School of Biomedical Sciences - Research Publications

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    Sorting nexin 5 selectively regulates dorsal-ruffle-mediated macropinocytosis in primary macrophages
    Lim, JP ; Gosavi, P ; Mintern, JD ; Ross, EM ; Gleeson, PA (COMPANY OF BIOLOGISTS LTD, 2015-12-01)
    The regulation of macropinocytosis, a specialised endocytosis pathway, is important for immune cell function. However, it is not known whether the biogenesis of macropinosomes involves one or more distinct pathways. We previously identified sorting nexin 5 (SNX5) as a regulator of macropinocytosis in macrophages. Here, we show that bone-marrow-derived macrophages from SNX5-knockout mice had a 60-70% reduction in macropinocytic uptake of dextran or ovalbumin, whereas phagocytosis and retrograde transport from the plasma membrane to the Golgi was unaffected. In contrast, deficiency of SNX5 had no effect on macropinocytosis or antigen presentation by dendritic cells. Activation of macrophages with CSF-1 resulted in a localisation of SNX5 to actin-rich ruffles in a manner dependent on receptor tyrosine kinases. SNX5-deficient macrophages showed a dramatic reduction in ruffling on the dorsal surface following CSF-1 receptor activation, whereas peripheral ruffling and cell migration were unaffected. We demonstrate that SNX5 is acting upstream of actin polymerisation following CSF-1 receptor activation. Overall, our findings reveal the important contribution of dorsal ruffing to receptor-activated macropinocytosis in primary macrophages and show that SNX5 selectively regulates macropinosomes derived from the dorsal ruffles.
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    Neutrophils Require SHP1 To Regulate IL-1β Production and Prevent Inflammatory Skin Disease
    Croker, BA ; Lewis, RS ; Babon, JJ ; Mintern, JD ; Jenne, DE ; Metcalf, D ; Zhang, J-G ; Cengia, LH ; O'Donnell, JA ; Roberts, AW (AMER ASSOC IMMUNOLOGISTS, 2011-01-15)
    The regulation of neutrophil recruitment, activation, and disposal is pivotal for circumscribed inflammation. SHP1(Y208N/Y208N) mutant mice develop severe cutaneous inflammatory disease that is IL-1R dependent. Genetic reduction in neutrophil numbers and neutrophilic responses to infection is sufficient to prevent the spontaneous initiation of this disease. Neutrophils from SHP1(Y208N/Y208N) mice display increased pro-IL-1β production due to altered responses to MyD88-dependent and MyD88-independent signals. The IL-1R-dependent inflammatory disease in SHP1(Y208N/Y208N) mice develops independently of caspase 1 and proteinase 3 and neutrophil elastase. In response to Fas ligand, a caspase 1-independent inducer of IL-1β production, neutrophils from SHP1(Y208N/Y208N) mice produce elevated levels of IL-1β but display reduced caspase 3 and caspase 7 activation. In neutrophils deficient in SHP1, IL-1β induces high levels of pro-IL-1β suggesting the presence of a paracrine IL-1β loop. These data indicate that the neutrophil- and IL-1-dependent disease in SHP1(Y208N/Y208N) mice is a consequence of loss of negative regulation of TLR and IL-1R signaling.
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    Induction of antigen-specific effector-phase tolerance following vaccination against a previously ignored B-cell lymphoma
    Prato, S ; Mintern, JD ; Lahoud, MH ; Huang, DC ; Villadangos, JA (WILEY, 2011-07)
    The mechanisms of immune evasion during haematological malignancies are poorly understood. As lymphomas grow in lymphoid organs, it would be expected that if these lymphomas express neo-antigens they should be readily detected by the immune system. To test this assumption, we generated a new non-Hodgkin B-cell lymphoma model expressing the model tumour neo-antigen Ovalbumin (OVA), and analysed the endogenous antigen-specific CD8(+) T-cell response that it elicited in recipient mice. The OVA+ lymphoma cells were eliminated by cytotoxic T lymphocytes (CTL) in mice that had been previously vaccinated against OVA. In contrast, the immune system of naïve mice ignored the malignant cells even though these continuously expressed and presented OVA on their MHC class I molecules. This state of ignorance could be overcome by therapeutic vaccination, which led to the expansion of endogenous anti-OVA-specific CD8(+) T cells. However, the cytotoxic and interferon-γ secretion capacity of these T cells were impaired. The tumour model that we describe thus reproduces several key aspects of human lymphoma; tumor ignorance can be broken by vaccination but the ensuing immune response remains ineffective. This model can be exploited to further understand the mechanisms of lymphoma immunoevasion and devise effective immunotherapy.
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    The Dendritic Cell Receptor Clec9A Binds Damaged Cells via Exposed Actin Filaments
    Zhang, J-G ; Czabotar, PE ; Policheni, AN ; Caminschi, I ; Wan, SS ; Kitsoulis, S ; Tullett, KM ; Robin, AY ; Brammananth, R ; van Delft, MF ; Lu, J ; O'Reilly, LA ; Josefsson, EC ; Kile, BT ; Chin, WJ ; Mintern, JD ; Olshina, MA ; Wong, W ; Baum, J ; Wright, MD ; Huang, DCS ; Mohandas, N ; Coppel, RL ; Colman, PM ; Nicola, NA ; Shortman, K ; Lahoud, MH (CELL PRESS, 2012-04-20)
    The immune system must distinguish viable cells from cells damaged by physical and infective processes. The damaged cell-recognition molecule Clec9A is expressed on the surface of the mouse and human dendritic cell subsets specialized for the uptake and processing of material from dead cells. Clec9A recognizes a conserved component within nucleated and nonnucleated cells, exposed when cell membranes are damaged. We have identified this Clec9A ligand as a filamentous form of actin in association with particular actin-binding domains of cytoskeletal proteins. We have determined the crystal structure of the human CLEC9A C-type lectin domain and propose a functional dimeric structure with conserved tryptophans in the ligand recognition site. Mutation of these residues ablated CLEC9A binding to damaged cells and to the isolated ligand complexes. We propose that Clec9A provides targeted recruitment of the adaptive immune system during infection and can also be utilized to enhance immune responses generated by vaccines.
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    Intersection of autophagy with pathways of antigen presentation
    Patterson, NL ; Mintern, JD (SPRINGEROPEN, 2012-12)
    Traditionally, macroautophagy (autophagy) is viewed as a pathway of cell survival. Autophagy ensures the elimination of damaged or unwanted cytosolic components and provides a source of cellular nutrients during periods of stress. Interestingly, autophagy can also directly intersect with, and impact, other major pathways of cellular function. Here, we will review the contribution of autophagy to pathways of antigen presentation. The autophagy machinery acts to modulate both MHCI and MHCII antigen presentation. As such autophagy is an important participant in pathways that elicit host cell immunity and the elimination of infectious pathogens.
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    Targeting antigen to bone marrow stromal cell-2 expressed by conventional and plasmacytoid dendritic cells elicits efficient antigen presentation
    Moffat, JM ; Segura, E ; Khoury, G ; Caminschi, I ; Cameron, PU ; Lewin, SR ; Villadangos, JA ; Mintern, JD (WILEY-BLACKWELL, 2013-03)
    Bone marrow stromal cell-2 (BST-2) has major roles in viral tethering and modulation of interferon production. Here we investigate BST-2 as a receptor for the delivery of antigen to dendritic cells (DCs). We show that BST-2 is expressed by a panel of mouse and human DC subsets, particularly under inflammatory conditions. The outcome of delivering antigen to BST-2 expressed by steady state and activated plasmacytoid DC (pDC) or conventional CD8(+) and CD8(-) DCs was determined. T-cell responses were measured for both MHC class I (MHCI) and MHC class II (MHCII) antigen presentation pathways in vitro. Delivering antigen via BST-2 was compared with that via receptors DEC205 or Siglec-H. We show that despite a higher antigen load and faster receptor internalisation, when antigen is delivered to steady state or activated pDC via BST-2, BST-2-targeted activated conventional DCs present antigen more efficiently. Relative to DEC205, BST-2 was inferior in its capacity to deliver antigen to the MHCI cross-presentation pathway. In contrast, BST-2 was superior to Siglec-H at initiating either MHCI or MHCII antigen presentation. In summary, BST-2 is a useful receptor to target with antigen, given its broad expression pattern and ability to access both MHCI and MHCII presentation pathways with relative efficiency.
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    Targeting Dendritic Cells: The Role of Specific Receptors in the Internalization of Polymer Capsules
    Mintern, JD ; Percival, C ; Kamphuis, MMJ ; Chin, WJ ; Caruso, F ; Johnston, APR (WILEY, 2013-07)
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    Hepatitis B virus-like particles access major histocompatibility class I and II antigen presentation pathways in primary dendritic cells
    Moffat, JM ; Cheong, W-S ; Villadangos, JA ; Mintern, JD ; Netter, HJ (ELSEVIER SCI LTD, 2013-04-26)
    Virus-like particles (VLPs) represent high density displays of viral proteins that efficiently trigger immunity. VLPs composed of the small hepatitis B virus envelope protein (HBsAgS) are useful vaccine platforms that induce humoral and cellular immune responses. Notably, however, some studies suggest HBsAgS VLPs impair dendritic cell (DC) function. Here we investigated HBsAgS VLP interaction with DC subsets and antigen access to major histocompatibility complex (MHC) class I and II antigen presentation pathways in primary DCs. HBsAgS VLPs impaired plasmacytoid DC (pDC) interferon alpha (IFNα) production in response to CpG in vitro, but did not alter conventional DC (cDC) or pDC phenotype when administered in vivo. To assess cellular immune responses, HBsAgS VLPs were generated containing the ovalbumin (OVA) model epitopes OVA(257-264) and OVA(323-339) to access MHCI and MHCII antigen presentation pathways, respectively; both in vitro and following immunisation in vivo. HBsAgS VLP-OVA(257-264) elicited CTL responses in vivo that were not enhanced by inclusion of an additional MHCII helper epitope. HBsAgS VLP-OVA(257-264) administered in vivo was cross-presented by CD8(+) DCs, but not CD8(-) DCs. Therefore, HBsAgS VLPs can deliver antigen to both MHCI and MHCII antigen presentation pathways in primary DCs and promote cytotoxic and helper T cell priming despite their suppressive effect on pDCs.
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    Rapid Deletion and Inactivation of CTLs upon Recognition of a Number of Target Cells over a Critical Threshold
    Prato, S ; Zhan, Y ; Mintern, JD ; Villadangos, JA (AMER ASSOC IMMUNOLOGISTS, 2013-10-01)
    Initiation of CTL responses against foreign pathogens also primes anti-self CTLs. Mechanisms of CTL inactivation inhibit anti-self CTLs to prevent tissue damage. These mechanisms are exploited by pathogens and tumors to evade the immune response, and present a major hurdle to adoptive CTL therapies. It is unclear whether CTL inactivation is Ag specific and, if so, which APCs are involved. Potential candidates include the target cells themselves, dendritic cells, myeloid-derived suppressor cells, and macrophages. In this study, we show that lymphoma-specific CTLs are rapidly deleted in an Ag-specific manner after adoptive transfer into lymphoma-bearing mice, and the surviving CTLs are functionally impaired. The only APCs responsible were the target cells directly presenting Ag, notwithstanding the presence of myeloid-derived suppressor cells, and CD8(+) dendritic cells cross-presenting tumor Ag. The capacity to inactivate CTLs critically depended on the number of tumor/target cells; small numbers of targets were readily killed, but a large number caused quick deletion and functional inactivation of the CTLs. Application of mild, noninflammatory, and nonlymphoablative chemotherapy to specifically reduce tumor burden before CTL injection prevented CTL deletion and inactivation and allowed eradication of tumor. Our results advocate the use of adoptive CTL therapy soon after mild chemotherapy. They also suggest a simple mechanism for Ag-specific impairment of anti-self CTLs in the face of an active anti-foreign CTL response.
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    Inflammation Conditions Mature Dendritic Cells To Retain the Capacity To Present New Antigens but with Altered Cytokine Secretion Function
    Vega-Ramos, J ; Roquilly, A ; Zhan, Y ; Young, LJ ; Mintern, JD ; Villadangos, JA (AMER ASSOC IMMUNOLOGISTS, 2014-10-15)
    Dendritic cells (DCs) are directly activated by pathogen-associated molecular patterns (PAMPs) and undergo maturation. Mature DCs express high levels of MHC class II molecules ("signal 1"), upregulate T cell costimulatory receptors ("signal 2"), and secrete "signal 3" cytokines (e.g., IL-12). Mature DCs efficiently present Ags linked to the activating PAMP and prime naive T cells. However, mature DCs downregulate MHC II synthesis, which prevents them from presenting newly encountered Ags. DCs can also be indirectly activated by inflammatory mediators released during infection (e.g., IFN). Indirectly activated DCs mature but do not present pathogen Ags (as they have not encountered the pathogen) and do not provide signal 3. Therefore, although they are probably generated in large numbers upon infection or vaccination, indirectly activated DCs are considered to play little or no role in T cell immunity. In this article, we show that indirectly activated DCs retain their capacity to present Ags encountered after maturation in vivo. They can also respond to PAMPs, but the previous encounter of inflammatory signals alters their cytokine (signal 3) secretion pattern. This implies that the immune response elicited by a PAMP is more complex than predicted by the examination of the immunogenic features of directly activated DCs, and that underlying inflammatory processes can skew the immune response against pathogens. Our observations have important implications for the design of vaccines and for the understanding of the interactions between simultaneous infections, or of infection in the context of ongoing sterile inflammation.