Your search keyword '"Heath, WR"' showing total 318 results

1. Complexing CpG adjuvants with cationic liposomes enhances vaccine-induced formation of liver TRM cells

Author

Valencia-Hernandez, AM, Zillinger, T, Ge, Z, Tan, PS, Cozijnsen, A, McFadden, GI, Lahoud, MH, Caminschi, I, Barchet, W, Heath, WR, Fernandez-Ruiz, D, Valencia-Hernandez, AM, Zillinger, T, Ge, Z, Tan, PS, Cozijnsen, A, McFadden, GI, Lahoud, MH, Caminschi, I, Barchet, W, Heath, WR, and Fernandez-Ruiz, D

Abstract

Tissue resident memory T cells (TRM cells) can provide effective tissue surveillance and can respond rapidly to infection. Vaccination strategies aimed at generating TRM cells have shown promise against a range of pathogens. We have previously shown that the choice of adjuvant critically influences CD8+ TRM cell formation in the liver. However, the range of adjuvants tested was limited. Here, we assessed the ability of a broad range of adjuvants stimulating membrane (TLR4), endosomal (TLR3, TLR7 and TLR9) and cytosolic (cGAS, RIG-I) pathogen recognition receptors for their capacity to induce CD8+ TRM formation in a subunit vaccination model. We show that CpG oligodeoxynucleotides (ODN) remain the most efficient inducers of liver TRM cells among all adjuvants tested. Moreover, their combination with the cationic liposome DOTAP further enhances the potency, particularly of the class B ODN CpG 1668 and the human TLR9 ligand CpG 2006 (CpG 7909). This study informs the design of efficient liver TRM-based vaccines for their potential translation.

Published

2023

2. mRNA vaccine against malaria tailored for liver-resident memory T cells

Author

Ganley, M, Holz, LE, Minnell, JJ, de Menezes, MN, Burn, OK, Poa, KCY, Draper, SL, English, K, Chan, STS, Anderson, RJ, Compton, BJ, Marshall, AJ, Cozijnsen, A, Chua, YC, Ge, Z, Farrand, KJ, Mamum, JC, Xu, C, Cockburn, IA, Yui, K, Bertolino, P, Gras, S, Le Nours, J, Rossjohn, J, Fernandez-Ruiz, D, McFadden, GI, Ackerley, DF, Painter, GF, Hermans, IF, Heath, WR, Ganley, M, Holz, LE, Minnell, JJ, de Menezes, MN, Burn, OK, Poa, KCY, Draper, SL, English, K, Chan, STS, Anderson, RJ, Compton, BJ, Marshall, AJ, Cozijnsen, A, Chua, YC, Ge, Z, Farrand, KJ, Mamum, JC, Xu, C, Cockburn, IA, Yui, K, Bertolino, P, Gras, S, Le Nours, J, Rossjohn, J, Fernandez-Ruiz, D, McFadden, GI, Ackerley, DF, Painter, GF, Hermans, IF, and Heath, WR

Abstract

Malaria is caused by Plasmodium species transmitted by Anopheles mosquitoes. Following a mosquito bite, Plasmodium sporozoites migrate from skin to liver, where extensive replication occurs, emerging later as merozoites that can infect red blood cells and cause symptoms of disease. As liver tissue-resident memory T cells (Trm cells) have recently been shown to control liver-stage infections, we embarked on a messenger RNA (mRNA)-based vaccine strategy to induce liver Trm cells to prevent malaria. Although a standard mRNA vaccine was unable to generate liver Trm or protect against challenge with Plasmodium berghei sporozoites in mice, addition of an agonist that recruits T cell help from type I natural killer T cells under mRNA-vaccination conditions resulted in significant generation of liver Trm cells and effective protection. Moreover, whereas previous exposure of mice to blood-stage infection impaired traditional vaccines based on attenuated sporozoites, mRNA vaccination was unaffected, underlining the potential for such a rational mRNA-based strategy in malaria-endemic regions.

Published

2023

3. The unexpected contribution of conventional type 1 dendritic cells in driving antibody responses

Author

Steiner, TM, Heath, WR, Caminschi, I, Steiner, TM, Heath, WR, and Caminschi, I

Abstract

Antibodies are hallmarks of most effective vaccines. For successful T-dependent antibody responses, conventional dendritic cells (cDC) have been largely attributed the role of priming T cells. By contrast, follicular dendritic cells and macrophages have been seen as responsible for B cell activation, due to their strategic location within secondary lymphoid tissues and capacity to present native antigen to B cells. This review summarizes the mounting evidence that cDC can also present native antigen to B cells. cDC2 have been the main subset linked to humoral responses, based largely on their favorable location, capacity to prime CD4+ T cells, and ability to present native antigen to B cells. However, studies using strategies to deliver antigen to receptors on cDC1, reveal this subset can also contribute to naïve B cell activation, as well as T cell priming. cDC1 location within lymphoid tissues reveals their juxtaposition to B cell follicles, with ready access to B cells for presentation of native antigen. These findings support the view that both cDC1 and cDC2 are capable of initiating humoral responses provided antigen is captured by relevant surface receptors attuned to this process. Such understanding is fundamental for the development of innovative humoral vaccination approaches.

Published

2022

4. The liver contains distinct interconnected networks of CX3CR1+ macrophages, XCR1+ type 1 and CD301a+ type 2 conventional dendritic cells embedded within portal tracts

Author

English, K, Tan, SY, Kwan, R, Holz, LE, Sierro, F, McGuffog, C, Kaisho, T, Heath, WR, MacDonald, KPA, McCaughan, GW, Bowen, DG, Bertolino, P, English, K, Tan, SY, Kwan, R, Holz, LE, Sierro, F, McGuffog, C, Kaisho, T, Heath, WR, MacDonald, KPA, McCaughan, GW, Bowen, DG, and Bertolino, P

Abstract

Portal tracts are key intrahepatic structures where leukocytes accumulate during immune responses. They contain the blood inflow, which includes portal blood from the gut, and lymphatic and biliary outflow of the liver, and as such represent a key interface for potential pathogen entry to the liver. Myeloid cells residing in the interstitium of the portal tract might play an important role in the surveillance or prevention of pathogen dissemination; however, the exact composition and localization of this population has not been explored fully. Our in-depth characterization of portal tract myeloid cells revealed that in addition to T lymphocytes, portal tracts contain a heterogeneous population of MHCIIhigh myeloid cells with potential antigen presenting cell (APC) function. These include a previously unreported subset of CSF1R-dependent CX3CR1+ macrophages that phenotypically and morphologically resemble liver capsular macrophages, as well as the two main dendritic cell subsets (cDC1 and cDC2). These cells are not randomly distributed, but each subset forms interconnected networks intertwined with specific components of the portal tract. The CX3CR1+ cells were preferentially detected along the outer border of the portal tracts, and also in the portal interstitium adjacent to the portal vein, bile duct, lymphatic vessels and hepatic artery. cDC1s abounded along the lymphatic vessels, while cDC2s mostly surrounded the biliary tree. The specific distributions of these discrete subsets predict that they may serve distinct functions in this compartment. Overall, our findings suggest that portal tracts and their embedded cellular networks of myeloid cells form a distinctive lymphoid compartment in the liver that has the potential to orchestrate immune responses in this organ.

Published

2022

5. Marginal zone B cells acquire dendritic cell functions by trogocytosis

Author

Schriek, P, Ching, AC, Moily, NS, Moffat, J, Beattie, L, Steiner, TM, Hosking, LM, Thurman, JM, Holers, VM, Ishido, S, Lahoud, MH, Caminschi, I, Heath, WR, Mintern, JD, Villadangos, JA, Schriek, P, Ching, AC, Moily, NS, Moffat, J, Beattie, L, Steiner, TM, Hosking, LM, Thurman, JM, Holers, VM, Ishido, S, Lahoud, MH, Caminschi, I, Heath, WR, Mintern, JD, and Villadangos, JA

Abstract

Marginal zone (MZ) B cells produce broad-spectrum antibodies that protect against infection early in life. In some instances, antibody production requires MZ B cells to display pathogen antigens bound to major histocompatibility complex class II (MHC II) molecules to T cells. We describe the trogocytic acquisition of these molecules from conventional dendritic cells (cDCs). Complement component 3 (C3) binds to murine and human MHC II on cDCs. MZ B cells recognize C3 with complement receptor 2 (CR2) and trogocytose the MHC II-C3 complexes, which become exposed on their cell surface. The ubiquitin ligase MARCH1 limits the number of MHC II-C3 complexes displayed on cDCs to prevent their elimination through excessive trogocytosis. Capture of C3 by MHC II thus enables the transfer of cDC-like properties to MZ B cells.

Published

2022

6. The Batman and Robin of liver-stage immunity to malaria

Author

Heath, WR, Holz, LE, Fernandez-Ruiz, D, Heath, WR, Holz, LE, and Fernandez-Ruiz, D

Abstract

Malaria parasites replicate within the liver shortly after infection. This stage can be controlled by CD8 T cells, but which subsets undertake this function is unclear. Lefebvre et al. now elegantly show that effector memory T (TEM) cells are avid participants, working as a dynamic duo with liver tissue-resident memory T (TRM) cells to combat infection.

Published

2022

7. The cryo-EM structure of the endocytic receptor DEC-205

Author

Gully, BS, Venugopal, H, Fulcher, AJ, Fu, Z, Li, J, Deuss, FA, Llerena, C, Heath, WR, Lahoud, MH, Caminschi, I, Rossjohn, J, Berry, R, Gully, BS, Venugopal, H, Fulcher, AJ, Fu, Z, Li, J, Deuss, FA, Llerena, C, Heath, WR, Lahoud, MH, Caminschi, I, Rossjohn, J, and Berry, R

Abstract

DEC-205 (CD205), a member of the macrophage mannose receptor protein family, is the prototypic endocytic receptor of dendritic cells, whose ligands include phosphorothioated cytosine-guanosine oligonucleotides, a motif often seen in bacterial or viral DNA. However, despite growing biological and clinical significance, little is known about the structural arrangement of this receptor or any of its family members. Here, we describe the 3.2 Å cryo-EM structure of human DEC-205, thereby illuminating the structure of the mannose receptor protein family. The DEC-205 monomer forms a compact structure comprising two intercalated rings of C-type lectin-like domains, where the N-terminal cysteine-rich and fibronectin domains reside at the central intersection. We establish a pH-dependent oligomerization pathway forming tetrameric DEC-205 using solution-based techniques and ultimately solved the 4.9 Å cryo-EM structure of the DEC-205 tetramer to identify the unfurling of the second lectin ring which enables tetramer formation. Furthermore, we suggest the relevance of this oligomerization pathway within a cellular setting, whereby cytosine-guanosine binding appeared to disrupt this cell-surface oligomer. Accordingly, we provide insight into the structure and oligomeric assembly of the DEC-205 receptor.

Published

2021

8. Hemozoin-mediated inflammasome activation limits long-lived anti-malarial immunity

Author

Pack, AD, Schwartzhoff, P, Zacharias, ZR, Fernandez-Ruiz, D, Heath, WR, Gurung, P, Legge, KL, Janse, CJ, Butler, NS, Pack, AD, Schwartzhoff, P, Zacharias, ZR, Fernandez-Ruiz, D, Heath, WR, Gurung, P, Legge, KL, Janse, CJ, and Butler, NS

Abstract

During acute malaria, most individuals mount robust inflammatory responses that limit parasite burden. However, long-lived sterilizing anti-malarial memory responses are not efficiently induced, even following repeated Plasmodium exposures. Using multiple Plasmodium species, genetically modified parasites, and combinations of host genetic and pharmacologic approaches, we find that the deposition of the malarial pigment hemozoin directly limits the abundance and capacity of conventional type 1 dendritic cells to prime helper T cell responses. Hemozoin-induced dendritic cell dysfunction results in aberrant Plasmodium-specific CD4 T follicular helper cell differentiation, which constrains memory B cell and long-lived plasma cell formation. Mechanistically, we identify that dendritic cell-intrinsic NLRP3 inflammasome activation reduces conventional type 1 dendritic cell abundance, phagocytosis, and T cell priming functions in vivo. These data identify biological consequences of hemozoin deposition during malaria and highlight the capacity of the malarial pigment to program immune evasion during the earliest events following an initial Plasmodium exposure.

Published

2021

9. High expression of CD38 and MHC class II on CD8+ T cells during severe influenza disease reflects bystander activation and trogocytosis

Author

Jia, X, Chua, BY, Loh, L, Koutsakos, M, Kedzierski, L, Olshansky, M, Heath, WR, Chang, SY, Xu, J, Wang, Z, Kedzierska, K, Jia, X, Chua, BY, Loh, L, Koutsakos, M, Kedzierski, L, Olshansky, M, Heath, WR, Chang, SY, Xu, J, Wang, Z, and Kedzierska, K

Abstract

OBJECTIVES: Although co-expression of CD38 and HLA-DR reflects T-cell activation during viral infections, high and prolonged CD38+HLA-DR+ expression is associated with severe disease. To date, the mechanism underpinning expression of CD38+HLA-DR+ is poorly understood. METHODS: We used mouse models of influenza A/H9N2, A/H7N9 and A/H3N2 infection to investigate mechanisms underpinning CD38+MHC-II+ phenotype on CD8+ T cells. To further understand MHC-II trogocytosis on murine CD8+ T cells as well as the significance behind the scenario, we used adoptively transferred transgenic OT-I CD8+ T cells and A/H3N2-SIINKEKL infection. RESULTS: Analysis of influenza-specific immunodominant DbNP366 +CD8+ T-cell responses showed that CD38+MHC-II+ co-expression was detected on both virus-specific and bystander CD8+ T cells, with increased numbers of both CD38+MHC-II+CD8+ T-cell populations observed in immune organs including the site of infection during severe viral challenge. OT-I cells adoptively transferred into MHC-II-/- mice had no MHC-II after infection, suggesting that MHC-II was acquired via trogocytosis. The detection of CD19 on CD38+MHC-II+ OT-I cells supports the proposition that MHC-II was acquired by trogocytosis sourced from B cells. Co-expression of CD38+MHC-II+ on CD8+ T cells was needed for optimal recall following secondary infection. CONCLUSIONS: Overall, our study demonstrates that both virus-specific and bystander CD38+MHC-II+ CD8+ T cells are recruited to the site of infection during severe disease, and that MHC-II presence occurs via trogocytosis from antigen-presenting cells. Our findings highlight the importance of the CD38+MHC-II+ phenotype for CD8+ T-cell recall.

Published

2021

10. Plasmodium berghei Hsp90 contains a natural immunogenic I-Ab-restricted antigen common to rodent and human Plasmodium species.

Author

Enders, MH, Bayarsaikhan, G, Ghilas, S, Chua, YC, May, R, de Menezes, MN, Ge, Z, Tan, PS, Cozijnsen, A, Mollard, V, Yui, K, McFadden, GI, Lahoud, MH, Caminschi, I, Purcell, AW, Schittenhelm, RB, Beattie, L, Heath, WR, Fernandez-Ruiz, D, Enders, MH, Bayarsaikhan, G, Ghilas, S, Chua, YC, May, R, de Menezes, MN, Ge, Z, Tan, PS, Cozijnsen, A, Mollard, V, Yui, K, McFadden, GI, Lahoud, MH, Caminschi, I, Purcell, AW, Schittenhelm, RB, Beattie, L, Heath, WR, and Fernandez-Ruiz, D

Abstract

Thorough understanding of the role of CD4 T cells in immunity can be greatly assisted by the study of responses to defined specificities. This requires knowledge of Plasmodium-derived immunogenic epitopes, of which only a few have been identified, especially for the mouse C57BL/6 background. We recently developed a TCR transgenic mouse line, termed PbT-II, that produces CD4+ T cells specific for an MHC class II (I-Ab)-restricted Plasmodium epitope and is responsive to both sporozoites and blood-stage P. berghei. Here, we identify a peptide within the P. berghei heat shock protein 90 as the cognate epitope recognised by PbT-II cells. We show that C57BL/6 mice infected with P. berghei blood-stage induce an endogenous CD4 T cell response specific for this epitope, indicating cells of similar specificity to PbT-II cells are present in the naïve repertoire. Adoptive transfer of in vitro activated TH1-, or particularly TH2-polarised PbT-II cells improved control of P. berghei parasitemia in C57BL/6 mice and drastically reduced the onset of experimental cerebral malaria. Our results identify a versatile, potentially protective MHC-II restricted epitope useful for exploration of CD4 T cell-mediated immunity and vaccination strategies against malaria.

Published

2021

11. Extrafollicular CD4 T cell-derived IL-10 functions rapidly and transiently to support anti-Plasmodium humoral immunity

Author

Higgins, MK, Surette, FA, Guthmiller, JJ, Li, L, Sturtz, AJ, Vijay, R, Pope, RL, McClellan, BL, Pack, AD, Zander, RA, Shao, P, Lan, LY-L, Fernandez-Ruiz, D, Heath, WR, Wilson, PC, Butler, NS, Higgins, MK, Surette, FA, Guthmiller, JJ, Li, L, Sturtz, AJ, Vijay, R, Pope, RL, McClellan, BL, Pack, AD, Zander, RA, Shao, P, Lan, LY-L, Fernandez-Ruiz, D, Heath, WR, Wilson, PC, and Butler, NS

Abstract

Immunity against malaria depends on germinal center (GC)-derived antibody responses that are orchestrated by T follicular helper (TFH) cells. Emerging data show that the regulatory cytokine IL-10 plays an essential role in promoting GC B cell responses during both experimental malaria and virus infections. Here we investigated the cellular source and temporal role of IL-10, and whether IL-10 additionally signals to CD4 T-cells to support anti-Plasmodium humoral immunity. Distinct from reports of virus infection, we found that IL-10 was expressed by conventional, Foxp3-negative effector CD4 T cells and functioned in a B cell-intrinsic manner only during the first 96 hours of Plasmodium infection to support humoral immunity. The critical functions of IL-10 manifested only before the orchestration of GC responses and were primarily localized outside of B cell follicles. Mechanistically, our studies showed that the rapid and transient provision of IL-10 promoted B cell expression of anti-apoptotic factors, MHC class II, CD83, and cell-cell adhesion proteins that are essential for B cell survival and interaction with CD4 T cells. Together, our data reveal temporal features and mechanisms by which IL-10 critically supports humoral immunity during blood-stage Plasmodium infection, information that may be useful for developing new strategies designed to lessen the burden of malaria.

Published

2021

12. Display of Native Antigen on cDC1 That Have Spatial Access to Both T and B Cells Underlies Efficient Humoral Vaccination.

Author

Kato, Y, Steiner, TM, Park, H-Y, Hitchcock, RO, Zaid, A, Hor, JL, Devi, S, Davey, GM, Vremec, D, Tullett, KM, Tan, PS, Ahmet, F, Mueller, SN, Alonso, S, Tarlinton, DM, Ploegh, HL, Kaisho, T, Beattie, L, Manton, JH, Fernandez-Ruiz, D, Shortman, K, Lahoud, MH, Heath, WR, Caminschi, I, Kato, Y, Steiner, TM, Park, H-Y, Hitchcock, RO, Zaid, A, Hor, JL, Devi, S, Davey, GM, Vremec, D, Tullett, KM, Tan, PS, Ahmet, F, Mueller, SN, Alonso, S, Tarlinton, DM, Ploegh, HL, Kaisho, T, Beattie, L, Manton, JH, Fernandez-Ruiz, D, Shortman, K, Lahoud, MH, Heath, WR, and Caminschi, I

Abstract

Follicular dendritic cells and macrophages have been strongly implicated in presentation of native Ag to B cells. This property has also occasionally been attributed to conventional dendritic cells (cDC) but is generally masked by their essential role in T cell priming. cDC can be divided into two main subsets, cDC1 and cDC2, with recent evidence suggesting that cDC2 are primarily responsible for initiating B cell and T follicular helper responses. This conclusion is, however, at odds with evidence that targeting Ag to Clec9A (DNGR1), expressed by cDC1, induces strong humoral responses. In this study, we reveal that murine cDC1 interact extensively with B cells at the border of B cell follicles and, when Ag is targeted to Clec9A, can display native Ag for B cell activation. This leads to efficient induction of humoral immunity. Our findings indicate that surface display of native Ag on cDC with access to both T and B cells is key to efficient humoral vaccination.

Published

2020

13. RNF41 regulates the damage recognition receptor Clec9A and antigen cross-presentation in mouse dendritic cells

Author

Tullett, KM, Tan, PS, Park, H-Y, Schittenhelm, RB, Michael, N, Li, R, Policheni, AN, Gruber, E, Huang, C, Fulcher, AJ, Danne, JC, Czabotar, PE, Wakim, LM, Mintern, JD, Ramm, G, Radford, KJ, Caminschi, I, O'Keeffe, M, Villadangos, JA, Wright, MD, Blewitt, ME, Heath, WR, Shortman, K, Purcell, AW, Nicola, NA, Zhang, J-G, Lahoud, MH, Tullett, KM, Tan, PS, Park, H-Y, Schittenhelm, RB, Michael, N, Li, R, Policheni, AN, Gruber, E, Huang, C, Fulcher, AJ, Danne, JC, Czabotar, PE, Wakim, LM, Mintern, JD, Ramm, G, Radford, KJ, Caminschi, I, O'Keeffe, M, Villadangos, JA, Wright, MD, Blewitt, ME, Heath, WR, Shortman, K, Purcell, AW, Nicola, NA, Zhang, J-G, and Lahoud, MH

Abstract

The dendritic cell receptor Clec9A facilitates processing of dead cell-derived antigens for cross-presentation and the induction of effective CD8+ T cell immune responses. Here, we show that this process is regulated by E3 ubiquitin ligase RNF41 and define a new ubiquitin-mediated mechanism for regulation of Clec9A, reflecting the unique properties of Clec9A as a receptor specialized for delivery of antigens for cross-presentation. We reveal RNF41 is a negative regulator of Clec9A and the cross-presentation of dead cell-derived antigens by mouse dendritic cells. Intriguingly, RNF41 regulates the downstream fate of Clec9A by directly binding and ubiquitinating the extracellular domains of Clec9A. At steady-state, RNF41 ubiquitination of Clec9A facilitates interactions with ER-associated proteins and degradation machinery to control Clec9A levels. However, Clec9A interactions are altered following dead cell uptake to favor antigen presentation. These findings provide important insights into antigen cross-presentation and have implications for development of approaches to modulate immune responses.

Published

2020

14. Resident Memory T Cells and Their Role within the Liver

Author

Ghilas, S, Valencia-Hernandez, A-M, Enders, MH, Heath, WR, Fernandez-Ruiz, D, Ghilas, S, Valencia-Hernandez, A-M, Enders, MH, Heath, WR, and Fernandez-Ruiz, D

Abstract

Immunological memory is fundamental to maintain immunity against re-invading pathogens. It is the basis for prolonged protection induced by vaccines and can be mediated by humoral or cellular responses-the latter largely mediated by T cells. Memory T cells belong to different subsets with specialized functions and distributions within the body. They can be broadly separated into circulating memory cells, which pace the entire body through the lymphatics and blood, and tissue-resident memory T (TRM) cells, which are constrained to peripheral tissues. Retained in the tissues where they form, TRM cells provide a frontline defense against reinfection. Here, we review this population of cells with specific attention to the liver, where TRM cells have been found to protect against infections, in particular those by Plasmodium species that cause malaria.

Published

2020

15. Systemic Inflammation Suppresses Lymphoid Tissue Remodeling and B Cell Immunity during Concomitant Local Infection

Author

Alexandre, YO, Devi, S, Park, SL, Mackay, LK, Heath, WR, Mueller, SN, Alexandre, YO, Devi, S, Park, SL, Mackay, LK, Heath, WR, and Mueller, SN

Abstract

Concurrent infection with multiple pathogens occurs frequently in individuals and can result in exacerbated infections and altered immunity. However, the impact of such coinfections on immune responses remains poorly understood. Here, we reveal that systemic infection results in an inflammation-induced suppression of local immunity. During localized infection or vaccination in barrier tissues including the skin or respiratory tract, concurrent systemic infection induces a type I interferon-dependent lymphopenia that impairs lymphocyte recruitment to the draining lymph node (dLN) and induces sequestration of lymphocytes in non-draining LN. This contributes to suppressed fibroblastic reticular cell and endothelial cell expansion and dLN remodeling and impairs induction of B cell responses and antibody production. Our data suggest that contemporaneous systemic inflammation constrains the induction of regional immunity.

Published

2020

16. Cerebral Malaria in Mouse and Man

Author

Ghazanfari, N, Mueller, SN, Heath, WR, Ghazanfari, N, Mueller, SN, and Heath, WR

Abstract

Cerebral malaria (CM) is an acute encephalopathy caused by the malaria parasite Plasmodium falciparum, which develops in a small minority of infected patients and is responsible for the majority of deaths in African children. Despite decades of research on CM, the pathogenic mechanisms are still relatively poorly defined. Nevertheless, many studies in recent years, using a combination of animal models, in vitro cell culture work, and human patients, provide significant insight into the pathologic mechanisms leading to CM. In this review, we summarize recent findings from mouse models and human studies on the pathogenesis of CM, understanding of which may enable development of novel therapeutic approaches.

Published

2018

17. CD8+ T Cell Activation Leads to Constitutive Formation of Liver Tissue-Resident Memory T Cells that Seed a Large and Flexible Niche in the Liver

Author

Holz, LE, Prier, JE, Freestone, D, Steiner, TM, English, K, Johnson, DN, Mollard, V, Cozijnsen, A, Davey, GM, Godfrey, D, Yui, K, Mackay, LK, Lahoud, MH, Caminschi, I, McFadden, G, Bertolino, P, Fernandez-Ruiz, D, Heath, WR, Holz, LE, Prier, JE, Freestone, D, Steiner, TM, English, K, Johnson, DN, Mollard, V, Cozijnsen, A, Davey, GM, Godfrey, D, Yui, K, Mackay, LK, Lahoud, MH, Caminschi, I, McFadden, G, Bertolino, P, Fernandez-Ruiz, D, and Heath, WR

Abstract

Liver tissue-resident memory T (Trm) cells migrate throughout the sinusoids and are capable of protecting against malaria sporozoite challenge. To gain an understanding of liver Trm cell development, we examined various conditions for their formation. Although liver Trm cells were found in naive mice, their presence was dictated by antigen specificity and required IL-15. Liver Trm cells also formed after adoptive transfer of in vitro-activated but not naive CD8+ T cells, indicating that activation was essential but that antigen presentation within the liver was not obligatory. These Trm cells patrolled the liver sinusoids with a half-life of 36 days and occupied a large niche that could be added to sequentially without effect on subsequent Trm cell cohorts. Together, our findings indicate that liver Trm cells form as a normal consequence of CD8+ T cell activation during essentially any infection but that inflammatory and antigenic signals preferentially tailor their development.

Published

2018

18. Neutrophils are dispensable in the modulation of T cell immunity against cutaneous HSV-1 infection

Author

Hor, JL, Heath, WR, Mueller, SN, Hor, JL, Heath, WR, and Mueller, SN

Abstract

Neutrophils rapidly infiltrate sites of inflammation during peripheral infection or tissue injury. In addition to their well described roles as pro-inflammatory phagocytes responsible for pathogen clearance, recent studies have demonstrated a broader functional repertoire including mediating crosstalk between innate and adaptive arms of the immune system. Specifically, neutrophils have been proposed to mediate antigen transport to lymph nodes (LN) to modulate T cell priming and to influence T cell migration to infected tissues. Using a mouse model of cutaneous herpes simplex virus type 1 (HSV-1) infection we explored potential contributions of neutrophils toward anti-viral immunity. While a transient, early influx of neutrophils was triggered by dermal scarification, we did not detect migration of neutrophils from the skin to LN. Furthermore, despite recruitment of neutrophils into LN from the blood, priming and expansion of CD4+ and CD8+ T cells was unaffected following neutrophil depletion. Finally, we found that neutrophils were dispensable for the migration of effector T cells into infected skin. Our study suggests that the immunomodulatory roles of neutrophils toward adaptive immunity may be context-dependent, and are likely determined by the type of pathogen and anatomical site of infection.

Published

2017

19. A Liver Capsular Network of Monocyte-Derived Macrophages Restricts Hepatic Dissemination of Intraperitoneal Bacteria by Neutrophil Recruitment

Author

Sierro, F, Evrard, M, Rizzetto, S, Melino, M, Mitchell, AJ, Florido, M, Beattie, L, Walters, SB, Tay, SS, Lu, B, Holz, LE, Roediger, B, Wong, YC, Warren, A, Ritchie, W, McGuffog, C, Weninger, W, Le Couteur, DG, Ginhoux, F, Britton, WJ, Heath, WR, Saunders, BM, McCaughan, GW, Luciani, F, MacDonald, KPA, Ng, LG, Bowen, DG, Bertolino, P, Sierro, F, Evrard, M, Rizzetto, S, Melino, M, Mitchell, AJ, Florido, M, Beattie, L, Walters, SB, Tay, SS, Lu, B, Holz, LE, Roediger, B, Wong, YC, Warren, A, Ritchie, W, McGuffog, C, Weninger, W, Le Couteur, DG, Ginhoux, F, Britton, WJ, Heath, WR, Saunders, BM, McCaughan, GW, Luciani, F, MacDonald, KPA, Ng, LG, Bowen, DG, and Bertolino, P

Abstract

© 2017 Elsevier Inc. The liver is positioned at the interface between two routes traversed by pathogens in disseminating infection. Whereas blood-borne pathogens are efficiently cleared in hepatic sinusoids by Kupffer cells (KCs), it is unknown how the liver prevents dissemination of peritoneal pathogens accessing its outer membrane. We report here that the hepatic capsule harbors a contiguous cellular network of liver-resident macrophages phenotypically distinct from KCs. These liver capsular macrophages (LCMs) were replenished in the steady state from blood monocytes, unlike KCs that are embryonically derived and self-renewing. LCM numbers increased after weaning in a microbiota-dependent process. LCMs sensed peritoneal bacteria and promoted neutrophil recruitment to the capsule, and their specific ablation resulted in decreased neutrophil recruitment and increased intrahepatic bacterial burden. Thus, the liver contains two separate and non-overlapping niches occupied by distinct resident macrophage populations mediating immunosurveillance at these two pathogen entry points to the liver.

Published

2017

20. CD4+ T-cell help amplifies innate signals for primary CD8+ T-cell immunity

Author

Bedoui, S, Heath, WR, Mueller, SN, Bedoui, S, Heath, WR, and Mueller, SN

Abstract

CD8(+) T cells provide an important component of protection against intracellular infections and cancer. Immune responses by these T cells involve a primary phase of effector expansion and differentiation, followed by a contraction phase leading to memory formation and, if antigen is re-encountered, a secondary expansion phase with more rapid differentiation. Both primary and secondary phases of CD8(+) T-cell immunity have been shown to depend on CD4(+) T-cell help, although during certain infections the primary phase is variable in this requirement. One explanation for such variability relates to the strength of associated inflammatory signals, with weak signals requiring help. Here, we focus on our studies that have dissected the requirements for help in the primary phase of the CTL response to herpes simplex virus, elucidating intricate interactions and communications between CD4(+) T cells, various dendritic cell subsets, and CD8(+) T cells. We place our studies in the context of others and describe a simple model of help where CD40 signaling amplifies innate signals to enable efficient CD8(+) T-cell expansion and differentiation. This model facilitates CTL induction to various different agents, without altering the qualitative innate signals that direct other important arms of immunity.

Published

2016

21. Protective immunity to liver-stage malaria

Author

Holz, LE, Fernandez-Ruiz, D, Heath, WR, Holz, LE, Fernandez-Ruiz, D, and Heath, WR

Abstract

Despite decades of research and recent clinical trials, an efficacious long-lasting preventative vaccine for malaria remains elusive. This parasite infects mammals via mosquito bites, progressing through several stages including the relatively short asymptomatic liver stage followed by the more persistent cyclic blood stage, the latter of which is responsible for all disease symptoms. As the liver acts as a bottleneck to blood-stage infection, it represents a potential site for parasite and disease control. In this review, we discuss immunity to liver-stage malaria. It is hoped that the knowledge gained from animal models of malaria immunity will translate into a more powerful and effective vaccine to reduce this global health problem.

Published

2016

22. Skin CD4+ memory T cells exhibit combined cluster-mediated retention and equilibration with the circulation

Author

Collins, N, Jiang, X, Zaid, A, Macleod, BL, Li, J, Park, CO, Haque, A, Bedoui, S, Heath, WR, Mueller, SN, Kupper, TS, Gebhardt, T, Carbone, FR, Collins, N, Jiang, X, Zaid, A, Macleod, BL, Li, J, Park, CO, Haque, A, Bedoui, S, Heath, WR, Mueller, SN, Kupper, TS, Gebhardt, T, and Carbone, FR

Abstract

Although memory T cells within barrier tissues can persist as permanent residents, at least some exchange with blood. The extent to which this occurs is unclear. Here we show that memory CD4(+) T cells in mouse skin are in equilibrium with the circulation at steady state. These cells are dispersed throughout the inter-follicular regions of the dermis and form clusters with antigen presenting cells around hair follicles. After infection or administration of a contact sensitizing agent, there is a sustained increase in skin CD4(+) T-cell content, which is confined to the clusters, with a concomitant CCL5-dependent increase in CD4(+) T-cell recruitment. Skin CCL5 is derived from CD11b(+) cells and CD8(+) T cells, with the elimination of the latter decreasing CD4(+) T-cell numbers. These results reveal a complex pattern of tissue-retention and equilibration for CD4(+) memory T cells in skin, which is altered by infection and inflammation history.

Published

2016

23. Single cell analysis of CD4+ T cell differentiation reveals three major cell states and progressive acceleration of proliferation (vol 17, 103, 2016)

Author

Proserpio, V, Piccolo, A, Haim-Vilmovsky, L, Kar, G, Lonnberg, T, Svensson, V, Pramanik, J, Natarajan, KN, Zhai, W, Zhang, X, Donati, G, Kayikci, M, Kotar, J, McKenzie, ANJ, Montandon, R, James, KR, Fernandez-Ruiz, D, Heath, WR, Haque, A, Billker, O, Woodhouse, S, Cicuta, P, Nicodemi, M, Teichmann, SA, Proserpio, V, Piccolo, A, Haim-Vilmovsky, L, Kar, G, Lonnberg, T, Svensson, V, Pramanik, J, Natarajan, KN, Zhai, W, Zhang, X, Donati, G, Kayikci, M, Kotar, J, McKenzie, ANJ, Montandon, R, James, KR, Fernandez-Ruiz, D, Heath, WR, Haque, A, Billker, O, Woodhouse, S, Cicuta, P, Nicodemi, M, and Teichmann, SA

Published

2016

24. Proc Natl Acad Sci U S A

Author

Zaid A, Mackay LK, Rahimpour A, Braun A, Veldhoen M, Carbone FR, Manton JH, Heath WR, and Mueller SN.

Published

2014

25. CD8+ T cells from a novel T cell receptor transgenic mouse induce liver-stage immunity that can be boosted by blood-stage infection in rodent malaria

Author

Lau,LS, Fernandez-Ruiz,D, Mollard,V, Sturm,A, Neller,MA, Cozijnsen,A, Gregory,JL, Davey,GM, Jones,CM, Lin,YH, Haque,A, Engwerda,CR, Nie,CQ, Hansen,DS, Murphy,KM, Papenfuss,AT, Miles,JJ, Burrows,SR, de Koning-Ward,T, McFadden,GI, Carbone,FR, Crabb,BS, Heath,WR, Lau,LS, Fernandez-Ruiz,D, Mollard,V, Sturm,A, Neller,MA, Cozijnsen,A, Gregory,JL, Davey,GM, Jones,CM, Lin,YH, Haque,A, Engwerda,CR, Nie,CQ, Hansen,DS, Murphy,KM, Papenfuss,AT, Miles,JJ, Burrows,SR, de Koning-Ward,T, McFadden,GI, Carbone,FR, Crabb,BS, and Heath,WR

Abstract

To follow the fate of CD8+ T cells responsive to Plasmodium berghei ANKA (PbA) infection, we generated an MHC I-restricted TCR transgenic mouse line against this pathogen. T cells from this line, termed PbT-I T cells, were able to respond to blood-stage infection by PbA and two other rodent malaria species, P. yoelii XNL and P. chabaudi AS. These PbT-I T cells were also able to respond to sporozoites and to protect mice from liver-stage infection. Examination of the requirements for priming after intravenous administration of irradiated sporozoites, an effective vaccination approach, showed that the spleen rather than the liver was the main site of priming and that responses depended on CD8α+ dendritic cells. Importantly, sequential exposure to irradiated sporozoites followed two days later by blood-stage infection led to augmented PbT-I T cell expansion. These findings indicate that PbT-I T cells are a highly versatile tool for studying multiple stages and species of rodent malaria and suggest that cross-stage reactive CD8+ T cells may be utilized in liver-stage vaccine design to enable boosting by blood-stage infections.

Published

2014

26. DEC-205 is a cell surface receptor for CpG oligonucleotides

Author

Caminschi, I, Meuter, S, Heath, WR, Caminschi, I, Meuter, S, and Heath, WR

Abstract

We have recently demonstrated that synthetic CpG oligonucleotides (ODNs), which function as potent immunostimulators, bind to the multi-lectin receptor DEC-205, resulting in their internalization. DEC-205-deficient mice exhibit impaired dendritic-cell and B-cell maturation, impaired cytokine responses and suboptimal cytotoxic T-cell responses. As murine and human DEC-205 are highly conserved, CpG ODNs destined to clinical applications should be designed to maximize DEC-205 binding.

Published

2013

27. DEC-205 is a cell surface receptor for CpG oligonucleotides

Author

Lahoud, MH, Ahmet, F, Zhang, J-G, Meuter, S, Policheni, AN, Kitsoulis, S, Lee, C-N, O'Keeffe, M, Sullivan, LC, Brooks, AG, Berry, R, Rossjohn, J, Mintern, JD, Vega-Ramos, J, Villadangos, JA, Nicola, NA, Nussenzweig, MC, Stacey, KJ, Shortman, K, Heath, WR, Caminschi, I, Lahoud, MH, Ahmet, F, Zhang, J-G, Meuter, S, Policheni, AN, Kitsoulis, S, Lee, C-N, O'Keeffe, M, Sullivan, LC, Brooks, AG, Berry, R, Rossjohn, J, Mintern, JD, Vega-Ramos, J, Villadangos, JA, Nicola, NA, Nussenzweig, MC, Stacey, KJ, Shortman, K, Heath, WR, and Caminschi, I

Abstract

Synthetic CpG oligonucleotides (ODN) have potent immunostimulatory properties exploited in clinical vaccine trials. How CpG ODN are captured and delivered to the intracellular receptor TLR9, however, has been elusive. Here we show that DEC-205, a multilectin receptor expressed by a variety of cells, is a receptor for CpG ODN. When CpG ODN are used as an adjuvant, mice deficient in DEC-205 have impaired dendritic cell (DC) and B-cell maturation, are unable to make some cytokines such as IL-12, and display suboptimal cytotoxic T-cell responses. We reveal that DEC-205 directly binds class B CpG ODN and enhances their uptake. The CpG-ODN binding function of DEC-205 is conserved between mouse and man, although human DEC-205 preferentially binds a specific class B CpG ODN that has been selected for human clinical trials. Our findings identify an important receptor for class B CpG ODN and reveal a unique function for DEC-205.

Published

2012

28. Targeting dencritic cells in vivo for cancer therapy

Author

Caminschi, I, Maraskovsky, E, Heath, WR, Caminschi, I, Maraskovsky, E, and Heath, WR

Abstract

Monoclonal antibodies that recognize cell surface molecules have been used deliver antigenic cargo to dendritic cells (DC) for induction of immune responses. The encouraging anti-tumor immunity elicited using this immunization strategy suggests its suitability for clinical trials. This review discusses the complex network of DC, the functional specialization of DC subsets, the immunological outcomes of targeting different DC subsets and their cell surface receptors, and the requirements for the induction of effective anti-tumor CD4 and CD8 T cell responses that can recognize tumor-specific antigens. Finally, we review preclinical experiments and the progress toward targeting human DC in vivo.

Published

2012

29. IP-10-Mediated T Cell Homing Promotes Cerebral Inflammation over Splenic Immunity to Malaria Infection

Author

Riley, EM, Nie, CQ, Bernard, NJ, Norman, MU, Amante, FH, Lundie, RJ, Crabb, BS, Heath, WR, Engwerda, CR, Hickey, MJ, Schofield, L, Hansen, DS, Riley, EM, Nie, CQ, Bernard, NJ, Norman, MU, Amante, FH, Lundie, RJ, Crabb, BS, Heath, WR, Engwerda, CR, Hickey, MJ, Schofield, L, and Hansen, DS

Abstract

Plasmodium falciparum malaria causes 660 million clinical cases with over 2 million deaths each year. Acquired host immunity limits the clinical impact of malaria infection and provides protection against parasite replication. Experimental evidence indicates that cell-mediated immune responses also result in detrimental inflammation and contribute to severe disease induction. In both humans and mice, the spleen is a crucial organ involved in blood stage malaria clearance, while organ-specific disease appears to be associated with sequestration of parasitized erythrocytes in vascular beds and subsequent recruitment of inflammatory leukocytes. Using a rodent model of cerebral malaria, we have previously found that the majority of T lymphocytes in intravascular infiltrates of cerebral malaria-affected mice express the chemokine receptor CXCR3. Here we investigated the effect of IP-10 blockade in the development of experimental cerebral malaria and the induction of splenic anti-parasite immunity. We found that specific neutralization of IP-10 over the course of infection and genetic deletion of this chemokine in knockout mice reduces cerebral intravascular inflammation and is sufficient to protect P. berghei ANKA-infected mice from fatality. Furthermore, our results demonstrate that lack of IP-10 during infection significantly reduces peripheral parasitemia. The increased resistance to infection observed in the absence of IP-10-mediated cell trafficking was associated with retention and subsequent expansion of parasite-specific T cells in spleens of infected animals, which appears to be advantageous for the control of parasite burden. Thus, our results demonstrate that modulating homing of cellular immune responses to malaria is critical for reaching a balance between protective immunity and immunopathogenesis.

Published

2009

30. Multiple Dendritic Cell Populations Activate CD4+ T Cells after Viral Stimulation

Author

Rodrigues, MM, Mount, AM, Smith, CM, Kupresanin, F, Stoermer, K, Heath, WR, Belz, GT, Rodrigues, MM, Mount, AM, Smith, CM, Kupresanin, F, Stoermer, K, Heath, WR, and Belz, GT

Abstract

Dendritic cells (DC) are a heterogeneous cell population that bridge the innate and adaptive immune systems. CD8alpha DC play a prominent, and sometimes exclusive, role in driving amplification of CD8(+) T cells during a viral infection. Whether this reliance on a single subset of DC also applies for CD4(+) T cell activation is unknown. We used a direct ex vivo antigen presentation assay to probe the capacity of flow cytometrically purified DC populations to drive amplification of CD4(+) and CD8(+) T cells following infection with influenza virus by different routes. This study examined the contributions of non-CD8alpha DC populations in the amplification of CD8(+) and CD4(+) T cells in cutaneous and systemic influenza viral infections. We confirmed that in vivo, effective immune responses for CD8(+) T cells are dominated by presentation of antigen by CD8alpha DC but can involve non-CD8alpha DC. In contrast, CD4(+) T cell responses relied more heavily on the contributions of dermal DC migrating from peripheral lymphoid tissues following cutaneous infection, and CD4 DC in the spleen after systemic infection. CD4(+) T cell priming by DC subsets that is dependent upon the route of administration raises the possibility that vaccination approaches could be tailored to prime helper T cell immunity.

Published

2008

31. Putative IKDCs are functionally and developmentally similar to natural killer cells, but not to dendritic cells

Author

Caminschi, I, Ahmet, F, Heger, K, Brady, J, Nutt, SL, Vremec, D, Pietersz, S, Lahoud, MH, Eld, LS, Hansen, DS, O'Keeffe, M, Smyth, MJ, Bedoui, S, Davey, GM, Villadangos, JA, Heath, WR, Shortman, K, Caminschi, I, Ahmet, F, Heger, K, Brady, J, Nutt, SL, Vremec, D, Pietersz, S, Lahoud, MH, Eld, LS, Hansen, DS, O'Keeffe, M, Smyth, MJ, Bedoui, S, Davey, GM, Villadangos, JA, Heath, WR, and Shortman, K

Abstract

Interferon-producing killer dendritic cells (IKDCs) have been described as possessing the lytic potential of NK cells and the antigen-presenting capacity of dendritic cells (DCs). In this study, we examine the lytic function and antigen-presenting capacity of mouse spleen IKDCs, including those found in DC preparations. IKDCs efficiently killed NK cell targets, without requiring additional activation stimuli. However, in our hands, when exposed to protein antigen or to MHC class II peptide, IKDCs induced little or no T cell proliferation relative to conventional DCs or plasmacytoid DCs, either before or after activation with CpG, or in several disease models. Certain developmental features indicated that IKDCs resembled NK cells more than DCs. IKDCs, like NK cells, did not express the transcription factor PU.1 and were absent from recombinase activating gene-2-null, common gamma-chain-null (Rag2(-/-)Il2rg(-/-)) mice. When cultured with IL-15 and -18, IKDCs proliferated extensively, like NK cells. Under these conditions, a proportion of expanded IKDCs and NK cells expressed high levels of surface MHC class II. However, even such MHC class II(+) IKDCs and NK cells induced poor T cell proliferative responses compared with DCs. Thus, IKDCs resemble NK cells functionally, and neither cell type could be induced to be effective antigen-presenting cells.

Published

2007

32. A role for plasmacytoid dendritic cells in the rapid IL-18-dependent activation of NK cells following HSV-1 infection

Author

Barr, DP, Belz, GT, Reading, PC, Wojtasiak, M, Whitney, PG, Heath, WR, Carbone, FR, Brooks, AG, Barr, DP, Belz, GT, Reading, PC, Wojtasiak, M, Whitney, PG, Heath, WR, Carbone, FR, and Brooks, AG

Abstract

Natural killer (NK) cells play a crucial role in the initial response to viral infections but the mechanisms controlling their activation are unclear. We show a rapid and transient activation of NK cells that results in the production of IFN-gamma immediately following infection with herpes simplex virus type 1 (HSV-1). Activation of NK cells leading to synthesis of IFN-gamma was not mediated by a direct interaction with virus but required the presence of additional cell types and was largely dependent on the cytokine IL-18, but not IL-12. HSV-1-induced IFN-gamma expression by NK cells in vitro was impaired in spleen cultures depleted of CD11c(+) cells. Conversely, coculture of NK cells with virus-exposed conventional DC or plasmacytoid (p)DC restored the production of IFN-gamma, indicating that multiple DC subsets could mediate NK cell activation. While conventional DC populations stimulated NK cells independently of IL-18, they were less effective than pDC in promoting NK cell IFN-gamma expression. In contrast, the potent stimulation of NK cells by pDC was dependent on IL-18 as pDC from IL-18-deficient mice only activated a similar proportion of NK cells as conventional DC. These data identify IL-18 as a crucial factor for pDC-mediated NK cell regulation.

Published

2007

33. Systemic activation of dendritic cells by Toll-like receptor ligands or malaria infection impairs cross-presentation and antiviral immunity

Author

Wilson, NS, Behrens, GMN, Lundie, RJ, Smith, CM, Waithman, J, Young, L, Forehan, SP, Mount, A, Steptoe, RJ, Shortman, KD, de Koning-Ward, TF, Belz, GT, Carbone, FR, Crabb, BS, Heath, WR, Villadangos, JA, Wilson, NS, Behrens, GMN, Lundie, RJ, Smith, CM, Waithman, J, Young, L, Forehan, SP, Mount, A, Steptoe, RJ, Shortman, KD, de Koning-Ward, TF, Belz, GT, Carbone, FR, Crabb, BS, Heath, WR, and Villadangos, JA

Abstract

The mechanisms responsible for the immunosuppression associated with sepsis or some chronic blood infections remain poorly understood. Here we show that infection with a malaria parasite (Plasmodium berghei) or simple systemic exposure to bacterial or viral Toll-like receptor ligands inhibited cross-priming. Reduced cross-priming was a consequence of downregulation of cross-presentation by activated dendritic cells due to systemic activation that did not otherwise globally inhibit T cell proliferation. Although activated dendritic cells retained their capacity to present viral antigens via the endogenous major histocompatibility complex class I processing pathway, antiviral responses were greatly impaired in mice exposed to Toll-like receptor ligands. This is consistent with a key function for cross-presentation in antiviral immunity and helps explain the immunosuppressive effects of systemic infection. Moreover, inhibition of cross-presentation was overcome by injection of dendritic cells bearing antigen, which provides a new strategy for generating immunity during immunosuppressive blood infections.

Published

2006

34. SOCS-1 regulates IL-15-driven homeostatic proliferation of antigen-naive CD8 T cells, limiting their autoimmune potential

Author

Davey, GM, Starr, R, Cornish, AL, Burghardt, JT, Alexander, WS, Carbone, FR, Surh, CD, Heath, WR, Davey, GM, Starr, R, Cornish, AL, Burghardt, JT, Alexander, WS, Carbone, FR, Surh, CD, and Heath, WR

Abstract

Mice that are deficient in suppressor of cytokine signaling-1 (SOCS-1) succumb to neonatal mortality that is associated with extensive cellular infiltration of many tissues. T cells seem to be necessary for disease, which can be alleviated largely by neutralizing interferon-gamma. Examining T cell receptor (TCR) specificity shows that even monospecific T cells can mediate disease in SOCS-1-deficient mice, although disease onset is substantially faster with a polyclonal T cell repertoire. A major phenotype of SOCS-1-/- mice is the accumulation of CD44(high)CD8+ peripheral T cells. We show that SOCS-1-deficient CD8, but not CD4, T cells proliferate when transferred into normal (T cell-sufficient) mice, and that this is dependent on two signals: interleukin (IL)-15 and self-ligands that are usually only capable of stimulating homeostatic expansion in T cell-deficient mice. Our findings reveal that SOCS-1 normally down-regulates the capacity of IL-15 to drive activation and proliferation of naive CD8 T cells receiving TCR survival signals from self-ligands. We show that such dysregulated proliferation impairs the deletion of a highly autoreactive subset of CD8 T cells, and increases their potential for autoimmunity. Therefore, impaired deletion of highly autoreactive CD8 T cells, together with uncontrolled activation of naive CD8 T cells by homeostatic survival ligands, may provide a basis for the T cell-mediated disease of SOCS-1-/- mice.

Published

2005

35. Cognate CD4+ T cell licensing of dendritic cells in CD8+ T cell immunity

Author

Smith, CM, Wilson, NS, Waithman, J, Villadangos, JA, Carbone, FR, Heath, WR, Belz, GT, Smith, CM, Wilson, NS, Waithman, J, Villadangos, JA, Carbone, FR, Heath, WR, and Belz, GT

Abstract

Several studies have indicated that CD8(+) T cells require CD4(+) T cell help for memory formation. Evidence suggests that such help can be antigen independent, challenging whether the 'licensing' of dendritic cells (DCs) by CD4(+) T cells is ever required for cytotoxic T lymphocyte (CTL) responses. We show here that help is essential for the generation of CTL immunity to herpes simplex virus 1 and that CD4(+) T cells mediate help in a cognate, antigen-specific way. We provide direct in vivo evidence for DC licensing by helper T cells and show that licensing is rapid and essential for the formation of effector and memory CTLs. In situations in which DCs are poorly licensed by pathogen-derived signals, our findings suggest that CTL immunity may be heavily dependent on cognate DC licensing.

Published

2004

36. Cutting edge: Prolonged antigen presentation after herpes simplex virus-1 skin infection

Author

Stock, AT, Mueller, SN, van Lint, AL, Heath, WR, Carbone, FR, Stock, AT, Mueller, SN, van Lint, AL, Heath, WR, and Carbone, FR

Abstract

It has been reported that MHC class I-restricted Ag presentation persists for only a short period following infection with certain pathogens, declining in parallel with the emergence of specific CTL activity. We have examined this issue in the case of murine infection with HSV-1. We found that the period of Ag presentation capable of priming naive CD8(+) T cells is comparatively prolonged, persisting for at least 7 days after infection, and continuing despite the appearance of localized CTL activity. Ag presentation was abbreviated to 3 or 4 days postinfection by surgical excision of the inoculation site early after infection. This intervention attenuated the size of the primary CTL response, implying that prolonged presentation is necessary to drive maximal CTL expansion. Combined, these data show that, in some types of infection, CTL priming can extend well beyond the first 24-48 h after primary inoculation.

Published

2004

37. Without peripheral interference, thymic deletion is mediated in a cohort of double-positive cells without classical activation

Author

Zhan, YF, Purton, JF, Godfrey, DI, Cole, TJ, Heath, WR, Lew, AM, Zhan, YF, Purton, JF, Godfrey, DI, Cole, TJ, Heath, WR, and Lew, AM

Abstract

Peripheral activation can cause bystander thymocyte death by eliciting a "cytokine storm." This event complicates in vivo studies using exogenous ligand-induced models of negative selection. A stable transgenic model that selectively eliminates peripheral CD4 cells has allowed us to analyze negative selection as direct cognate events in two T cell receptor transgenic mice, OT-II and DO11. Whereas cognate peptide induced a massive deletion in double-positive (DP) cells in mice with peripheral CD4 cells, this DP deletion was modest in mice lacking peripheral CD4 cells. Using BrdUrd and annexin V staining, we found that negative selection primarily occurs in a cohort of DP cells and the absence of single-positive (SP) cells is largely caused by reduction in the cohort of DP precursors. Moreover, the fates of DP cells and SP cells after antigen exposure were vastly different. Whereas SP cells up-regulated uniformly their CD69 and CD44 levels, increased their cell size, and survived after antigen exposure, DP cells had less CD69 and CD44 up-regulation, no size change, and promptly died. Thus, negative selection represents an "abortive" activation different from activation-induced cell death of mature T cells.

Published

2003

38. The cross-priming APC requires a Rel-dependent signal to induce CTL

Author

Mintern, JD, Belz, G, Gerondakis, S, Carbone, FR, Heath, WR, Mintern, JD, Belz, G, Gerondakis, S, Carbone, FR, and Heath, WR

Abstract

Induction of OVA-specific CTL by cross-priming requires help from CD4 T cells, which use CD154 to signal CD40 on the APC. To further dissect the molecular pathways involved in cross-priming, we examined the role of Rel, an NF-kappaB family member. c-rel(-/-) mice failed to generate OVA-specific CTL by cross-priming, but could induce CTL to HSV-1. Using chimeric mice, Rel expression was shown to be required by the APC, but not by the T cells. Notably, the deficiency in Rel could be overcome by triggering CD40, implying that the APC required Rel before receipt of the CD40 signal. These data suggest that the cross-priming APC must receive two signals before it can stimulate CTL. The first signal is Rel dependent and is required before activation of CD4 helper T cells, which then deliver the second signal using CD154 to trigger CD40.

Published

2002

39. The CD8 alpha(+) dendritic cell is responsible for inducing peripheral self-tolerance to tissue-associated antigens

Author

Belz, GT, Behrens, GMN, Smith, CM, Miller, JFAP, Jones, C, Lejon, K, Fathman, CG, Mueller, SN, Shortman, K, Carbone, FR, Heath, WR, Belz, GT, Behrens, GMN, Smith, CM, Miller, JFAP, Jones, C, Lejon, K, Fathman, CG, Mueller, SN, Shortman, K, Carbone, FR, and Heath, WR

Abstract

We previously described a mechanism for the maintenance of peripheral self-tolerance. This involves the cross-presentation of tissue-associated antigens by a bone marrow-derived cell type that stimulates the proliferation and ultimate deletion of self-reactive CD8 T cells. This process has been referred to as cross-tolerance. Here, we characterize the elusive cell type responsible for inducing cross-tolerance as a CD8alpha(+) dendritic cell (DC). To achieve this aim, transgenic mice were generated expressing yellow fluorescent protein (YFP) linked to CTL epitopes for ovalbumin and glycoprotein B (gB) of herpes simplex virus under the rat insulin promoter (RIP). Although tracking of YFP was inconclusive, the use of a highly sensitive gB-specific hybridoma that produced beta-galactosidase on encounter with antigen, enabled detection of antigen presentation by cells isolated from the pancreatic lymph node. This showed that a CD11c(+)CD8alpha(+) cell was responsible for cross-tolerance, the same DC subset as previously implicated in cross-priming. These data indicate that CD8alpha(+) DCs play a critical role in both tolerance and immunity to cell-associated antigens, providing a potential mechanism by which cytotoxic T lymphocyte can be immunized to viral antigens while maintaining tolerance to self.

Published

2002

40. Rapid cytotoxic T lymphocyte activation occurs in the draining lymph nodes after cutaneous herpes simplex virus infection as a result of early antigen presentation and not the presence of virus

Author

Mueller, SN, Jones, CM, Smith, CM, Heath, WR, Carbone, FR, Mueller, SN, Jones, CM, Smith, CM, Heath, WR, and Carbone, FR

Abstract

Localized cutaneous herpes simplex virus type 1 (HSV-1) infection leads to arming and initial expansion of cytotoxic T lymphocytes (CTLs) in the draining popliteal lymph nodes (PLNs) followed by migration and further proliferation in the spleen. To accurately characterize the sequence of events involved in the activation and generation of anti-HSV CTLs, we used T cell receptor (TCR) transgenic mice specific for the immunodominant epitope from HSV glycoprotein B (gB(498-505)). We describe the detection of the initiation of antigen presentation in the draining lymph nodes by 4-6 h after infection with HSV-1. Analysis of CD69 up-regulation revealed activation of gB-specific CD8(+) T cells by 6-8 h after infection. Furthermore, we show that T cell proliferation begins no sooner than 24 h after activation and is marked by the concurrent appearance of CTL activity in the PLNs. These events are not dependent on the presence of virus in the draining lymph nodes, and suggest a requirement for recruitment of professional antigen-presenting cells to the site of T cell activation. Consequently, we have defined the initiation of the CD8(+) T cell-mediated response to cutaneous HSV-1 infection, demonstrating that the immune response to localized viral infection depends only on the appearance of cells presenting virus-derived antigen and commences with remarkable swiftness.

Published

2002

41. Cutting edge: Precursor frequency affects the helper dependence of cytotoxic T cells

Author

Mintern, JD, Davey, GM, Belz, GT, Carbone, FR, Heath, WR, Mintern, JD, Davey, GM, Belz, GT, Carbone, FR, and Heath, WR

Abstract

Generation of CTL immunity often depends on the availability of CD4 T cell help. In this report, we show that CTL responses induced by cross-priming can be converted from CD4-dependent to CD4-independent by increasing the frequency of CTL precursors. In the absence of CD4 T cells, high numbers of CTL precursors were able to expand in number and become effector CTL. The ability of high frequencies of CD8 T cells to override help was not due to their ability to signal CD40 via expression of CD154. These findings suggest that when precursor frequencies are high, priming of CD8 T cell responses may not require CD4 T cell help.

Published

2002

42. Peripheral deletion of autoreactive CD8 T cells by cross presentation of self-antigen occurs by a Bcl-2-inhibitable pathway mediated by bim

Author

Davey, GM, Kurts, C, Miller, JFAP, Bouillet, P, Strasser, A, Brooks, AG, Carbone, FR, Heath, WR, Davey, GM, Kurts, C, Miller, JFAP, Bouillet, P, Strasser, A, Brooks, AG, Carbone, FR, and Heath, WR

Abstract

By transgenic expression of ovalbumin (OVA) as a model self antigen in the beta cells of the pancreas, we have shown that self tolerance can be maintained by the cross-presentation of this antigen on dendritic cells in the draining lymph nodes. Such cross-presentation causes initial activation of OVA-specific CD8 T cells, which proliferate but are ultimately deleted; a process referred to as cross-tolerance. Here, we investigated the molecular basis of cross-tolerance. Deletion of CD8 T cells was prevented by overexpression of Bcl-2, indicating that cross-tolerance was mediated by a Bcl-2 inhibitable pathway. Recently, Bim, a pro-apoptotic Bcl-2 family member whose function can be inhibited by Bcl-2, was found to play a critical role in the deletion of autoreactive thymocytes, leading us to examine its role in cross-tolerance. Bim-deficient T cells were not deleted in response to cross-presented self-antigen, strongly implicating Bim as the pro-apoptotic mediator of cross-tolerance.

Published

2002

43. Progression of armed CTL from draining lymph node to spleen shortly after localized infection with herpes simplex virus 1

Author

Coles, RM, Mueller, SN, Heath, WR, Carbone, FR, Brooks, AG, Coles, RM, Mueller, SN, Heath, WR, Carbone, FR, and Brooks, AG

Abstract

We have examined the generation of CTL immunity immediately after localized footpad infection with herpes simplex virus 1 (HSV-1) using three coordinated in vivo T cell tracking methodologies. Tetrameric MHC class I containing the immunodominant peptide from HSV-1 glycoprotein B (gB) showed that after infection the proportion of Ag-specific T cells peaked at day 5 within draining popliteal lymph nodes and 2 days later in the spleen. Preferential expression of the activation marker CD25 by tetramer-positive cells in draining popliteal nodes but not spleen suggested that gB-specific T cells were initially activated within the lymph node. In vivo cytotoxicity assays showed that Ag-specific effector cells were present within the draining lymph nodes as early as day 2 after infection, with a further 2-day lag before detection in the spleen. Consistent with the very early arming of effector CTL in the draining lymph node, adoptive transfer of CFSE-labeled gB-specific transgenic T cells showed that they had undergone one to four rounds of cell division by day 2 after infection. In contrast, proliferating T cells were first detected in appreciable numbers in the spleen on day 4, at which time they had undergone extensive cell division. These data demonstrate that HSV-1-specific T cells are rapidly activated and armed within draining lymph nodes shortly after localized HSV-1 infection. This is followed by their dissemination to other compartments such as the spleen, where they further proliferate in an Ag-independent fashion.

Published

2002

44. A key role for ICAM-I in generating effector cells mediating inflammatory responses

Author

Camacho, SA, Heath, WR, Carbone, FR, Sarvetnick, N, LeBon, A, Karlsson, L, Peterson, PA, Webb, SR, Camacho, SA, Heath, WR, Carbone, FR, Sarvetnick, N, LeBon, A, Karlsson, L, Peterson, PA, and Webb, SR

Abstract

We investigated how the accessory molecule interactions encountered during T cell priming influence T cell-mediated destruction of insulin-producing beta cells and lead to type 1 diabetes. T cell receptor (TCR)-transgenic CD4+ T cells were primed under controlled conditions in vitro before being adoptively transferred into transgenic recipients expressing membrane ovalbumin under the control of the rat insulin promoter (RIP-mOVA). During priming, antigen-presenting cell expression of B7-1 without intracellular adhesion molecule 1 (ICAM-1) led to the generation of effector cells that migrated to the pancreata of RIP-mOVA recipients but did not cause diabetes. In contrast, when T cells were primed with APCs expressing both B7-1 and ICAM-1, pronounced destruction of beta cells and a rapid onset of diabetes were observed. Pathogenicity was associated with T cell production of the macrophage-attracting chemokines CCL3 and CCL4. Thus, interactions of lymphocyte function-associated antigen 1 with ICAM-1 during priming induce both qualitative and quantitative alterations in T effector function and induce potentially autodestructive responses.

Published

2001

45. Major histocompatibility complex class I-restricted cross-presentation is biased towards high dose antigens and those released during cellular destruction

Author

Kurts, C, Miller, JFAP, Subramaniam, RM, Carbone, FR, Heath, WR, Kurts, C, Miller, JFAP, Subramaniam, RM, Carbone, FR, and Heath, WR

Abstract

Naive T cells recirculate mainly within the secondary lymphoid compartment, but once activated they can enter peripheral tissues and perform effector functions. To activate naive T cells, foreign antigens must traffic from the site of infection to the draining lymph nodes, where they can be presented by professional antigen presenting cells. For major histocompatibility complex class I-restricted presentation to CD8+ T cells, this can occur via the cross-presentation pathway. Here, we investigated the conditions allowing antigen access to this pathway. We show that the level of antigen expressed by peripheral tissues must be relatively high to facilitate cross-presentation to naive CD8+ T cells. Below this level, peripheral antigens did not stimulate by cross-presentation and were ignored by naive CD8+ T cells, although they could sensitize tissue cells for destruction by activated cytotoxic T lymphocytes (CTLs). Interestingly, CTL-mediated tissue destruction facilitated cross-presentation of low dose antigens for activation of naive CD8+ T cells. This represents the first in vivo evidence that cellular destruction can enhance access of exogenous antigens to the cross-presentation pathway. These data indicate that the cross-presentation pathway focuses on high dose antigens and those released during tissue destruction.

Published

1998

46. Cross-tolerance: A pathway for inducing tolerance to peripheral tissue antigens

Author

Heath, WR, Kurts, C, Miller, JFAP, Carbone, FR, Heath, WR, Kurts, C, Miller, JFAP, and Carbone, FR

Published

1998

47. B cells directly tolerize CD8+ T cells

Author

Bennett, SRM, Carbone, FR, Toy, T, Miller, JFAP, Heath, WR, Bennett, SRM, Carbone, FR, Toy, T, Miller, JFAP, and Heath, WR

Abstract

This report investigates the response of CD8(+) T cells to antigens presented by B cells. When C57BL/6 mice were injected with syngeneic B cells coated with the Kb-restricted ovalbumin (OVA) determinant OVA257-264, OVA-specific cytotoxic T lymphocyte (CTL) tolerance was observed. To investigate the mechanism of tolerance induction, in vitro-activated CD8(+) T cells from the Kb-restricted, OVA-specific T cell receptor transgenic line OT-I (OT-I cells) were cultured for 15 h with antigen-bearing B cells, and their survival was determined. Antigen recognition led to the killing of the B cells and, surprisingly, to the death of a large proportion of the OT-I CTLs. T cell death involved Fas (CD95), since OT-I cells deficient in CD95 molecules showed preferential survival after recognition of antigen on B cells. To investigate the tolerance mechanism in vivo, naive OT-I T cells were adoptively transferred into normal mice, and these mice were coinjected with antigen-bearing B cells. In this case, OT-I cells proliferated transiently and were then lost from the secondary lymphoid compartment. These data provide the first demonstration that B cells can directly tolerize CD8(+) T cells, and suggest that this occurs via CD95-mediated, activation-induced deletion.

Published

1998

48. The peripheral deletion of autoreactive CD8+ T cells induced by cross-presentation of self-antigens involves signaling through CD95 (Fas, Apo-1)

Author

Kurts, C, Heath, WR, Kosaka, H, Miller, JFAP, Carbone, FR, Kurts, C, Heath, WR, Kosaka, H, Miller, JFAP, and Carbone, FR

Abstract

Recently, we demonstrated that major histocompatibility complex class I-restricted cross-presentation of exogenous self-antigens can induce peripheral T cell tolerance by deletion of autoreactive CD8+ T cells. In these studies, naive ovalbumin (OVA)-specific CD8+ T cells from the transgenic line OT-I were injected into transgenic mice expressing membrane-bound OVA (mOVA) under the control of the rat insulin promoter (RIP) in pancreatic islets, kidney proximal tubules, and the thymus. Cross-presentation of tissue-derived OVA in the renal and pancreatic lymph nodes resulted in activation, proliferation, and then the deletion of OT-I cells. In this report, we investigated the molecular mechanisms underlying this form of T cell deletion. OT-I mice were crossed to tumor necrosis factor receptor 2 (TNFR2) knockout mice and to CD95 (Fas, Apo-1) deficient mutant lpr mice. Wild-type and TNFR2-deficient OT-I cells were activated and then deleted when transferred into RIP-mOVA mice, whereas CD95-deficient OT-I cells were not susceptible to deletion by cross-presentation. Furthermore, cross-presentation led to upregulation of the CD95 molecule on the surface of wild-type OT-I cells in vivo, consistent with the idea that this is linked to rendering autoreactive T cells susceptible to CD95-mediated signaling. This study represents the first evidence that CD95 is involved in the deletion of autoreactive CD8+ T cells in the whole animal.

Published

1998

49. Class I-restricted cross-presentation of exogenous self-antigens leads to deletion of autoreactive CD8(+) T cells

Author

Kurts, C, Kosaka, H, Carbone, FR, Miller, JFAP, Heath, WR, Kurts, C, Kosaka, H, Carbone, FR, Miller, JFAP, and Heath, WR

Abstract

In this report, we show that cross-presentation of self-antigens can lead to the peripheral deletion of autoreactive CD8(+) T cells. We had previously shown that transfer of ovalbumin (OVA)-specific CD8(+) T cells (OT-I cells) into rat insulin promoter-membrane-bound form of OVA transgenic mice, which express the model autoantigen OVA in the proximal tubular cells of the kidneys, the beta cells of the pancreas, the thymus, and the testis of male mice, led to the activation of OT-I cells in the draining lymph nodes. This was due to class I-restricted cross-presentation of exogenous OVA on a bone marrow-derived antigen presenting cell (APC) population. Here, we show that adoptively transferred or thymically derived OT-I cells activated by cross-presentation are deleted from the peripheral pool of recirculating lymphocytes. Such deletion only required antigen recognition on a bone marrow-derived population, suggesting that cells of the professional APC class may be tolerogenic under these circumstances. Our results provide a mechanism by which the immune system can induce CD8(+) T cell tolerance to autoantigens that are expressed outside the recirculation pathway of naive T cells.

Published

1997

50. Induction of a CD8(+) cytotoxic T lymphocyte response by cross-priming requires cognate CD4(+) T cell help

Author

Bennett, SRM, Carbone, FR, Karamalis, F, Miller, JFAP, Heath, WR, Bennett, SRM, Carbone, FR, Karamalis, F, Miller, JFAP, and Heath, WR

Abstract

Class I-restricted presentation is usually associated with cytoplasmic degradation of cellular proteins and is often considered inaccessible to exogenous antigens. Nonetheless, certain exogenous elements can gain entry into this so-called endogenous pathway by a mechanism termed cross-presentation. This is known to be effective for class I-restricted cytotoxic T lymphocyte (CTL) cross-priming directed against a variety of exogenous tumor, viral, and minor transplantation antigens. The related effect of cross-tolerance can also effectively eliminate responses to selected self components. In both cases, this presentation appears to require the active involvement of a bone marrow-derived antigen presenting cell (APC). Here, we show that CTL induction by cross-priming with cell-associated ovalbumin requires the active involvement of CD4+ helper T cells. Importantly, this CD4+ population is only effective when both the helper and CTL determinants are recognized on the same APC. Moreover, we would argue that the cognitive nature of this event suggests that the CD4+ T cell actively modifies the APC, converting it into an effective stimulator for the successful priming of the CTL precursor.

Published

1997