, Alyssa, Combes, Alexis, and Greenland, John

Subjects

CD8 T cell, acute lung allograft dysfunction, bronchoalveolar lavage, chronic lung allograft dysfunction, lung transplant, single cell RNA sequencing, Humans, Lung Transplantation, CD8-Positive T-Lymphocytes, Male, Middle Aged, Female, Prospective Studies, Macrophages, Disease Progression, Bronchoalveolar Lavage Fluid, Allografts, Graft Rejection, Adult, Acute Disease, Primary Graft Dysfunction

Abstract

BACKGROUND: Acute lung allograft dysfunction (ALAD) is an imprecise syndrome denoting concern for the onset of chronic lung allograft dysfunction (CLAD). Mechanistic biomarkers are needed that stratify risk of ALAD progression to CLAD. We hypothesized that single cell investigation of bronchoalveolar lavage (BAL) cells at the time of ALAD would identify immune cells linked to progressive graft dysfunction. METHODS: We prospectively collected BAL from consenting lung transplant recipients for single cell RNA sequencing. ALAD was defined by a ≥10% decrease in FEV1 not caused by infection or acute rejection and samples were matched to BAL from recipients with stable lung function. We examined cell compositional and transcriptional differences across control, ALAD with decline, and ALAD with recovery groups. We also assessed cell-cell communication. RESULTS: BAL was assessed for 17 ALAD cases with subsequent decline (ALAD declined), 13 ALAD cases that resolved (ALAD recovered), and 15 cases with stable lung function. We observed broad differences in frequencies of the 26 unique cell populations across groups (p = 0.02). A CD8 T cell (p = 0.04) and a macrophage cluster (p = 0.01) best identified ALAD declined from the ALAD recovered and stable groups. This macrophage cluster was distinguished by an anti-inflammatory signature and the CD8 T cell cluster resembled a Tissue Resident Memory subset. Anti-inflammatory macrophages signaled to activated CD8 T cells via class I HLA, fibronectin, and galectin pathways (p

Published

2024

4. Chapter Six - Generation of human and murine exhausted CD8+ T cells in vitro

Author

Lacalle, Rosa Ana, Blanco, Raquel, García-Lucena, Rebeca, and Mañes, Santos

Published

2025

5. CRISPR screens unveil nutrient-dependent lysosomal and mitochondrial nodes impacting intestinal tissue-resident memory CD8+ T cell formation.

Author

Raynor, Jana L., Collins, Nicholas, Shi, Hao, Guy, Cliff, Saravia, Jordy, Ah Lim, Seon, Chapman, Nicole M., Zhou, Peipei, Wang, Yan, Sun, Yu, Risch, Isabel, Hu, Haoran, KC, Anil, Sun, Renqiang, Shrestha, Sharad, Huang, Hongling, Connelly, Jon P., Pruett-Miller, Shondra M., Reina-Campos, Miguel, and Goldrath, Ananda W.

Subjects

*TRANSCRIPTION factors, *TRANSFORMING growth factors, *T cells, *MITOCHONDRIAL proteins, *GENETIC testing

Abstract

Nutrient availability and organelle biology direct tissue homeostasis and cell fate, but how these processes orchestrate tissue immunity remains poorly defined. Here, using in vivo CRISPR-Cas9 screens, we uncovered organelle signaling and metabolic processes shaping CD8+ tissue-resident memory T (T RM) cell development. T RM cells depended on mitochondrial translation and respiration. Conversely, three nutrient-dependent lysosomal signaling nodes—Flcn, Ragulator, and Rag GTPases—inhibited intestinal T RM cell formation. Depleting these molecules or amino acids activated the transcription factor Tfeb, thereby linking nutrient stress to T RM programming. Further, Flcn deficiency promoted protective T RM cell responses in the small intestine. Mechanistically, the Flcn-Tfeb axis restrained retinoic acid-induced CCR9 expression for migration and transforming growth factor β (TGF-β)-mediated programming for lineage differentiation. Genetic interaction screening revealed that the mitochondrial protein Mrpl52 enabled early T RM cell formation, while Acss1 controlled T RM cell development under Flcn deficiency-associated lysosomal dysregulation. Thus, the interplay between nutrients, organelle signaling, and metabolic adaptation dictates tissue immunity. [Display omitted] • Systematic discovery of mitochondrial and lysosomal pathways in CD8+ T RM formation • Lysosomal signaling and amino acids shape Tfeb-driven T RM development • Small intestine-specific T RM programming is impeded by the Flcn-Tfeb signaling axis • Acss1 and Mrpl52 empower early siIEL T RM formation in distinct contexts How organelle signaling and metabolic adaptation orchestrate tissue-resident CD8+ T (T RM) cell development remains poorly defined. Here, Raynor et al. establish three nutrient-dependent lysosomal signaling nodes as negative regulators of T RM differentiation in the small intestine. These results uncover mechanisms dictating T RM cell quality and quantity for tissue immunity. [ABSTRACT FROM AUTHOR]

Published

2024

6. Redundancy in Innate Immune Pathways That Promote CD8 + T-Cell Responses in AAV1 Muscle Gene Transfer.

Author

Li, Ning, Kumar, Sandeep R. P., Cao, Di, Munoz-Melero, Maite, Arisa, Sreevani, Brian, Bridget A., Greenwood, Calista M., Yamada, Kentaro, Duan, Dongsheng, and Herzog, Roland W.

Subjects

*DOUBLE-stranded RNA, *ANTIBODY formation, *GENETIC transformation, *ADENO-associated virus, *GENE therapy, *TRANSGENE expression

Abstract

While adeno-associated viral (AAV) vectors are successfully used in a variety of in vivo gene therapy applications, they continue to be hampered by the immune system. Here, we sought to identify innate and cytokine signaling pathways that promote CD8+ T-cell responses against the transgene product upon AAV1 vector administration to murine skeletal muscle. Eliminating just one of several pathways (including DNA sensing via TLR9, IL-1 receptor signaling, and possibly endosomal sensing of double-stranded RNA) substantially reduced the CD8+ T-cell response at lower vector doses but was surprisingly ineffective at higher doses. Using genetic, antibody-mediated, and vector engineering approaches, we show that blockade of at least two innate pathways is required to achieve an effect at higher vector doses. Concurrent blockade of IL-1R1 > MyD88 and TLR9 > MyD88 > type I IFN > IFNaR pathways was often but not always synergistic and had limited utility in preventing antibody formation against the transgene product. Further, even low-frequency CD8+ T-cell responses could eliminate transgene expression, even in MyD88- or IL-1R1-deficient animals that received a low vector dose. However, we provide evidence that CpG depletion of vector genomes and including TLR9 inhibitory sequences can synergize. When this construct was combined with the use of a muscle-specific promoter, transgene expression in muscle was sustained with minimal local or systemic CD8+ T-cell response. Thus, innate immune avoidance/blockade strategies by themselves, albeit helpful, may not be sufficient to prevent destructive cellular responses in muscle gene transfer because of the redundancy of immune-activating pathways. [ABSTRACT FROM AUTHOR]

Published

2024

7. Long-Lasting, Fine-Tuned Anti-Tumor Activity of Recombinant Listeria monocytogenes Vaccine Is Controlled by Pyroptosis and Necroptosis Regulatory and Effector Molecules.

Author

Olagunju, Abolaji S., Sardinha, Andrew V. D., and Amarante-Mendes, Gustavo P.

Subjects

CELLULAR immunity, LISTERIA monocytogenes, T cells, CELL death, CD8 antigen

Abstract

One of the main objectives of developing new anti-cancer vaccine strategies is to effectively induce CD8+ T cell-mediated anti-tumor immunity. Live recombinant vectors, notably Listeria monocytogenes, have been shown to elicit a robust in vivo CD8+ T-cell response in preclinical settings. Significantly, it has been demonstrated that Listeria induces inflammatory/immunogenic cell death mechanisms such as pyroptosis and necroptosis in immune cells that favorably control immunological responses. Therefore, we postulated that the host's response to Listeria-based vectors and the subsequent induction of CD8+ T cell-mediated immunity would be compromised by the lack of regulatory or effector molecules involved in pyroptosis or necroptosis. To test our hypothesis, we used recombinant L. monocytogenes carrying the ovalbumin gene (LM.OVA) to vaccinate wild-type (WT), caspase-1/11−/−, gsdmd−/−, ripk3−/−, and mlkl−/− C57Bl/6 mice. We performed an in vivo cytotoxicity assay to assess the efficacy of OVA-specific CD8+ T lymphocytes in eliminating target cells in wild-type and genetically deficient backgrounds. Furthermore, we evaluated the specific anti-tumor immune response in mice inoculated with the B16F0 and B16F0.OVA melanoma cell lines. Our findings demonstrated that while caspase-1/11 and GSDMD deficiencies interfere with the rapid control of LM.OVA infection, neither of the KOs seems to contribute to the early activation of OVA-specific CTL responses. In contrast, the individual deficiency of each one of these proteins positively impacts the generation of long-lasting effector CD8+ T cells. [ABSTRACT FROM AUTHOR]

Published

2024

8. Lrp10 suppresses IL7R limiting CD8 T cell homeostatic expansion and anti-tumor immunity.

Author

Russell, Jamie, Chen, Luming, Liu, Aijie, Wang, Jianhui, Ghosh, Subarna, Zhong, Xue, Shi, Hexin, Beutler, Bruce, and Nair-Gill, Evan

Abstract

Signals emanating from the T-cell receptor (TCR), co-stimulatory receptors, and cytokine receptors each influence CD8 T-cell fate. Understanding how these signals respond to homeostatic and microenvironmental cues can reveal new ways to therapeutically direct T-cell function. Through forward genetic screening in mice, we discover that loss-of-function mutations in LDL receptor-related protein 10 (Lrp10) cause naive and central memory CD8 T cells to accumulate in peripheral lymphoid organs. Lrp10 encodes a conserved cell surface protein of unknown immunological function. T-cell activation induces Lrp10 expression, which post-translationally suppresses IL7 receptor (IL7R) levels. Accordingly, Lrp10 deletion enhances T-cell homeostatic expansion through IL7R signaling. Lrp10 -deficient mice are also intrinsically resistant to syngeneic tumors. This phenotype depends on dense tumor infiltration of CD8 T cells, which display increased memory cell characteristics, reduced terminal exhaustion, and augmented responses to immune checkpoint inhibition. Here, we present Lrp10 as a new negative regulator of CD8 T-cell homeostasis and a host factor that controls tumor resistance with implications for immunotherapy. Synopsis: Lrp10 is a putative cell surface receptor with unknown functions in immunity. This study shows that Lrp10 prevents accumulation of peripheral CD8 T cells, suppresses IL7R expression to limit homeostatic expansion, and impairs anti-tumor immune responses. Genetic deletion of Lrp10 causes an increased number of peripheral CD8 T cells in mice. Lrp10 is induced upon T cell activation and post-translationally suppresses IL7R expression. Lrp10 reduces CD8 central memory differentiation, T cell homeostatic expansion, and IL7 responsiveness. Lrp10 deletion promotes CD8 T cell infiltration, resulting in enhanced anti-tumor immunity and susceptibility to immune checkpoint inhibition. Lrp10 is a putative cell surface receptor with unknown functions in immunity. This study shows that Lrp10 prevents accumulation of peripheral CD8 T cells, suppresses IL7R expression to limit homeostatic expansion, and impairs anti-tumor immune responses. [ABSTRACT FROM AUTHOR]

Published

2024

9. Dynamic monitoring of viral gene expression reveals rapid antiviral effects of CD8 T cells recognizing the HCMV-pp65 antigen.

Author

Khan, Fawad, Müller, Thomas R., Kasmapour, Bahram, Ynga-Durand, Mario Alberto, Eiz-Vesper, Britta, von Einem, Jens, Busch, Dirk H., and Cicin-Sain, Luka

Subjects

T cells, GENE expression, IMMUNE recognition, VIRAL genes, DNA replication

Abstract

Introduction: Human Cytomegalovirus (HCMV) is a betaherpesvirus that causes severe disease in immunocompromised transplant recipients. Immunotherapy with CD8 T cells specific for HCMV antigens presented on HLA class-I molecules is explored as strategy for long-term relief to such patients, but the antiviral effectiveness of T cell preparations cannot be efficiently predicted by available methods. Methods: We developed an Assay for Rapid Measurement of Antiviral T-cell Activity (ARMATA) by real-time automated fluorescent microscopy and used it to study the ability of CD8 T cells to neutralize HCMV and control its spread. As a proof of principle, we used TCR-transgenic T cells specific for the immunodominant HLA-A02-restricted tegumental phosphoprotein pp65. pp65 expression follows an early/late kinetic, but it is not clear at which stage of the virus cycle it acts as an antigen. We measured control of HCMV infection by T cells as early as 6 hours post infection (hpi). Results: The timing of the antigen recognition indicated that it occurred before the late phase of the virus cycle, but also that virion-associated pp65 was not recognized during virus entry into cells. Monitoring of pp65 gene expression dynamics by reporter fluorescent genes revealed that pp65 was detectable as early as 6 hpi, and that a second and much larger bout of expression occurs in the late phase of the virus cycle by 48 hpi. Since transgenic (Tg)-pp65 specific CD8 T cells were activated even when DNA replication was blocked, our data argue that pp65 acts as an early virus gene for immunological purposes. Discussion: ARMATA does not only allow same day identification of antiviral Tcell activity, but also provides a method to define the timing of antigen recognition in the context of HCMV infection. [ABSTRACT FROM AUTHOR]

Published

2024

10. Navigating the landscape of the unfolded protein response in CD8+ T cells.

Author

Nair II, Keith Alan and Bei Liu

Subjects

UNFOLDED protein response, T cells, GENETIC transcription, CYTOLOGY, ENDOPLASMIC reticulum

Abstract

Endoplasmic reticulum stress occurs due to large amounts of misfolded proteins, hypoxia, nutrient deprivation, and more. The unfolded protein is a complex intracellular signaling network designed to operate under this stress. Composed of three individual arms, inositol-requiring enzyme 1, protein kinase RNA-like ER kinase, and activating transcription factor-6, the unfolded protein response looks to resolve stress and return to proteostasis. The CD8+ T cell is a critical cell type for the adaptive immune system. The unfolded protein response has been shown to have a wide-ranging spectrum of effects on CD8+ T cells. CD8+ T cells undergo cellular stress during activation and due to environmental insults. However, the magnitude of the effects this response has on CD8+ T cells is still understudied. Thus, studying these pathways is important to unraveling the inner machinations of these powerful cells. In this review, we will highlight the recent literature in this field, summarize the three pathways of the unfolded protein response, and discuss their roles in CD8+ T cell biology and functionality. [ABSTRACT FROM AUTHOR]

Published

2024

11. Macrophage and CD8 T cell discordance are associated with acute lung allograft dysfunction progression.

Author

Calabrese, Daniel R., Ekstrand, Christina A., Yellamilli, Shivaram, Singer, Jonathan P., Hays, Steven R., Leard, Lorriana E., Shah, Rupal J., Venado, Aida, Kolaitis, Nicholas A., Perez, Alyssa, Combes, Alexis, and Greenland, John R.

Subjects

*T cells, *CD8 antigen, *LUNGS, *HOMOGRAFTS, *LUNG transplantation

Abstract

Acute lung allograft dysfunction (ALAD) is an imprecise syndrome denoting concern for the onset of chronic lung allograft dysfunction (CLAD). Mechanistic biomarkers are needed that stratify risk of ALAD progression to CLAD. We hypothesized that single cell investigation of bronchoalveolar lavage (BAL) cells at the time of ALAD would identify immune cells linked to progressive graft dysfunction. We prospectively collected BAL from consenting lung transplant recipients for single cell RNA sequencing. ALAD was defined by a ≥10% decrease in FEV 1 not caused by infection or acute rejection and samples were matched to BAL from recipients with stable lung function. We examined cell compositional and transcriptional differences across control, ALAD with decline, and ALAD with recovery groups. We also assessed cell-cell communication. BAL was assessed for 17 ALAD cases with subsequent decline (ALAD declined), 13 ALAD cases that resolved (ALAD recovered), and 15 cases with stable lung function. We observed broad differences in frequencies of the 26 unique cell populations across groups (p = 0.02). A CD8 T cell (p = 0.04) and a macrophage cluster (p = 0.01) best identified ALAD declined from the ALAD recovered and stable groups. This macrophage cluster was distinguished by an anti-inflammatory signature and the CD8 T cell cluster resembled a Tissue Resident Memory subset. Anti-inflammatory macrophages signaled to activated CD8 T cells via class I HLA, fibronectin, and galectin pathways (p < 0.05 for each). Recipients with discordance between these cells had a nearly 5-fold increased risk of severe graft dysfunction or death (HR 4.6, 95% CI 1.1–19.2, adjusted p = 0.03). We validated these key findings in 2 public lung transplant genomic datasets. BAL anti-inflammatory macrophages may protect against CLAD by suppressing CD8 T cells. These populations merit functional and longitudinal assessment in additional cohorts. [ABSTRACT FROM AUTHOR]

Published

2024

12. West Nile Virus-Induced Expression of Senescent Gene Lgals3bp Regulates Microglial Phenotype within Cerebral Cortex.

Author

Arutyunov, Artem, Durán-Laforet, Violeta, Ai, Shenjian, Ferrari, Loris, Murphy, Robert, Schafer, Dorothy P., and Klein, Robyn S.

Subjects

*WEST Nile fever, *WEST Nile virus, *CELL populations, *COGNITIVE aging, *GENE expression

Abstract

Microglia, the resident macrophages of the central nervous system, exhibit altered gene expression in response to various neurological conditions. This study investigates the relationship between West Nile Virus infection and microglial senescence, focusing on the role of LGALS3BP, a protein implicated in both antiviral responses and aging. Using spatial transcriptomics, RNA sequencing and flow cytometry, we characterized changes in microglial gene signatures in adult and aged mice following recovery from WNV encephalitis. Additionally, we analyzed Lgals3bp expression and generated Lgals3bp-deficient mice to assess the impact on neuroinflammation and microglial phenotypes. Our results show that WNV-activated microglia share transcriptional signatures with aged microglia, including upregulation of genes involved in interferon response and inflammation. Lgals3bp was broadly expressed in the CNS and robustly upregulated during WNV infection and aging. Lgals3bp-deficient mice exhibited reduced neuroinflammation, increased homeostatic microglial numbers, and altered T cell populations without differences in virologic control or survival. These data indicate that LGALS3BP has a role in regulating neuroinflammation and microglial activation and suggest that targeting LGALS3BP might provide a potential route for mitigating neuroinflammation-related cognitive decline in aging and post-viral infections. [ABSTRACT FROM AUTHOR]

Published

2024

13. Active Tuberculosis Is Associated with Depletion of HIV-Specific CD4 and CD8 T Cells in People with HIV.

Author

Khayumbi, Jeremiah, Sasser, Loren E., McLaughlin, Taryn A., Muchiri, Benson, Ongalo, Joshua, Tonui, Joan, Ouma, Samuel Gurrion, Campbell, Angie, Odhiambo, Felix Hayara, Kiprotich, Chelimo, Gandhi, Neel R., and Day, Cheryl L.

Abstract

Infection with Mycobacterium tuberculosis (Mtb) in people with HIV (PWH) is associated with depletion of Mtb-specific CD4 T cell responses, increased risk of progression to active tuberculosis (TB) disease, and increased immune activation. Although higher HIV viral loads have been reported in Mtb/HIV co-infection, the extent to which Mtb infection and TB disease impact the frequency and phenotype of HIV-specific T cell responses has not been well described. We enrolled a cohort of PWH in Kenya across a spectrum of Mtb infection states, including those with no evidence of Mtb infection, latent Mtb infection (LTBI), and active pulmonary TB disease, and evaluated the frequency, immune activation, and cytotoxicity phenotype of HIV-specific CD4 and CD8 T cell responses in peripheral blood by flow cytometry. We found evidence of depletion of HIV-specific CD4 and CD8 T cells in people with TB, but not with LTBI. Expression of the immune activation markers human leukocyte antigen-DR isotype (HLA-DR) and Ki67 and of the cytotoxic molecules granzyme B and perforin were increased in total CD4 and CD8 T cell populations in individuals with TB, although expression of these markers by HIV-specific CD4 and CD8 T cells did not differ by Mtb infection status. These data suggest that TB is associated with overall increased T cell activation and cytotoxicity and with depletion of HIV-specific CD4 and CD8 T cells, which may contribute to further impairment of T cell–mediated immune control of HIV replication in the setting of TB. [ABSTRACT FROM AUTHOR]

Published

2024

14. Comparative analysis of the DNA methylation landscape in CD4, CD8, and B memory lineages

Author

Zhang, Ze, Butler, Rondi, Koestler, Devin C, Bell-Glenn, Shelby, Warrier, Gayathri, Molinaro, Annette M, Christensen, Brock C, Wiencke, John K, Kelsey, Karl T, and Salas, Lucas A

Subjects

Biological Sciences, Genetics, Human Genome, 1.1 Normal biological development and functioning, Humans, DNA Methylation, Epigenesis, Genetic, Immunologic Memory, CD8-Positive T-Lymphocytes, Cell Differentiation, CD4-Positive T-Lymphocytes, Immune response, Immune activation, CD4 T cell, CD8 T cell, B cell, TEMRA, Central memory cell, Effector memory cell, DNA methylation, Clinical Sciences, Paediatrics and Reproductive Medicine

Abstract

BackgroundThere is considerable evidence that epigenetic mechanisms and DNA methylation are critical drivers of immune cell lineage differentiation and activation. However, there has been limited coordinated investigation of common epigenetic pathways among cell lineages. Further, it remains unclear if long-lived memory cell subtypes differentiate distinctly by cell lineages.ResultsWe used the Illumina EPIC array to investigate the consistency of DNA methylation in B cell, CD4 T, and CD8 T naïve and memory cells states. In the process of naïve to memory activation across the three lineages, we identify considerable shared epigenetic regulation at the DNA level for immune memory generation. Further, in central to effector memory differentiation, our analyses revealed specific CpG dinucleotides and genes in CD4 T and CD8 T cells with DNA methylation changes. Finally, we identified unique DNA methylation patterns in terminally differentiated effector memory (TEMRA) CD8 T cells compared to other CD8 T memory cell subtypes.ConclusionsOur data suggest that epigenetic alterations are widespread and essential in generating human lymphocyte memory. Unique profiles are involved in methylation changes that accompany memory genesis in the three subtypes of lymphocytes.

Published

2022

15. CD8 T cell-derived perforin regulates macrophage-mediated inflammation in a murine model of gout.

Author

Wang, Tianqi, Zhang, Chunpan, Zhou, Mingzhu, Zhou, Hang, Zhang, Xia, Liu, Huilan, Bai, Mingxin, Xu, Yuetong, Yang, Fan, Zhu, Fengyunzhi, Hao, Qiyuan, Zhang, Tong, Song, Shuju, Qi, Haiyu, and Liu, Yanying

Subjects

*PERFORINS, *CD8 antigen, *GOUT, *JOINT diseases, *KILLER cells, *FATTY liver

Abstract

Objectives: Gout is characterized by hyperuricemia and recurrent inflammatory episodes caused by intra-articular crystal deposition of monosodium urate (MSU). There is a clear relationship between gout and metabolic syndrome. Recent evidence indicates that perforin plays a role in regulating glucose homeostasis and provides protection in diet-induced non-alcoholic steatohepatitis models. However, the impact of perforin on immune inflammation in gout remains unclear. Methods: We induced acute gout models in both wild-type (WT) mice and Prf1null mice by administering intra-articular injections of MSU crystals. We compared the ankle joint swelling and the histological score between the two groups. Furthermore, we investigated underlying mechanisms through in vitro co-culture experiments involving CD8 T cells and macrophages. Results: In this study, Prf1null mice showed significantly more pronounced ankle swelling with increased inflammatory cell infiltrations compared with WT mice 24 h after local MSU injection. Moreover, MSU-induced Prf1null mice exhibited increased accumulation of CD8 T cells but not NK cells. Perforin-deficient CD8 T cells displayed reduced cytotoxicity towards bone marrow–derived M0 and M1 macrophages and promoted TNF-α secretion from macrophage. Conclusions: Perforin from CD8 T cells limits joint inflammation in mice with acute gout by downregulating macrophage-mediated inflammation. Key Points • Perforin deficiency increased swelling in the ankle joints of mice upon MSU injection. • Perforin deficiency is associated with increased immune cell recruitment and severe joint damage in gout. • Perforin regulated CD8 T cell accumulation in gout and promoted CD8 T cell cytotoxicity towards M0 and M1 macrophages. • CD8 T cell-derived perforin regulated pro-inflammatory cytokine secretion of macrophage. [ABSTRACT FROM AUTHOR]

Published

2024

16. Single-Cell RNA-Sequencing Reveals Heterogeneity and Transcriptional Dynamics in Porcine Circulating CD8 + T Cells.

Author

Han, Pingping, Guo, Yaping, Zhang, Wei, Wang, Daoyuan, Wu, Yalan, Li, Xinyun, and Zhu, Mengjin

Subjects

*CD8 antigen, *T cell differentiation, *RNA sequencing, *T cells, *HETEROGENEITY, *BLOOD cells, *PORCINE reproductive & respiratory syndrome

Abstract

Pigs are the most important source of meat and valuable biomedical models. However, the porcine immune system, especially the heterogeneity of CD8 T cell subtypes, has not been fully characterized. Here, using single-cell RNA sequencing, we identified 14 major cell types from peripheral blood circulating cells of pigs and observed remarkable heterogeneity among CD8 T cell types. Upon re-clustering of CD8+ T cells, we defined four CD8 T cell subtypes and revealed their potential differentiation trajectories and transcriptomic differences among them. Additionally, we identified transcription factors with potential regulatory roles in maintaining CD8 T cell differentiation. The cell-cell communication analysis inferred an extensive interaction between CD8 T cells and other immune cells. Finally, cross-species analysis further identified species-specific and conserved cell types across different species. Overall, our study provides the first insight into the extensive functional heterogeneity and state transitions among porcine CD8 T cell subtypes in pig peripheral blood, complements the knowledge of porcine immunity, and enhances its potential as a biomedical model. [ABSTRACT FROM AUTHOR]

Published

2024

17. Navigating the landscape of the unfolded protein response in CD8+ T cells

Author

Keith Alan Nair and Bei Liu

Subjects

endoplasmic reticulum stress, unfolded protein response, IRE1, PERK, ATF6, CD8 T cell, Immunologic diseases. Allergy, RC581-607

Abstract

Endoplasmic reticulum stress occurs due to large amounts of misfolded proteins, hypoxia, nutrient deprivation, and more. The unfolded protein is a complex intracellular signaling network designed to operate under this stress. Composed of three individual arms, inositol-requiring enzyme 1, protein kinase RNA-like ER kinase, and activating transcription factor-6, the unfolded protein response looks to resolve stress and return to proteostasis. The CD8+ T cell is a critical cell type for the adaptive immune system. The unfolded protein response has been shown to have a wide-ranging spectrum of effects on CD8+ T cells. CD8+ T cells undergo cellular stress during activation and due to environmental insults. However, the magnitude of the effects this response has on CD8+ T cells is still understudied. Thus, studying these pathways is important to unraveling the inner machinations of these powerful cells. In this review, we will highlight the recent literature in this field, summarize the three pathways of the unfolded protein response, and discuss their roles in CD8+ T cell biology and functionality.

Published

2024

18. Dynamic monitoring of viral gene expression reveals rapid antiviral effects of CD8 T cells recognizing the HCMV-pp65 antigen

Author

Fawad Khan, Thomas R. Müller, Bahram Kasmapour, Mario Alberto Ynga-Durand, Britta Eiz-Vesper, Jens von Einem, Dirk H. Busch, and Luka Cicin-Sain

Subjects

cytomegalovirus (CMV), CD8 T cell, functional assay, live cell imaging, recombinant virus, Immunologic diseases. Allergy, RC581-607

Abstract

IntroductionHuman Cytomegalovirus (HCMV) is a betaherpesvirus that causes severe disease in immunocompromised transplant recipients. Immunotherapy with CD8 T cells specific for HCMV antigens presented on HLA class-I molecules is explored as strategy for long-term relief to such patients, but the antiviral effectiveness of T cell preparations cannot be efficiently predicted by available methods.MethodsWe developed an Assay for Rapid Measurement of Antiviral T-cell Activity (ARMATA) by real-time automated fluorescent microscopy and used it to study the ability of CD8 T cells to neutralize HCMV and control its spread. As a proof of principle, we used TCR-transgenic T cells specific for the immunodominant HLA-A02-restricted tegumental phosphoprotein pp65. pp65 expression follows an early/late kinetic, but it is not clear at which stage of the virus cycle it acts as an antigen. We measured control of HCMV infection by T cells as early as 6 hours post infection (hpi).ResultsThe timing of the antigen recognition indicated that it occurred before the late phase of the virus cycle, but also that virion-associated pp65 was not recognized during virus entry into cells. Monitoring of pp65 gene expression dynamics by reporter fluorescent genes revealed that pp65 was detectable as early as 6 hpi, and that a second and much larger bout of expression occurs in the late phase of the virus cycle by 48 hpi. Since transgenic (Tg)-pp65 specific CD8 T cells were activated even when DNA replication was blocked, our data argue that pp65 acts as an early virus gene for immunological purposes.DiscussionARMATA does not only allow same day identification of antiviral T-cell activity, but also provides a method to define the timing of antigen recognition in the context of HCMV infection.

Published

2024

19. CD8 cytotoxic T-cell infiltrates and cellular damage in the hypothalamus in human obesity

Author

Jared T. Ahrendsen, Yi Nong, Yuda Huo, Jasmine Steele, and Matthew P. Anderson

Subjects

Obesity, Hypothalamus, CD8 T cell, Inflammation, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Rare cases of paraneoplastic obesity in children suggest sporadic obesity might also arise from an adaptive immune cell-mediated mechanism. Since the hypothalamus is a central regulator of feeding behavior and energy expenditure, we quantified lymphocytic inflammation in this region in a cohort of obese and non-obese human post-mortem brains. We report that CD8-positive cytotoxic T-cells are increased in hypothalamic median eminence/arcuate nucleus (ME/Arc) and bed nucleus of the stria terminalis in 40% of obese compared to non-obese patients, but not in other hypothalamic nuclei or brain regions. CD8 T-cells were most abundant in individuals with concurrent obesity and diabetes. Markers of cytotoxic T-cell induced damage, activated caspase 3 and poly-ADP ribose, were also elevated in the ME/Arc of obese patients. To provoke CD8 cytotoxic T-cell infiltrates in ventromedial region of hypothalamus in mice we performed stereotactic injections of an adeno-associated virus expressing immunogenic green fluorescent protein or saline. AAV but not saline injections triggered hypothalamic CD8 T-cell infiltrates associated with a rapid weight gain in mice recapitulating the findings in human obesity. This is the first description of the neuropathology of human obesity and when combined with its reconstitution in a mouse model suggests adaptive immunity may drive as much as 40% of the human condition.

Published

2023

20. Targeting MHC-I inhibitory pathways for cancer immunotherapy.

Author

Wang, Jun, Lu, Qiao, Chen, Xufeng, and Aifantis, Iannis

Subjects

*GENETIC regulation, *ANTIGEN presentation, *IMMUNOTHERAPY, *GENE expression, *IMMUNE response, *T cell receptors

Abstract

An aberrant MHC-I antigen presentation pathway has been closely linked to low tumor immunogenicity and immunotherapy resistance. Genetic alteration or reduced expression of MHC-I positive regulators has been observed in certain cancers, but is considered a challenge for the development of targeted therapies. MHC-I modulation by cancer-associated inhibitory mechanisms is becoming an emerging field of study, calling for a search for specific modulators and their underlying biology and function in MHC-I modulation and tumor immunity. A membrane-associated MHC-I inhibitory axis was recently documented, mediating MHC-I ubiquitination and subsequent lysosomal degradation in leukemia and solid cancers. We posit that the future exploration of MHC-I inhibitory pathways and their potential application represents an exciting direction for cancer immunotherapy. Cancer cells efficiently hijack the MHC-I antigen presentation (AP) pathway to escape from immunosurveillance and cause resistance to immunotherapy. Exploring specific mechanisms that actively inhibit MHC-I expression and/or AP in tumors can improve our understanding of immune regulation in cancers and provide potential targets for next-generation cancer immunotherapy. The MHC-I antigen presentation (AP) pathway is key to shaping mammalian CD8+ T cell immunity, with its aberrant expression closely linked to low tumor immunogenicity and immunotherapy resistance. While significant attention has been given to genetic mutations and downregulation of positive regulators that are essential for MHC-I AP, there is a growing interest in understanding how tumors actively evade MHC-I expression and/or AP through the induction of MHC-I inhibitory pathways. This emerging field of study may offer more viable therapeutic targets for future cancer immunotherapy. Here, we explore potential mechanisms by which cancer cells evade MHC-I AP and function and propose therapeutic strategies that might target these MHC-I inhibitors to restore impaired T cell immunity within the tumor microenvironment (TME). [ABSTRACT FROM AUTHOR]

Published

2024

21. Regulatory T cells in inflamed liver are dysfunctional in murine primary biliary cholangitis.

Author

Lin, Chia-I, Wang, Yu-Wen, Liu, Chih-Yu, Chen, Hung-Wen, Liang, Pi-Hui, and Chuang, Ya-Hui

Subjects

*REGULATORY T cells, *LIVER cells, *INTRAHEPATIC bile ducts, *CHOLANGITIS, *T cells

Abstract

Primary biliary cholangitis (PBC) is a chronic autoimmune disease characterized by immune-mediated destruction of intrahepatic small bile ducts. CD8 T cells play a critical role in biliary destruction. However, regulatory T cells (Tregs) have also been identified in the portal tracts of PBC patients. This study tested the hypothesis that hepatic Tregs in PBC were dysfunctional in suppressing immune responses in disease by using our human PBC-like autoimmune cholangitis (AIC) mouse model induced by 2-octynoic acid-conjugated ovalbumin (2-OA-OVA). Our results showed that female and male mice immunized with 2-OA-OVA developed AIC; however, female AIC mice had more severe liver inflammation and fibrosis than male AIC mice. Levels of functional effector CD8 T cells and their chemoattractants, CXCL9 and CXCL10, in the liver were markedly elevated in female AIC mice than in male AIC mice. These results reinforce that CD8 T cells are the primary effector cells in PBC. The number of hepatic Tregs in AIC mice was also higher than in saline-treated mice, but there was no difference between male and female AIC mice. The suppressive function of AIC Tregs was evident despite a discrepancy in the changes in their co-inhibitory receptors and inhibitory cytokines. However, the expansion of hepatic Tregs by low-dose IL-2 treatment did not reduce immune responses to AIC, which may be due to the dysfunction of Tregs in inhibiting T cells. In conclusion, the function of Tregs in the inflamed liver of PBC was insufficient, and low-dose IL-2 treatment could not restore their function to suppress pathological immune responses. Transferring normal Tregs or directly targeting effector CD8 T cells may be beneficial for treating PBC. In 2-OA-OVA immunized autoimmune cholangitis (AIC) mice, a model resembling primary biliary cholangitis, elevated levels of functional CD8 T cells and related chemoattractants in the liver were observed, potentially contributing to biliary epithelial cell damage. Additionally, regulatory T cells (Tregs) in the AIC liver demonstrated inadequate suppressive function, even when expanded through low-dose IL-2 treatment. Graphical Abstract [ABSTRACT FROM AUTHOR]

Published

2024

22. Identification of potential immunologic resilience in the healing process of diabetic foot ulcers.

Author

Cheng, Yifeng, Ren, Lei, Niyazi, Aihemaitijiang, Sheng, Li, and Zhao, Yang

Subjects

WOUND healing, PSYCHOLOGICAL resilience, FLOW cytometry, PEOPLE with diabetes, RESEARCH funding, REVERSE transcriptase polymerase chain reaction, CELLULAR signal transduction, BIOINFORMATICS, GENE expression profiling, DIABETIC foot, COMPARATIVE studies, PSYCHOSOCIAL factors, INTERLEUKINS

Abstract

Diabetic foot ulcers (DFUs) are one of the most common and challenging complications of diabetes, yet our understanding of their pathogenesis remains limited. We collected gene expression data of DFU patients from public databases. Bioinformatics tools were applied for systematic analysis, including the identification of differentially expressed genes (DEGs), weighted gene co‐expression network analysis (WGCNA) and enrichment analysis. We further used single‐cell RNA sequencing to identify the distribution of different cell populations in DFU. Finally, key results were validated using reverse transcription‐quantitative polymerase chain reaction (RT‐qPCR) and flow cytometry. We identified 217 DEGs between ulcerated and healthy skin, and 37 DEGs between healing ulcers and ulcers. WGCNA revealed that the cyan module had the highest positive correlation with healthy skin and negative correlation with ulcers. The black module had the highest negative correlation with healthy skin and positive correlation with ulcers. Enrichment analysis showed that the genes in the cyan module were mainly associated with complement and coagulation cascades, while the genes in the black module were mainly associated with the IL‐17 signalling pathway. In addition, CD8 T cells were significantly lower in ulcers than in healthy and healing ulcers. By comparing marker genes of CD8 T cells, we identified key genes in the cyan and black modules and validated their expression using RT‐qPCR. The proportion of CD8 T cells was increased in healing ulcers. Flow cytometry detected increased levels of CD8 T, B and natural killer cells in healing ulcers. CD8 T cells and related key genes play an important role in the healing process of DFU. The results of this study provide a new perspective for understanding the pathogenesis and treatment of DFU. [ABSTRACT FROM AUTHOR]

Published

2024

23. Enhanced antigen-specific CD8 T cells contribute to early protection against FMDV through swine DC vaccination.

Author

Suyu Mu, Lingbo Chen, Hu Dong, Shuai Li, Yun Zhang, Shuanghui Yin, Yunfei Tian, Yaozhong Ding, Shiqi Sun, Shaobin Shang, and Huichen Guo

Subjects

*CYTOTOXIC T cells, *T cells, *MICE, *CD8 antigen, *SWINE, *FOOT & mouth disease, *VACCINATION, *BLOOD cells

Abstract

Foot-and-mouth disease virus (FMDV) remains a challenge for clovenhooved animals. The currently licensed FMDV vaccines induce neutralizing antibody (NAb)-mediated protection but show defects in the early protection. Dendritic cell (DC) vaccines have shown great potency in inducing rapid T-cell immunity in humans and mice. Whether DC vaccination could enhance early protection against FMDV has not been elaborately explored in domestic pigs. In this study, we employed DC vaccination as an experimental approach to study the roles of cellular immunity in the early protection against FMDV in pigs. Autologous DCs were differentiated from the periphery blood mononuclear cells of each pig, pulsed with inactivated FMDV (iFMDV-DC) and treated with LPS, and then injected into the original pigs. The cellular immune responses and protective efficacy elicited by the iFMDV-DC were examined by multicolor flow cytometry and tested by FMDV challenge. The results showed that autologous iFMDV-DC immunization induced predominantly FMDV-specific IFN-γ-producing CD4+ T cells and cytotoxic CD8+ T cells (CTLs), high NAb titers, compared to the inactivated FMDV vaccine, and accelerated the development of memory CD4 and CD8 T cells, which was concomitantly associated with early protection against FMDV virulent strain in pigs. Such early protection was associated with the rapid proliferation of secondary T-cell response after challenge and significantly contributed by secondary CD8 effector memory T cells. These results demonstrated that rapid induction of cellular immunity through DC immunization is important for improving early protection against FMDV. Enhancing cytotoxic CD8+ T cells may facilitate the development of more effective FMDV vaccines. IMPORTANCE Although the currently licensed FMDV vaccines provide NAb-mediated protection, they have defects in early immune protection, especially in pigs. In this study, we demonstrated that autologous swine DC immunization augmented the cellular immune response and induced an early protective response against FMDV in pigs. This approach induced predominantly FMDV-specific IFN-γ-producing CD4+ T cells and cytotoxic CD8+ T cells, high NAb titers, and rapid development of memory CD4 and CD8 T cells. Importantly, the early protection conferred by this DC immunization is more associated with secondary CD8+ T response rather than NAbs. Our findings highlighted the importance of enhancing cytotoxic CD8+ T cells in early protection to FMDV in addition to Th1 response and identifying a strategy or adjuvant comparable to the DC vaccine might be a future direction for improving the current FMDV vaccines. [ABSTRACT FROM AUTHOR]

Published

2024

24. The cellular microenvironment regulates CX3CR1 expression on CD8+ T cells and the maintenance of CX3CR1+ CD8+ T cells.

Author

Pokharel, Jyoti, Shryki, Iman, Zwijnenburg, Anthonie J., Sandu, Ioana, Krumm, Laura, Bekiari, Christina, Avramov, Victor, Heinbäck, Rebecka, Lysell, Josefin, Eidsmo, Liv, Harris, Helena E., and Gerlach, Carmen

Subjects

CHEMOKINE receptors, T cells, CXCR4 receptors, CELL death, IMMUNOLOGIC memory

Abstract

Expression levels of the chemokine receptor CX3CR1 serve as high‐resolution marker delineating functionally distinct antigen‐experienced T‐cell states. The factors that influence CX3CR1 expression in T cells are, however, incompletely understood. Here, we show that in vitro priming of naïve CD8+ T cells failed to robustly induce CX3CR1, which highlights the shortcomings of in vitro priming settings in recapitulating in vivo T‐cell differentiation. Nevertheless, in vivo generated memory CD8+ T cells maintained CX3CR1 expression during culture. This allowed us to investigate whether T‐cell receptor ligation, cell death, and CX3CL1 binding influence CX3CR1 expression. T‐cell receptor stimulation led to downregulation of CX3CR1. Without stimulation, CX3CR1+ CD8+ T cells had a selective survival disadvantage, which was enhanced by factors released from necrotic but not apoptotic cells. Exposure to CX3CL1 did not rescue their survival and resulted in a dose‐dependent loss of CX3CR1 surface expression. At physiological concentrations of CX3CL1, CX3CR1 surface expression was only minimally reduced, which did not hamper the interpretability of T‐cell differentiation states delineated by CX3CR1. Our data further support the broad utility of CX3CR1 surface levels as T‐cell differentiation marker and identify factors that influence CX3CR1 expression and the maintenance of CX3CR1 expressing CD8+ T cells. [ABSTRACT FROM AUTHOR]

Published

2024

25. Deconvolution of bulk gene expression profiles reveals the association between immune cell polarization and the prognosis of hepatocellular carcinoma patients

Author

Yen‐Jung Chiu, Chung‐En Ni, and Yen‐Hua Huang

Subjects

bulk gene expression profiles, CD8 T cell, deconvolution, hepatocellular carcinoma, immune cell polarization, therapy response subtypes, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Many studies have utilized computational methods, including cell composition deconvolution (CCD), to correlate immune cell polarizations with the survival of cancer patients, including those with hepatocellular carcinoma (HCC). However, currently available cell deconvolution estimated (CDE) tools do not cover the wide range of immune cell changes that are known to influence tumor progression. Results A new CCD tool, HCCImm, was designed to estimate the abundance of tumor cells and 16 immune cell types in the bulk gene expression profiles of HCC samples. HCCImm was validated using real datasets derived from human peripheral blood mononuclear cells (PBMCs) and HCC tissue samples, demonstrating that HCCImm outperforms other CCD tools. We used HCCImm to analyze the bulk RNA‐seq datasets of The Cancer Genome Atlas (TCGA)‐liver hepatocellular carcinoma (LIHC) samples. We found that the proportions of memory CD8+ T cells and Tregs were negatively associated with patient overall survival (OS). Furthermore, the proportion of naïve CD8+ T cells was positively associated with patient OS. In addition, the TCGA‐LIHC samples with a high tumor mutational burden had a significantly high abundance of nonmacrophage leukocytes. Conclusions HCCImm was equipped with a new set of reference gene expression profiles that allowed for a more robust analysis of HCC patient expression data. The source code is provided at https://github.com/holiday01/HCCImm.

Published

2023

26. Mitochondrial regulation of CD8+ T cell cytotoxicity

Author

Lisci, Miriam and Griffiths, Gillian

Subjects

CTL, cytotoxic T lymphocyte, CD8+ T cell, mitochondria, USP30, mitochondrial translation, CD8 T cell, cytotoxic T cell, mitochondria lymphocyte, mitochondria T cell

Abstract

Recent discoveries in the field of immunometabolism have emphasised the importance of mitochondria in the context of T cell development, differentiation, signalling and exhaustion. However, the question of whether mitochondria can actively participate to the killing activity of differentiated, cytotoxic CD8+ T cells (CTLs) remains unanswered. In this work I analyse CTLs derived from USP30-deficient mice, which have been previously characterised as part of the Infection, Immunity and Immunophenotype Consortium and shown to display altered CTL killing. USP30 is a deubiquitinase localised on the outer mitochondrial membrane and on the peroxisomal membrane, where it counteracts mitophagy and pexophagy by cleaving ubiquitin chains from target proteins. Here I characterise T cell motility, signalling, energy requirements and cytotoxicity in CD8+ T cells derived from splenocytes of Usp30-/- mice. Furthermore, I test different mitochondrial functions using both genetic and pharmacological manipulation of oxidative phosphorylation, mitochondrial calcium flux and mitochondrial translation. I highlight mitochondrial translation as a previously uncharacterised mitochondrial function that allows for optimal CTL cytotoxicity. Specifically, I show that both Usp30-/- CTLs and CTLs in which mitochondrial translation is inhibited display impaired cytosolic protein synthesis, which results in lower abundance of cytolytic molecules essential for killing. This requirement was especially evident when CTLs were limiting in numbers or when they needed to sustain killing for prolonged time, underscoring the importance of efficient mitochondrial translation during an immune challenge. Finally, I investigate mechanisms that could link mitochondrial translation to a loss of cytosolic protein synthesis, including mTOR signalling, mitochondrial reactive oxygen species generation and the integrated stress response. Overall, this work uncovers a novel role for mitochondrial translation in CTL cytotoxicity and adds to the growing body of evidence revealing the multifaceted and crucial roles of mitochondria in T cell function.

Published

2021

27. Single-cell analysis by mass cytometry reveals metabolic states of early-activated CD8+ T cells during the primary immune response

Author

Levine, Lauren S, Hiam-Galvez, Kamir J, Marquez, Diana M, Tenvooren, Iliana, Madden, Matthew Z, Contreras, Diana C, Dahunsi, Debolanle O, Irish, Jonathan M, Oluwole, Olalekan O, Rathmell, Jeffrey C, and Spitzer, Matthew H

Subjects

Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Immunology, Vaccine Related, Rare Diseases, Digestive Diseases, Lymphoma, Prevention, Emerging Infectious Diseases, Cancer, Hematology, Biodefense, 1.1 Normal biological development and functioning, 2.1 Biological and endogenous factors, Underpinning research, Aetiology, Inflammatory and immune system, Animals, CD8-Positive T-Lymphocytes, Cell Proliferation, Female, Glycolysis, Immunologic Memory, Listeria monocytogenes, Listeriosis, Lymphocyte Activation, Mice, Mice, Inbred C57BL, Mice, Transgenic, Oxidative Phosphorylation, Receptors, Chimeric Antigen, Signal Transduction, Single-Cell Analysis, CD8 T cell, T cell activation, immunometabolism, mass cytometry

Abstract

Memory T cells are thought to rely on oxidative phosphorylation and short-lived effector T cells on glycolysis. Here, we investigated how T cells arrive at these states during an immune response. To understand the metabolic state of rare, early-activated T cells, we adapted mass cytometry to quantify metabolic regulators at single-cell resolution in parallel with cell signaling, proliferation, and effector function. We interrogated CD8+ T cell activation in vitro and in response to Listeria monocytogenes infection in vivo. This approach revealed a distinct metabolic state in early-activated T cells characterized by maximal expression of glycolytic and oxidative metabolic proteins. Cells in this transient state were most abundant 5 days post-infection before rapidly decreasing metabolic protein expression. Analogous findings were observed in chimeric antigen receptor (CAR) T cells interrogated longitudinally in advanced lymphoma patients. Our study demonstrates the utility of single-cell metabolic analysis by mass cytometry to identify metabolic adaptations of immune cell populations in vivo and provides a resource for investigations of metabolic regulation of immune responses across a variety of applications.

Published

2021

28. Long-Lasting, Fine-Tuned Anti-Tumor Activity of Recombinant Listeria monocytogenes Vaccine Is Controlled by Pyroptosis and Necroptosis Regulatory and Effector Molecules

Author

Abolaji S. Olagunju, Andrew V. D. Sardinha, and Gustavo P. Amarante-Mendes

Subjects

L. monocytogenes, anti-tumor vaccine, CD8 T cell, pyroptosis, necroptosis, Medicine

Abstract

One of the main objectives of developing new anti-cancer vaccine strategies is to effectively induce CD8+ T cell-mediated anti-tumor immunity. Live recombinant vectors, notably Listeria monocytogenes, have been shown to elicit a robust in vivo CD8+ T-cell response in preclinical settings. Significantly, it has been demonstrated that Listeria induces inflammatory/immunogenic cell death mechanisms such as pyroptosis and necroptosis in immune cells that favorably control immunological responses. Therefore, we postulated that the host’s response to Listeria-based vectors and the subsequent induction of CD8+ T cell-mediated immunity would be compromised by the lack of regulatory or effector molecules involved in pyroptosis or necroptosis. To test our hypothesis, we used recombinant L. monocytogenes carrying the ovalbumin gene (LM.OVA) to vaccinate wild-type (WT), caspase-1/11−/−, gsdmd−/−, ripk3−/−, and mlkl−/− C57Bl/6 mice. We performed an in vivo cytotoxicity assay to assess the efficacy of OVA-specific CD8+ T lymphocytes in eliminating target cells in wild-type and genetically deficient backgrounds. Furthermore, we evaluated the specific anti-tumor immune response in mice inoculated with the B16F0 and B16F0.OVA melanoma cell lines. Our findings demonstrated that while caspase-1/11 and GSDMD deficiencies interfere with the rapid control of LM.OVA infection, neither of the KOs seems to contribute to the early activation of OVA-specific CTL responses. In contrast, the individual deficiency of each one of these proteins positively impacts the generation of long-lasting effector CD8+ T cells.

Published

2024

29. TGF-β broadly modifies rather than specifically suppresses reactivated memory CD8 T cells in a dose-dependent manner.

Author

Taber, Alexis, Konecny, Andrew, Oda, Shannon K., Scott-Browne, James, and Prlic, Martin

Subjects

*IMMUNOLOGIC memory, *TRANSFORMING growth factors, *IMMUNE response, *CYTOTOXINS, *CD8 antigen

Abstract

Transforming growth factor β (TGF-β) directly acts on naive, effector, and memory T cells to control cell fate decisions, which was shown using genetic abrogation of TGF-β signaling. TGF-β availability is altered by infections and cancer; however, the dose-dependent effects of TGF-β on memory CD8 T cell (Tmem) reactivation are still poorly defined. We examined how activation and TGF-β signals interact to shape the functional outcome of Tmem reactivation. We found that TGF-β could suppress cytotoxicity in a manner that was inversely proportional to the strength of the activating TCR or proinflammatory signals. In contrast, even high doses of TGF-β had a comparatively modest effect on IFN-γ expression in the context of weak and strong reactivation signals. Since CD8 Tmem may not always receive TGF-β signals concurrently with reactivation, we also explored whether the temporal order of reactivation versus TGF-β signals is of importance. We found that exposure to TGF-β before or after an activation event were both sufficient to reduce cytotoxic effector function. Concurrent ATAC-seq and RNA-seq analysis revealed that TGF-β altered ~10% of the regulatory elements induced by reactivation and also elicited transcriptional changes indicative of broadly modulated functional properties. We confirmed some changes on the protein level and found that TGF-β-induced expression of CCR8 was inversely proportional to the strength of the reactivating TCR signal. Together, our data suggest that TGF-β is not simply suppressing CD8 Tmem but modifies functional and chemotactic properties in context of their reactivation signals and in a dose-dependent manner. [ABSTRACT FROM AUTHOR]

Published

2023

30. CD8 cytotoxic T-cell infiltrates and cellular damage in the hypothalamus in human obesity.

Author

Ahrendsen, Jared T., Nong, Yi, Huo, Yuda, Steele, Jasmine, and Anderson, Matthew P.

Subjects

HYPOTHALAMUS, OBESITY, GREEN fluorescent protein, CD8 antigen, T cells, CHILDHOOD obesity, ADENOSINE diphosphate

Abstract

Rare cases of paraneoplastic obesity in children suggest sporadic obesity might also arise from an adaptive immune cell-mediated mechanism. Since the hypothalamus is a central regulator of feeding behavior and energy expenditure, we quantified lymphocytic inflammation in this region in a cohort of obese and non-obese human post-mortem brains. We report that CD8-positive cytotoxic T-cells are increased in hypothalamic median eminence/arcuate nucleus (ME/Arc) and bed nucleus of the stria terminalis in 40% of obese compared to non-obese patients, but not in other hypothalamic nuclei or brain regions. CD8 T-cells were most abundant in individuals with concurrent obesity and diabetes. Markers of cytotoxic T-cell induced damage, activated caspase 3 and poly-ADP ribose, were also elevated in the ME/Arc of obese patients. To provoke CD8 cytotoxic T-cell infiltrates in ventromedial region of hypothalamus in mice we performed stereotactic injections of an adeno-associated virus expressing immunogenic green fluorescent protein or saline. AAV but not saline injections triggered hypothalamic CD8 T-cell infiltrates associated with a rapid weight gain in mice recapitulating the findings in human obesity. This is the first description of the neuropathology of human obesity and when combined with its reconstitution in a mouse model suggests adaptive immunity may drive as much as 40% of the human condition. [ABSTRACT FROM AUTHOR]

Published

2023

31. CXCL8 induces M2 macrophage polarization and inhibits CD8+ T cell infiltration to generate an immunosuppressive microenvironment in colorectal cancer.

Author

Shao, Ying, Lan, Yan, Chai, Xinyue, Gao, Shuhua, Zheng, Jinxiu, Huang, Rui, Shi, Yu, Xiang, Yi, Guo, Hongmei, Xi, Yanfeng, Yang, Lijun, and Yang, Tao

Abstract

The poor prognosis of immunotherapy in patients with colorectal cancer (CRC) necessitates a comprehensive understanding of the immunosuppressive mechanisms within tumor microenvironment (TME). Undoubtedly, the anti‐tumor immune cells play an indispensable role in immune tolerance. Therefore, it is imperative to investigate novel immune‐related factors that have the capacity to enhance anti‐tumor immunity. Here, we employed bioinformatic analysis using R and Cytoscape to identify the hub gene chemokine (C‐X‐C motif) ligand 8 (CXCL8), which is overexpressed in CRC, in the malignant progression of CRC. However, its specific role of CXCL8 in CRC immunity remains to be elucidated. For this purpose, we evaluated how tumor‐derived CXCL8 promotes M2 macrophage infiltration by in vivo and in vitro, which can be triggered by IL‐1β within TME. Mechanistically, CXCL8‐induced polarization of M2 macrophages depends on the activation of the STAT3 signaling. Finally, immunohistochemistry and multiplexed immunohistochemistry analysis identified that CXCL8 not only enhances PD‐L1+ M2 macrophage infiltration but also attenuates the recruitment of PD‐1+CD8+ T cells in murine CRC models. Together, these findings emphasize the critical role for CXCL8 in promoting M2 macrophage polarization and inhibiting CD8+ T cell infiltration, thereby links CXCL8 to the emergency of immunosuppressive microenvironment facilitating tumor evasion. Overall, these findings may provide novel strategy for CRC immunotherapy. [ABSTRACT FROM AUTHOR]

Published

2023

32. CD8 T cells drive anorexia, dysbiosis, and blooms of a commensal with immunosuppressive potential after viral infection

Author

Labarta-Bajo, Lara, Gramalla-Schmitz, Anna, Gerner, Romana R, Kazane, Katelynn R, Humphrey, Gregory, Schwartz, Tara, Sanders, Karenina, Swafford, Austin, Knight, Rob, Raffatellu, Manuela, and Zúñiga, Elina I

Subjects

Vaccine Related, Biodefense, Prevention, Genetics, Infectious Diseases, Emerging Infectious Diseases, 2.2 Factors relating to the physical environment, 2.1 Biological and endogenous factors, Aetiology, Infection, Akkermansia, Animals, Anorexia, CD8 Antigens, CD8-Positive T-Lymphocytes, Dysbiosis, Firmicutes, Gastrointestinal Microbiome, Humans, Immunologic Memory, Lymphocytic Choriomeningitis, Lymphocytic choriomeningitis virus, Mice, T-Lymphocytes, Verrucomicrobia, Virus Diseases, CD8 T cell, LCMV, microbiome, anorexia

Abstract

Infections elicit immune adaptations to enable pathogen resistance and/or tolerance and are associated with compositional shifts of the intestinal microbiome. However, a comprehensive understanding of how infections with pathogens that exhibit distinct capability to spread and/or persist differentially change the microbiome, the underlying mechanisms, and the relative contribution of individual commensal species to immune cell adaptations is still lacking. Here, we discovered that mouse infection with a fast-spreading and persistent (but not a slow-spreading acute) isolate of lymphocytic choriomeningitis virus induced large-scale microbiome shifts characterized by increased Verrucomicrobia and reduced Firmicute/Bacteroidetes ratio. Remarkably, the most profound microbiome changes occurred transiently after infection with the fast-spreading persistent isolate, were uncoupled from sustained viral loads, and were instead largely caused by CD8 T cell responses and/or CD8 T cell-induced anorexia. Among the taxa enriched by infection with the fast-spreading virus, Akkermansia muciniphila, broadly regarded as a beneficial commensal, bloomed upon starvation and in a CD8 T cell-dependent manner. Strikingly, oral administration of A. muciniphila suppressed selected effector features of CD8 T cells in the context of both infections. Our findings define unique microbiome differences after chronic versus acute viral infections and identify CD8 T cell responses and downstream anorexia as driver mechanisms of microbial dysbiosis after infection with a fast-spreading virus. Our data also highlight potential context-dependent effects of probiotics and suggest a model in which changes in host behavior and downstream microbiome dysbiosis may constitute a previously unrecognized negative feedback loop that contributes to CD8 T cell adaptations after infections with fast-spreading and/or persistent pathogens.

Published

2020

33. Vaccine induced memory CD8+ T cells efficiently prevent viral transmission from the respiratory tract

Author

Jinglin Zhou, Ida Uddback, Jacob E. Kohlmeier, Jan Pravsgaard Christensen, and Allan Randrup Thomsen

Subjects

vaccines, resident memory T cells (Trm), virus’, mucosal surface, CD8 T cell, herd immunity, Immunologic diseases. Allergy, RC581-607

Abstract

IntroductionMucosal immunization eliciting local T-cell memory has been suggested for improved protection against respiratory infections caused by viral variants evading pre-existing antibodies. However, it remains unclear whether T-cell targeted vaccines suffice for prevention of viral transmission and to which extent local immunity is important in this context.MethodsTo study the impact of T-cell vaccination on the course of viral respiratory infection and in particular the capacity to inhibit viral transmission, we used a mouse model involving natural murine parainfluenza infection with a luciferase encoding virus and an adenovirus based nucleoprotein targeting vaccine.Results and discussionPrior intranasal immunization inducing strong mucosal CD8+ T cell immunity provided an almost immediate shut-down of the incipient infection and completely inhibited contact based viral spreading. If this first line of defense did not operate, as in parentally immunized mice, recirculating T cells participated in accelerated viral control that reduced the intensity of inter-individual transmission. These observations underscore the importance of pursuing the development of mucosal T-cell inducing vaccines for optimal protection of the individual and inhibition of inter-individual transmission (herd immunity), while at the same time explain why induction of a strong systemic T-cell response may still impact viral transmission.

Published

2023

34. Group 2 innate lymphoid cells boost CD8+ T-cell activation in anti-tumor immune responses

Author

Jing Wen, Shipeng Cheng, Ran Wang, Yuying Huang, Long Xu, Liyan Ma, Zhiyang Ling, Jinfu Xu, Deping Zhao, Yaguang Zhang, and Bing Sun

Subjects

anti-tumor response, antigen presentation, CD8 T cell, ILC2, Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Group 2 innate lymphoid cells (ILC2s) are essential for orchestrating type 2 immune responses during allergic airway inflammation and infection. ILC2s have been reported to play a regulatory role in tumors; however, this conclusion is controversial. In this study, we showed that IL-33-activated ILC2s could boost CD8+ T-cell function through direct antigen cross-presentation. After activation by IL-33, ILC2s showed an enhanced potential to process antigens and prime CD8+ T cell activation. Activated ILC2s could phagocytose exogenous antigens in vivo and in vitro, promoting antigen-specific CD8+ T cell function to enhance antitumor immune responses. Administration of OVA-loaded ILC2s induces robust antitumor effects on the OVA-expressing tumor model. These findings suggested that the administration of tumor antigen-loaded ILC2s might serve as a potential strategy for cancer treatment.

Published

2023

35. Systemic virus infection results in CD8 T cell recruitment to the retina in the absence of local virus infection.

Author

Paskeviciute, Egle, Mei Chen, Heping Xu, Honoré, Bent, Vorum, Henrik, Sørensen, Torben Lykke, Christensen, Jan Pravsgaard, Thomsen, Allan Randrup, Nissen, Mogens Holst, and Steffensen, Maria Abildgaard

Subjects

T cells, VIRUS diseases, RETINA, CD8 antigen, IMMUNOCOMPETENT cells

Abstract

During recent years, evidence has emerged that immune privileged sites such as the CNS and the retina may be more integrated in the systemic response to infection than was previously believed. In line with this, it was recently shown that a systemic acute virus infection leads to infiltration of CD8 T cells in the brains of immunocompetent mice. In this study, we extend these findings to the neurological tissue of the eye, namely the retina. We show that an acute systemic virus infection in mice leads to a transient CD8 T cell infiltration in the retina that is not directed by virus infection inside the retina. CD8 T cells were found throughout the retinal tissue, and had a high expression of CXCR6 and CXCR3, as also reported for tissue residing CD8 T cells in the lung and liver. We also show that the pigment epithelium lining the retina expresses CXCL16 (the ligand for CXCR6) similar to epithelial cells of the lung. Thus, our results suggest that the retina undergoes immune surveillance during a systemic infection, and that this surveillance appears to be directed by mechanisms similar to those described for non-privileged tissues. [ABSTRACT FROM AUTHOR]

Published

2023

36. Deconvolution of bulk gene expression profiles reveals the association between immune cell polarization and the prognosis of hepatocellular carcinoma patients.

Author

Chiu, Yen‐Jung, Ni, Chung‐En, and Huang, Yen‐Hua

Subjects

GENE expression profiling, CANCER prognosis, MONONUCLEAR leukocytes, GENE expression, T cells

Abstract

Background: Many studies have utilized computational methods, including cell composition deconvolution (CCD), to correlate immune cell polarizations with the survival of cancer patients, including those with hepatocellular carcinoma (HCC). However, currently available cell deconvolution estimated (CDE) tools do not cover the wide range of immune cell changes that are known to influence tumor progression. Results: A new CCD tool, HCCImm, was designed to estimate the abundance of tumor cells and 16 immune cell types in the bulk gene expression profiles of HCC samples. HCCImm was validated using real datasets derived from human peripheral blood mononuclear cells (PBMCs) and HCC tissue samples, demonstrating that HCCImm outperforms other CCD tools. We used HCCImm to analyze the bulk RNA‐seq datasets of The Cancer Genome Atlas (TCGA)‐liver hepatocellular carcinoma (LIHC) samples. We found that the proportions of memory CD8+ T cells and Tregs were negatively associated with patient overall survival (OS). Furthermore, the proportion of naïve CD8+ T cells was positively associated with patient OS. In addition, the TCGA‐LIHC samples with a high tumor mutational burden had a significantly high abundance of nonmacrophage leukocytes. Conclusions: HCCImm was equipped with a new set of reference gene expression profiles that allowed for a more robust analysis of HCC patient expression data. The source code is provided at https://github.com/holiday01/HCCImm. [ABSTRACT FROM AUTHOR]

Published

2023

37. Insights into phenotypic and functional CD8+ TRM heterogeneity.

Author

Heeg, Maximilian and Goldrath, Ananda W.

Subjects

*CYTOTOXIC T cells, *HETEROGENEITY, *IMMUNOLOGIC memory, *PHENOTYPES, *DESIGN protection

Abstract

Summary: Cytotoxic CD8+ T cells recognize and eliminate infected or cancerous cells. A subset of CD8+ memory T cells called tissue‐resident memory T cells (TRM) resides in peripheral tissues, monitors the periphery for pathogen invasion, and offers a rapid and potent first line of defense at potential sites of re‐infection. TRM cells are found in almost all tissues and are transcriptionally and epigenetically distinct from circulating memory populations, which shows their ability to acclimate to the tissue environment to allow for long‐term survival. Recent work and the broader availability of single‐cell profiling have highlighted TRM heterogeneity among different tissues, as well as identified specialized subsets within individual tissues, that are time and infection dependent. TRM cell phenotypic and transcriptional heterogeneity has implications for understanding TRM function and longevity. This review aims to summarize and discuss the latest findings on CD8+ TRM heterogeneity using single‐cell molecular profiling and explore the potential implications for immune protection and the design of immune therapies. [ABSTRACT FROM AUTHOR]

Published

2023

38. Preoperative Immunotherapy for Prostate Cancer: From Bench to Bedside

Author

Drake, Charles G., Necchi, Andrea, editor, and Spiess, Philippe E., editor

Published

2022

39. Robust Control of a Brain-Persisting Parasite through MHC I Presentation by Infected Neurons

Author

Salvioni, Anna, Belloy, Marcy, Lebourg, Aurore, Bassot, Emilie, Cantaloube-Ferrieu, Vincent, Vasseur, Virginie, Blanié, Sophie, Liblau, Roland S, Suberbielle, Elsa, Robey, Ellen A, and Blanchard, Nicolas

Subjects

Biological Sciences, Neurosciences, Emerging Infectious Diseases, Infectious Diseases, Biodefense, Brain Disorders, Prevention, Vaccine Related, Infection, Neurological, Animals, Antibodies, Protozoan, Antigens, Protozoan, Brain, Cell Line, Cells, Cultured, Histocompatibility Antigens Class I, Humans, Male, Mice, Mice, Inbred C57BL, Neurons, Protozoan Proteins, Toxoplasma, Toxoplasmosis, Cerebral, CD8 T cell, Toxoplasma gondii, antigen presentation, brain infection, encephalitis, neuroinflammation, neuron, parasite, Biochemistry and Cell Biology, Medical Physiology, Biological sciences

Abstract

Control of CNS pathogens by CD8 T cells is key to avoid fatal neuroinflammation. Yet, the modalities of MHC I presentation in the brain are poorly understood. Here, we analyze the antigen presentation mechanisms underlying CD8 T cell-mediated control of the Toxoplasma gondii parasite in the CNS. We show that MHC I presentation of an efficiently processed model antigen (GRA6-OVA), even when not expressed in the bradyzoite stage, reduces cyst burden and dampens encephalitis in C57BL/6 mice. Antigen presentation assays with infected primary neurons reveal a correlation between lower MHC I presentation of tachyzoite antigens by neurons and poor parasite control in vivo. Using conditional MHC I-deficient mice, we find that neuronal MHC I presentation is required for robust restriction of T. gondii in the CNS during chronic phase, showing the importance of MHC I presentation by CNS neurons in the control of a prevalent brain pathogen.

Published

2019

40. Systemic virus infection results in CD8 T cell recruitment to the retina in the absence of local virus infection

Author

Egle Paskeviciute, Mei Chen, Heping Xu, Bent Honoré, Henrik Vorum, Torben Lykke Sørensen, Jan Pravsgaard Christensen, Allan Randrup Thomsen, Mogens Holst Nissen, and Maria Abildgaard Steffensen

Subjects

retina, lymphocytic choriomeningitis virus (LCMV), CD8 T cell, retinal pigment epithelial cell, CXCR6, CXCL16, Immunologic diseases. Allergy, RC581-607

Abstract

During recent years, evidence has emerged that immune privileged sites such as the CNS and the retina may be more integrated in the systemic response to infection than was previously believed. In line with this, it was recently shown that a systemic acute virus infection leads to infiltration of CD8 T cells in the brains of immunocompetent mice. In this study, we extend these findings to the neurological tissue of the eye, namely the retina. We show that an acute systemic virus infection in mice leads to a transient CD8 T cell infiltration in the retina that is not directed by virus infection inside the retina. CD8 T cells were found throughout the retinal tissue, and had a high expression of CXCR6 and CXCR3, as also reported for tissue residing CD8 T cells in the lung and liver. We also show that the pigment epithelium lining the retina expresses CXCL16 (the ligand for CXCR6) similar to epithelial cells of the lung. Thus, our results suggest that the retina undergoes immune surveillance during a systemic infection, and that this surveillance appears to be directed by mechanisms similar to those described for non-privileged tissues.

Published

2023

41. Modeling cell-mediated immunity in human type 1 diabetes by engineering autoreactive CD8+ T cells.

Author

Peters, Leeana D., Wen-I Yeh, Arnoletti, Juan M., Brown, Matthew E., Posgai, Amanda L., Mathews, Clayton E., and Brusko, Todd M.

Subjects

TYPE 1 diabetes, T cells, CD25 antigen, CELLULAR immunity, GENETIC transformation, REGULATORY T cells, T cell receptors, GRANZYMES, CHIMERIC antigen receptors

Abstract

The autoimmune pathogenesis of type 1 diabetes (T1D) involves cellular infiltration from innate and adaptive immune subsets into the islets of Langerhans within the pancreas; however, the direct cytotoxic killing of insulin-producing b-cells is thought to be mediated primarily by antigenspecific CD8+ T cells. Despite this direct pathogenic role, key aspects of their receptor specificity and function remain uncharacterized, in part, due to their low precursor frequency in peripheral blood. The concept of engineering human T cell specificity, using T cell receptor (TCR) and chimeric antigen receptor (CAR)- based approaches, has been demonstrated to improve adoptive cell therapies for cancer, but has yet to be extensively employed for modeling and treating autoimmunity. To address this limitation, we sought to combine targeted genome editing of the endogenous TCRa chain gene (TRAC) via CRISPR/Cas9 in combination with lentiviral vector (LV)-mediated TCR gene transfer into primary human CD8+ T cells. We observed that knockout (KO) of endogenous TRAC enhanced de novo TCR pairing, which permitted increased peptide:MHCdextramer staining. Moreover, TRAC KO and TCR gene transfer increased markers of activation and effector function following activation, including granzyme B and interferon-g production. Importantly, we observed increased cytotoxicity toward an HLA-A*0201+ human b-cell line by HLA-A*02:01 restricted CD8+ T cells engineered to recognize islet-specific glucose-6-phosphatase catalytic subunit (IGRP). These data support the notion of altering the specificity of primary human T cells for mechanistic analyses of autoreactive antigen-specific CD8+ T cells and are expected to facilitate downstream cellular therapeutics to achieve tolerance induction through the generation of antigenspecific regulatory T cells. [ABSTRACT FROM AUTHOR]

Published

2023

42. Variation in CD8 T cell IFNγ differentiation to strains of Toxoplasma gondii is characterized by small effect QTLs with contribution from ROP16.

Author

Kongsomboonvech, Angel K., García-López, Laura, Njume, Ferdinand, Rodriguez, Felipe, Souza, Scott P., Rosenberg, Alex, and Jensen, Kirk D. C.

Subjects

T cell differentiation, CD8 antigen, BREEDING, LOCUS (Genetics), T cells, TOXOPLASMA gondii, X chromosome

Abstract

Introduction: Toxoplasma gondii induces a strong CD8 T cell response characterized by the secretion of IFNγ that promotes host survival during infection. The initiation of CD8 T cell IFNγ responses in vitro differs widely between clonal lineage strains of T. gondii, in which type I strains are low inducers, while types II and III strains are high inducers. We hypothesized this phenotype is due to a polymorphic “Regulator Of CD8 T cell Response” (ROCTR). Methods: Therefore, we screened F1 progeny from genetic crosses between the clonal lineage strains to identify ROCTR. Naïve antigen-specific CD8 T cells (T57) isolated from transnuclear mice, which are specific for the endogenous and vacuolar TGD057 antigen, were measured for their ability to become activated, transcribe Ifng and produce IFNγ in response to T. gondii infected macrophages. Results: Genetic mapping returned four non-interacting quantitative trait loci (QTL) with small effect on T. gondii chromosomes (chr) VIIb-VIII, X and XII. These loci encompass multiple gene candidates highlighted by ROP16 (chrVIIb-VIII), GRA35 (chrX), TgNSM (chrX), and a pair of uncharacterized NTPases (chrXII), whose locus we report to be significantly truncated in the type I RH background. Although none of the chromosome X and XII candidates bore evidence for regulating CD8 T cell IFNγ responses, type I variants of ROP16 lowered Ifng transcription early after T cell activation. During our search for ROCTR, we also noted the parasitophorous vacuole membrane (PVM) targeting factor for dense granules (GRAs), GRA43, repressed the response suggesting PVM-associated GRAs are important for CD8 T cell activation. Furthermore, RIPK3 expression in macrophages was an absolute requirement for CD8 T cell IFNγ differentiation implicating the necroptosis pathway in T cell immunity to T. gondii. Discussion: Collectively, our data suggest that while CD8 T cell IFNγ production to T. gondii strains vary dramatically, it is not controlled by a single polymorphism with strong effect. However, early in the differentiation process, polymorphisms in ROP16 can regulate commitment of responding CD8 T cells to IFNγ production which may have bearing on immunity to T. gondii. [ABSTRACT FROM AUTHOR]

Published

2023

43. Immune Responses to Muscle-Directed Adeno-Associated Viral Gene Transfer in Clinical Studies.

Author

Kumar, Sandeep R.P., Duan, Dongsheng, and Herzog, Roland W.

Subjects

*VIRAL genes, *IMMUNE response, *GENETIC transformation, *CYTOTOXIC T cells, *IMMUNOREGULATION, *VIRAL antibodies, *NEUROMUSCULAR diseases

Abstract

Muscle-directed gene therapy with adeno-associated viral (AAV) vectors is undergoing clinical development for treating neuromuscular disorders and for systemic delivery of therapeutic proteins. Although these approaches show considerable therapeutic benefits, they are also prone to induce potent immune responses against vector or transgene products owing to the immunogenic nature of the intramuscular delivery route, or the high doses required for systemic delivery to muscle. Major immunological concerns include antibody formation against viral capsid, complement activation, and cytotoxic T cell responses against capsid or transgene products. They can negate therapy and even lead to life-threatening immunotoxicities. Herein we review clinical observations and provide an outlook for how the field addresses these problems through a combination of vector engineering and immune modulation. [ABSTRACT FROM AUTHOR]

Published

2023

44. Enhanced inhibition of MHC-I expression by SARS-CoV-2 Omicron subvariants.

Author

Moriyama, Miyu, Lucas, Carolina, Monteiro, Valter Silva, and Iwasaki, Akiko

Subjects

*SARS-CoV-2, *SARS-CoV-2 Omicron variant

Abstract

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) variants of concern (VOCs) possess mutations that confer resistance to neutralizing antibodies within the Spike protein and are associated with breakthrough infection and reinfection. By contrast, less is known about the escape from CD8+ T cell-mediated immunity by VOC. Here, we demonstrated that all SARS-CoV-2 VOCs possess the ability to suppress major histocompatibility complex class I (MHC-I) expression. We identified several viral genes that contribute to the suppression of MHC I expression. Notably, MHC-I upregulation was strongly inhibited after SARS-CoV-2 but not influenza virus infection in vivo. While earlier VOCs possess similar capacity as the ancestral strain to suppress MHC-I, the Omicron subvariants exhibited a greater ability to suppress surface MHC-I expression. We identified a common mutation in the E protein of Omicron that further suppressed MHC-I expression. Collectively, our data suggest that in addition to escaping from neutralizing antibodies, the success of Omicron subvariants to cause breakthrough infection and reinfection may in part be due to its optimized evasion from T cell recognition. [ABSTRACT FROM AUTHOR]

Published

2023

45. Variation in CD8 T cell IFNγ differentiation to strains of Toxoplasma gondii is characterized by small effect QTLs with contribution from ROP16

Author

Angel K. Kongsomboonvech, Laura García-López, Ferdinand Njume, Felipe Rodriguez, Scott P. Souza, Alex Rosenberg, and Kirk D. C. Jensen

Subjects

Toxoplasm gondii, CD8 T cell, QTL (quantitative trait loci), IFN-gamma, GRA43, TgNSM, Microbiology, QR1-502

Abstract

IntroductionToxoplasma gondii induces a strong CD8 T cell response characterized by the secretion of IFNγ that promotes host survival during infection. The initiation of CD8 T cell IFNγ responses in vitro differs widely between clonal lineage strains of T. gondii, in which type I strains are low inducers, while types II and III strains are high inducers. We hypothesized this phenotype is due to a polymorphic “Regulator Of CD8 T cell Response” (ROCTR).MethodsTherefore, we screened F1 progeny from genetic crosses between the clonal lineage strains to identify ROCTR. Naïve antigen-specific CD8 T cells (T57) isolated from transnuclear mice, which are specific for the endogenous and vacuolar TGD057 antigen, were measured for their ability to become activated, transcribe Ifng and produce IFNγ in response to T. gondii infected macrophages.ResultsGenetic mapping returned four non-interacting quantitative trait loci (QTL) with small effect on T. gondii chromosomes (chr) VIIb-VIII, X and XII. These loci encompass multiple gene candidates highlighted by ROP16 (chrVIIb-VIII), GRA35 (chrX), TgNSM (chrX), and a pair of uncharacterized NTPases (chrXII), whose locus we report to be significantly truncated in the type I RH background. Although none of the chromosome X and XII candidates bore evidence for regulating CD8 T cell IFNγ responses, type I variants of ROP16 lowered Ifng transcription early after T cell activation. During our search for ROCTR, we also noted the parasitophorous vacuole membrane (PVM) targeting factor for dense granules (GRAs), GRA43, repressed the response suggesting PVM-associated GRAs are important for CD8 T cell activation. Furthermore, RIPK3 expression in macrophages was an absolute requirement for CD8 T cell IFNγ differentiation implicating the necroptosis pathway in T cell immunity to T. gondii.DiscussionCollectively, our data suggest that while CD8 T cell IFNγ production to T. gondii strains vary dramatically, it is not controlled by a single polymorphism with strong effect. However, early in the differentiation process, polymorphisms in ROP16 can regulate commitment of responding CD8 T cells to IFNγ production which may have bearing on immunity to T. gondii.

Published

2023

46. Modeling cell-mediated immunity in human type 1 diabetes by engineering autoreactive CD8+ T cells

Author

Leeana D. Peters, Wen-I Yeh, Juan M. Arnoletti, Matthew E. Brown, Amanda L. Posgai, Clayton E. Mathews, and Todd M. Brusko

Subjects

CD8 T cell, T cell receptor knockout, type 1 diabetes, gene editing, autoimmunity, Immunologic diseases. Allergy, RC581-607

Abstract

The autoimmune pathogenesis of type 1 diabetes (T1D) involves cellular infiltration from innate and adaptive immune subsets into the islets of Langerhans within the pancreas; however, the direct cytotoxic killing of insulin-producing β-cells is thought to be mediated primarily by antigen-specific CD8+ T cells. Despite this direct pathogenic role, key aspects of their receptor specificity and function remain uncharacterized, in part, due to their low precursor frequency in peripheral blood. The concept of engineering human T cell specificity, using T cell receptor (TCR) and chimeric antigen receptor (CAR)-based approaches, has been demonstrated to improve adoptive cell therapies for cancer, but has yet to be extensively employed for modeling and treating autoimmunity. To address this limitation, we sought to combine targeted genome editing of the endogenous TCRα chain gene (TRAC) via CRISPR/Cas9 in combination with lentiviral vector (LV)-mediated TCR gene transfer into primary human CD8+ T cells. We observed that knockout (KO) of endogenous TRAC enhanced de novo TCR pairing, which permitted increased peptide:MHC-dextramer staining. Moreover, TRAC KO and TCR gene transfer increased markers of activation and effector function following activation, including granzyme B and interferon-γ production. Importantly, we observed increased cytotoxicity toward an HLA-A*0201+ human β-cell line by HLA-A*02:01 restricted CD8+ T cells engineered to recognize islet-specific glucose-6-phosphatase catalytic subunit (IGRP). These data support the notion of altering the specificity of primary human T cells for mechanistic analyses of autoreactive antigen-specific CD8+ T cells and are expected to facilitate downstream cellular therapeutics to achieve tolerance induction through the generation of antigen-specific regulatory T cells.

Published

2023

47. Sepsis-induced changes in differentiation, maintenance, and function of memory CD8 T cell subsets.

Author

Heidarian, Mohammad, Griffith, Thomas S., and Badovinac, Vladimir P.

Subjects

IMMUNOLOGIC memory, T cell differentiation, HOMEOSTASIS, T cells, CYTOLOGY

Abstract

Formation of long-lasting memory lymphocytes is one of the foundational characteristics of adaptive immunity and the basis of many vaccination strategies. Following the rapid expansion and contraction of effector CD8 T cells, the surviving antigen (Ag)-specific cells give rise to the memory CD8 T cells that persist for a long time and are phenotypically and functionally distinct from their naïve counterparts. Significant heterogeneity exists within the memory CD8 T cell pool, as different subsets display distinct tissue localization preferences, cytotoxic ability, and proliferative capacity, but all memory CD8 T cells are equipped to mount an enhanced immune response upon Ag re-encounter. Memory CD8 T cells demonstrate numerical stability under homeostatic conditions, but sepsis causes a significant decline in the number of memory CD8 T cells and diminishes their Ag-dependent and -independent functions. Sepsis also rewires the transcriptional profile of memory CD8 T cells, which profoundly impacts memory CD8 T cell differentiation and, ultimately, the protective capacity of memory CD8 T cells upon subsequent stimulation. This review delves into different aspects of memory CD8 T cell subsets as well as the immediate and long-term impact of sepsis on memory CD8 T cell biology. [ABSTRACT FROM AUTHOR]

Published

2023

48. Group 2 innate lymphoid cells boost CD8+ T-cell activation in anti-tumor immune responses.

Author

Wen, Jing, Cheng, Shipeng, Wang, Ran, Huang, Yuying, Xu, Long, Ma, Liyan, Ling, Zhiyang, Xu, Jinfu, Zhao, Deping, Zhang, Yaguang, and Sun, Bing

Subjects

INNATE lymphoid cells, IMMUNE response, T cells, CELL physiology, ANTIGEN processing

Abstract

Group 2 innate lymphoid cells (ILC2s) are essential for orchestrating type 2 immune responses during allergic airway inflammation and infection. ILC2s have been reported to play a regulatory role in tumors; however, this conclusion is controversial. In this study, we showed that IL-33-activated ILC2s could boost CD8+ T-cell function through direct antigen cross-presentation. After activation by IL-33, ILC2s showed an enhanced potential to process antigens and prime CD8+ T cell activation. Activated ILC2s could phagocytose exogenous antigens in vivo and in vitro, promoting antigen-specific CD8+ T cell function to enhance antitumor immune responses. Administration of OVA-loaded ILC2s induces robust antitumor effects on the OVA-expressing tumor model. These findings suggested that the administration of tumor antigen-loaded ILC2s might serve as a potential strategy for cancer treatment. [ABSTRACT FROM AUTHOR]

Published

2023

49. Contrasting roles of PSGL-1 and PD-1 in regulating T-cell exhaustion and function during chronic viral infection.

Author

Viramontes KM, Thone MN, De La Torre J-J, Neubert EN, DeRogatis JM, Garcia C, Henriquez ML, and Tinoco R

Abstract

Immune checkpoints are critical regulators of T-cell exhaustion, impairing their ability to eliminate antigens present during chronic viral infections. Current immune checkpoint inhibitors (ICIs) used in the clinic aim to reinvigorate exhausted T cells; yet, most patients fail to respond or develop resistance to these therapies, underscoring the need to better understand these immunosuppressive pathways. PSGL-1 ( Selplg ), a recently discovered immune checkpoint, negatively regulates T-cell function. We investigated the cell-intrinsic effects of PSGL-1, PD-1, and combined deletion on CD8 + T cells during chronic viral infection. We found that combined PSGL-1 and PD-1 ( Selplg -/- Pdcd1 -/- ) deficiency in CD8 + T cells increased their frequencies and numbers throughout chronic infection compared to the wild type. This phenotype was primarily driven by PD-1 deficiency. Furthermore, while PD-1 deletion increased virus-specific T-cell frequencies, it was detrimental to their function. Conversely, PSGL-1 deletion improved T-cell function but resulted in lower frequencies and numbers. The primary mechanism behind these differences in cell maintenance was driven by proliferation rather than survival. Combined PSGL-1 and PD-1 deletion resulted in defective T-cell differentiation, driving cells from a progenitor self-renewal state to a more terminal dysfunctional state. These findings suggest that PD-1 and PSGL-1 have distinct, yet complementary, roles in regulating T-cell exhaustion and differentiation during chronic viral infection. Overall, this study provides novel insights into the individual and combined roles of PSGL-1 and PD-1 in CD8 + T-cell exhaustion. It underscores the potential of targeting these checkpoints in a more dynamic and sequential manner to optimize virus-specific T-cell responses, offering critical perspectives for improving therapeutic strategies aimed at reinvigorating exhausted CD8 + T cells.IMPORTANCEOur findings provide a comprehensive analysis of how the dual deletion of PD-1 and PSGL-1 impacts the response and function of virus-specific CD8 + T cells, revealing novel insights into their roles in chronic infection. Notably, our findings show that while PD-1 deletion enhances T-cell frequencies, it paradoxically reduces T-cell functionality. Conversely, PSGL-1 deletion improves T-cell function but reduces their survival. Whereas the combined deletion of PSGL-1 and PD-1 in CD8 + T cells improved their survival but decreased their function and progenitor-exhausted phenotypes during infection. We believe our study advances the understanding of immune checkpoint regulation in chronic infections and has significant implications for developing more effective immune checkpoint inhibitor (ICI) therapies.

Published

2025

50. Sepsis-induced changes in differentiation, maintenance, and function of memory CD8 T cell subsets

Author

Mohammad Heidarian, Thomas S. Griffith, and Vladimir P. Badovinac

Subjects

sepsis, memory, CD8 T cell, composition, differentiation, function, Immunologic diseases. Allergy, RC581-607

Abstract

Formation of long-lasting memory lymphocytes is one of the foundational characteristics of adaptive immunity and the basis of many vaccination strategies. Following the rapid expansion and contraction of effector CD8 T cells, the surviving antigen (Ag)-specific cells give rise to the memory CD8 T cells that persist for a long time and are phenotypically and functionally distinct from their naïve counterparts. Significant heterogeneity exists within the memory CD8 T cell pool, as different subsets display distinct tissue localization preferences, cytotoxic ability, and proliferative capacity, but all memory CD8 T cells are equipped to mount an enhanced immune response upon Ag re-encounter. Memory CD8 T cells demonstrate numerical stability under homeostatic conditions, but sepsis causes a significant decline in the number of memory CD8 T cells and diminishes their Ag-dependent and -independent functions. Sepsis also rewires the transcriptional profile of memory CD8 T cells, which profoundly impacts memory CD8 T cell differentiation and, ultimately, the protective capacity of memory CD8 T cells upon subsequent stimulation. This review delves into different aspects of memory CD8 T cell subsets as well as the immediate and long-term impact of sepsis on memory CD8 T cell biology.

Published

2023