ORCID Profile
0000-0001-8417-5542
Current Organisation
University of South Australia
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Publisher: Wiley
Date: 26-05-2020
DOI: 10.1111/AJI.13260
Publisher: Elsevier BV
Date: 12-2009
DOI: 10.1016/J.EXPHEM.2009.09.007
Abstract: Dasatinib (SPRYCEL, BMS-354825) is a small molecule Src/Abl tyrosine kinase inhibitor approved for the treatment of chronic myeloid leukemia and Philadelphia chromosome-positive acute lymphoblastic leukemia. However, kinases inhibited by dasatinib are also involved in the induction and regulation of innate immunity. The purpose of this study was to evaluate the effect of dasatinib on cytokine secretion in response to toll-like receptor (TLR) stimulation. Dasatinib-treated mice were administered intraperitoneally with lipopolysaccharide (LPS) and serum cytokine (tumor necrosis factor-alpha [TNF-alpha], interleukin [IL]-10, and IL-6) levels and neutrophil accumulation in the lungs were analyzed. Cytokine secretions (TNF-alpha and IL-6) from TLR3-, TLR4-, and TLR9-stimulated RAW264.7, as well as TLR4- and TLR9-stimulated bone marrow-derived macrophages (BMDM) were also evaluated. Dasatinib-treated mice had reduced serum levels of TNF-alpha in response to LPS administration however, other inflammatory hallmarks of systemic LPS administration, such as secretion of IL-6 and accumulation of neutrophils in the lung, were unaffected. In contrast to the reduced TNF-alpha levels, dasatinib treatment increased serum levels of IL-10 following LPS administration. The production of TNF-alpha was also impaired in vitro in response to TLR3, TLR4, and TLR9 stimulation of the mouse macrophage cell line RAW264.7, as well as TLR4 and TLR9 stimulation of BMDM IL-6 production was also impaired in dasatinib-treated BMDM. These findings further support the ability of dasatinib to modulate the host immune response and highlights scope for off-target applications of dasatinib for the control of TNF-alpha-mediated inflammatory disorders.
Publisher: American Chemical Society (ACS)
Date: 27-01-2012
DOI: 10.1021/LA204714P
Abstract: Surface density gradients of streptavidin (SAV) were created on solid surfaces and demonstrated functionality as a bioconjugation platform. The surface density of immobilized streptavidin steadily increased in one dimension from 0 to 235 ng cm(-2) over a distance of 10 mm. The density of coupled protein was controlled by its immobilization onto a polymer surface bearing a gradient of aldehyde group density, onto which SAV was covalently linked using spontaneous imine bond formation between surface aldehyde functional groups and primary amine groups on the protein. As a control, human serum albumin was immobilized in the same manner. The gradient density of aldehyde groups was created using a method of simultaneous plasma copolymerization of ethanol and propionaldehyde. Control over the surface density of aldehyde groups was achieved by manipulating the flow rates of these vapors while moving a mask across substrates during plasma discharge. Immobilized SAV was able to bind biotinylated probes, indicating that the protein retained its functionality after being immobilized. This plasma polymerization technique conveniently allows virtually any substrate to be equipped with tunable protein gradients and provides a widely applicable method for bioconjugation to study effects arising from controllable surface densities of proteins.
Publisher: Public Library of Science (PLoS)
Date: 05-10-2011
Publisher: Springer New York
Date: 2014
DOI: 10.1007/978-1-4939-0345-0_32
Abstract: Fowlpox virus (FPV) is a double-stranded DNA virus with a history of use as a live attenuated vaccine in commercial poultry production systems. FPV is also highly amenable to genetic engineering, with a large cloning capacity and many nonessential sites available for integration, meaning that in recombinant form, several transgenes can be expressed simultaneously. Recombinant FPV has proven an effective prophylactic vaccine vector for other diseases of birds, as well as other animal species (Brun et al., Vaccine 26:6508-6528, 2008). These vectors do not integrate into the host genome nor do they undergo productive replication in mammalian cells thus they have a proven and impeccable safety profile and have been progressed as prophylactic and therapeutic vaccine vectors for use in humans (Beukema et al., Expert Rev Vaccines 5:565-577, 2006 Lousberg et al., Expert Rev Vaccines 10:1435-1449, 2011). Furthermore, repeated immunization with FPV does not blunt subsequent vaccine responses, presumably because it is replication-defective, and thus larger doses can be routinely administered (Brun et al., Vaccine 26:6508-6528, 2008). This strengthens the case for FPV as a viable platform vaccine vector, as it means it can be used repeatedly in an in idual to achieve different immunological outcomes. Here we describe in detail the construction of a recombinant variant of FPV expressing the prostate tumor-associated antigen prostatic acid phosphatase (PAP) in conjunction with the immunostimulatory cytokine, interleukin-2 (IL-2), which, if undertaken under the appropriate regulatory conditions and with approvals in place, would theoretically be amenable to clinical trial applications.
Publisher: SPIE
Date: 21-12-2011
DOI: 10.1117/12.903217
Publisher: Springer Science and Business Media LLC
Date: 02-06-2020
DOI: 10.1038/S41541-020-0191-8
Abstract: The Sementis Copenhagen Vector (SCV) is a new vaccinia virus-derived, multiplication-defective, vaccine technology assessed herein in non-human primates. Indian rhesus macaques ( Macaca mulatta ) were vaccinated with a multi-pathogen recombinant SCV vaccine encoding the structural polyproteins of both Zika virus (ZIKV) and chikungunya virus (CHIKV). After one vaccination, neutralising antibody responses to ZIKV and four strains of CHIKV, representative of distinct viral genotypes, were generated. A second vaccination resulted in significant boosting of neutralising antibody responses to ZIKV and CHIKV. Following challenge with ZIKV, SCV-ZIKA/CHIK-vaccinated animals showed significant reductions in viremias compared with animals that had received a control SCV vaccine. Two SCV vaccinations also generated neutralising and IgG ELISA antibody responses to vaccinia virus. These results demonstrate effective induction of immunity in non-human primates by a recombinant SCV vaccine and illustrates the utility of SCV as a multi-disease vaccine platform capable of delivering multiple large immunogens.
Publisher: American Society for Clinical Investigation
Date: 08-10-2021
Publisher: Frontiers Media SA
Date: 19-03-2018
Publisher: American Society for Microbiology
Date: 04-2011
DOI: 10.1128/JVI.02000-10
Abstract: Fowlpox virus (FWPV) is a double-stranded DNA virus long used as a live-attenuated vaccine against poultry diseases, but more recent interest has focused on its use as a mammalian vaccine vector. Here, in a mouse model system using FWPV encoding the nominal target antigen chicken ovalbumin (OVA) (FWPV OVA ), we describe for the first time some of the fundamental processes by which FWPV engages both the innate and adaptive immune systems. We show that Toll-like receptor 7 (TLR7) and TLR9 are important for type I interferon secretion by dendritic cells, while TLR9 is solely required for proinflammatory cytokine secretion. Despite this functional role for TLR7 and TLR9 in vitro , only the adapter protein myeloid differentiation primary response gene 88 (MyD88) was shown to be essential for the formation of adaptive immunity to FWPV OVA in vivo . The dependence on MyD88 was confined only to the T-cell compartment and was not related to its contribution to TLR signaling, dendritic cell maturation, or the capture and presentation of FWPV-derived OVA antigen. We demonstrate that this is not by means of mediating T-cell-dependent interleukin-1 (IL-1) signaling, but rather, we suggest that MyD88 functions to support T-cell-specific IL-18 receptor signaling, which in turn is essential for the formation of adaptive immunity to FWPV-encoded OVA.
Publisher: Elsevier BV
Date: 05-2020
Publisher: Elsevier BV
Date: 12-2019
Publisher: Frontiers Media SA
Date: 17-02-2017
Publisher: Wiley
Date: 25-06-2013
DOI: 10.1038/ICB.2013.25
Abstract: Although originally described as a highly conserved nuclear protein involved in DNA replication, transcription and repair, high-mobility group box-1 protein (HMGB1) has emerged as a key mediator in the regulation of immune responses to infection and sterile injury by exhibiting all the properties of a prototypic 'alarmin'. These include rapid passive release in response to pathogenic infection and/or traumatic injury, active secretion providing for chemotactic and cytokine-like function and an ability to resolve inflammation, including tissue repair and remodelling. In this review, we will give an overview of the post-translational modifications necessary for such ersity in biological activity, concentrating particularly on how differences in oxidation of highly conserved redox-sensitive cysteine residues can potentiate inflammatory responses and dictate cellular fate. We will also review the most recent literature on HMGB1 and its involvement in the pathophysiology of sepsis and cancer, as well as cancer therapy-induced mucositis.
Publisher: Elsevier BV
Date: 10-2017
Publisher: Public Library of Science (PLoS)
Date: 23-07-2013
Publisher: Springer Science and Business Media LLC
Date: 17-08-2017
DOI: 10.1038/S41598-017-08063-1
Abstract: The use of cost-effective vaccines capable of inducing robust CD8 + T cell immunity will contribute significantly towards the elimination of persistent viral infections and cancers worldwide. We have previously reported that a cytolytic DNA vaccine encoding an immunogen and a truncated mouse perforin (PRF) protein significantly augments anti-viral T cell (including CD8 + T cell) immunity. Thus, the current study investigated whether this vaccine enhances activation of dendritic cells (DCs) resulting in greater priming of CD8 + T cell immunity. In vitro data showed that transfection of HEK293T cells with the cytolytic DNA resulted in the release of lactate dehydrogenase, indicative of necrotic/lytic cell death. In vitro exposure of this lytic cell debris to purified DCs from naïve C57BL/6 mice resulted in maturation of DCs as determined by up-regulation of CD80/CD86. Using activation roliferation of adoptively transferred OT-I CD8 + T cells to measure antigen presentation by DCs in vivo , it was determined that cytolytic DNA immunisation resulted in a time-dependent increase in the proliferation of OT-I CD8 + T cells compared to canonical DNA immunisation. Overall, the data suggest that the cytolytic DNA vaccine increases the activity of DCs which has important implications for the design of DNA vaccines to improve their translational prospects.
Publisher: Elsevier BV
Date: 02-2009
DOI: 10.1016/J.EXPHEM.2008.09.013
Abstract: Dasatinib (BMS-354825) is a small molecule Src/Abl tyrosine kinase inhibitor approved for the treatment of chronic myeloid leukemia and Philadelphia chromosome-positive acute lymphoblastic leukemia. Members of the Src family of kinases are involved in the induction of innate and adaptive immunity. The purpose of this study was to evaluate the inhibitory action of dasatinib on antigen-specific CD8(+) and CD4(+) T-cell function, as well as natural killer (NK) cell cytotoxicity. To assess dasatinib-mediated inhibition of antigen-specific T-cell proliferation, transgenic CD4(+) and CD8(+) T cells specific for ovalbumin were utilized. Endogenous CD4(+) and CD8(+) T-cell responses were determined following immunization of dasatinib-treated or control mice with a nonreplicating recombinant virus. Clearance of the RMA-S cells, a major histocompatibility complex (MHC) class I-deficient thymoma sensitive to NK-cell lysis, was analyzed in mice undergoing dasatinib treatment. Dasatinib inhibited antigen-specific proliferation of murine CD4(+) and CD8(+) transgenic T cells in vitro and in vivo. Endogenous antigen-specific helper T-cell recall responses and induction of T-cell-mediated cytotoxicity following immunization with a nonreplicating recombinant virus were also inhibited. So to was the ability of NK cells to eliminate MHC class I-deficient cells in vivo. These findings suggest that dasatinib has the potential to modulate the host immune response at clinical doses and highlights scope for off target applications, e.g., therapeutic immunosuppression in the context of autoimmune pathogenesis and allogeneic tissue transplantation.
Publisher: Elsevier BV
Date: 05-2013
DOI: 10.1016/J.JACI.2013.02.041
Abstract: Respiratory tract viruses are a major environmental risk factor for both the inception and exacerbations of asthma. Genetic defects in Toll-like receptor (TLR) 7-mediated signaling, impaired type I interferon responses, or both have been reported in asthmatic patients, although their contribution to the onset and exacerbation of asthma remains poorly understood. We sought to determine whether Pneumovirus infection in the absence of TLR7 predisposes to bronchiolitis and the inception of asthma. Wild-type and TLR7-deficient (TLR7(-/-)) mice were inoculated with the rodent-specific pathogen pneumonia virus of mice at 1 (primary), 7 (secondary), and 13 (tertiary) weeks of age, and pathologic features of bronchiolitis or asthma were assessed. In some experiments infected mice were exposed to low-dose cockroach antigen. TLR7 deficiency increased viral load in the airway epithelium, which became sloughed and necrotic, and promoted an IFN-α/β(low), IL-12p70(low), IL-1β(high), IL-25(high), and IL-33(high) cytokine microenvironment that was associated with the recruitment of type 2 innate lymphoid cells/nuocytes and increased TH2-type cytokine production. Viral challenge of TLR7(-/-) mice induced all of the cardinal pathophysiologic features of asthma, including tissue eosinophilia, mast cell hyperplasia, IgE production, airway smooth muscle alterations, and airways hyperreactivity in a memory CD4(+) T cell-dependent manner. Importantly, infections with pneumonia virus of mice promoted allergic sensitization to inhaled cockroach antigen in the absence but not the presence of TLR7. TLR7 gene defects and Pneumovirus infection interact to establish an aberrant adaptive response that might underlie virus-induced asthma exacerbations in later life.
Publisher: Hindawi Limited
Date: 2015
DOI: 10.1155/2015/342304
Abstract: Biomaterial implants are an established part of medical practice, encompassing a broad range of devices that widely differ in function and structural composition. However, one common property amongst biomaterials is the induction of the foreign body response: an acute sterile inflammatory reaction which overlaps with tissue vascularisation and remodelling and ultimately fibrotic encapsulation of the biomaterial to prevent further interaction with host tissue. Severity and clinical manifestation of the biomaterial-induced foreign body response are different for each biomaterial, with cases of incompatibility often associated with loss of function. However, unravelling the mechanisms that progress to the formation of the fibrotic capsule highlights the tightly intertwined nature of immunological responses to a seemingly noncanonical “antigen.” In this review, we detail the pathways associated with the foreign body response and describe possible mechanisms of immune involvement that can be targeted. We also discuss methods of modulating the immune response by altering the physiochemical surface properties of the biomaterial prior to implantation. Developments in these areas are reliant on reproducible and effective animal models and may allow a “combined” immunomodulatory approach of adapting surface properties of biomaterials, as well as treating key immune pathways to ultimately reduce the negative consequences of biomaterial implantation.
Publisher: Springer Science and Business Media LLC
Date: 26-03-2018
DOI: 10.1038/S41467-018-03662-6
Abstract: Zika and chikungunya viruses have caused major epidemics and are transmitted by Aedes aegypti and/or Aedes albopictu s mosquitoes. The “Sementis Copenhagen Vector” (SCV) system is a recently developed vaccinia-based, multiplication-defective, vaccine vector technology that allows manufacture in modified CHO cells. Herein we describe a single-vector construct SCV vaccine that encodes the structural polyprotein cassettes of both Zika and chikungunya viruses from different loci. A single vaccination of mice induces neutralizing antibodies to both viruses in wild-type and IFNAR −/− mice and protects against (i) chikungunya virus viremia and arthritis in wild-type mice, (ii) Zika virus viremia and fetal lacental infection in female IFNAR −/− mice, and (iii) Zika virus viremia and testes infection and pathology in male IFNAR −/− mice. To our knowledge this represents the first single-vector construct, multi-pathogen vaccine encoding large polyproteins, and offers both simplified manufacturing and formulation, and reduced “shot burden” for these often co-circulating arboviruses.
Publisher: MDPI AG
Date: 22-05-2020
DOI: 10.3390/V12050569
Abstract: White adipose tissue (WAT) produces interleukin-10 and other immune suppressors in response to pathogen-associated molecular patterns (PAMPs). It also homes a subset of B-cells specialized in the production of IL-10, referred to as regulatory B-cells. We investigated whether viral stimuli, polyinosinic: polycytidylic acid (poly(I:C)) or whole replicative murine cytomegalovirus (MCMV), could stimulate the expression of IL-10 in murine WAT using in vivo and ex vivo approaches. Our results showed that in vivo responses to systemic administration of poly(I:C) resulted in high levels of endogenously-produced IL-10 and IL-21 in WAT. In ex vivo WAT explants, a subset of B-cells increased their endogenous IL-10 expression in response to poly(I:C). Finally, MCMV replication in WAT explants resulted in decreased IL-10 levels, opposite to the effect seen with poly(I:C). Moreover, downregulation of IL-10 correlated with relatively lower number of Bregs. To our knowledge, this is the first report of IL-10 expression by WAT and WAT-associated B-cells in response to viral stimuli.
Publisher: Informa UK Limited
Date: 10-2010
Abstract: The Src/Abl tyrosine kinase inhibitor dasatinib is an approved chronic myeloid leukemia treatment and is under investigation for solid tumor therapy. Members of the Src family of kinases (SFKs) are involved in the process of metastasis and dasatinib inhibits the migration and invasiveness of human melanoma cell lines in vitro. SFKs are also involved in immune function and angiogenesis, which both contribute to As active and passive immunotherapies continue to be investigated in metastatic melanoma, we investigated possible interactions between kinase inhibitors and immunotherapies. A murine syngenic model of metastatic melanoma in which B16F10 cells expressed ovalbumin (B16-OVA) was employed and the active immunotherapy comprised immunization with an OVA-expressing recombinant fowlpox virus (FPVOVA).Dasatinib did not affect B16-OVA viability, proliferation, migration or soft agar colony formation. However, depending on drug dose and schedule, differences in the metastatic behavior of B16-OVA were observed in vivo after dasatinib therapy. At a dose of 5 mg/kg/day given before tumor challenge, dasatinib therapy reduced the number of pulmonary metastases. Conversely, a higher dose (25 mg/kg/day), did not affect the number of pulmonary metastases and increased the number of extra-pulmonary metastases. Finally, immunization of B16-OVA-bearing mice with FPVOVA reduced the number of lung metastases. Prior treatment of these mice with dasatinib 5 mg/kg/day did not affect the incidence of lung metastases. Although the mechanisms by which dasatinib alters the metastatic behavior of B16-OVA cells in vivo remain to be determined, we hypothesize that dasatinib acts via multiple tumor-extrinsic processes that include immune function and neoangiogenesis.
Publisher: Elsevier BV
Date: 02-2016
DOI: 10.1016/J.JRI.2015.11.005
Abstract: Investigating immune cell populations within various reproductive tissues commonly utilises flow cytometric methods. With advances in fluorophore technology and equipment capabilities, multiple cell types from a single tissue s le can be identified by using different combinations of cell surface markers to distinguish specific cell populations. Here a protocol optimized for mouse uterine tissue was used to show the proportional changes in dendritic cells, monocyte/macrophages, T and B cells, NK and NK T cells, and the granulocytes, neutrophils and eosinophils at each of the four stages of the estrous cycle. Importantly, we demonstrate that use of anti-SiglecF or assessment of FSC/SSC plots could be used to differentiate monocyte/macrophage and eosinophil populations that otherwise cannot be distinguished by use of the common combination of antibodies against F4/80 and CD11b. Our results clearly indicate that within the uterus a dynamic population of immune cells resides, with many cell types reaching peak abundance at estrus and metestrus phases of the cycle, consistent with their importance in the response to paternal antigens and/or pathogens encountered after insemination.
Publisher: Wiley
Date: 14-03-2017
DOI: 10.1038/ICB.2017.13
Publisher: Springer Science and Business Media LLC
Date: 14-01-2015
DOI: 10.1038/SREP07760
Publisher: Wiley
Date: 31-03-2015
DOI: 10.1038/ICB.2015.34
Abstract: The role of intracellular calcium ion oscillations in T-cell physiology is being increasingly appreciated by studies that describe how unique temporal and spatial calcium ion signatures can control different signalling pathways. Within this review, we provide detailed mechanisms of calcium ion oscillations, and emphasise the pivotal role that calcium signalling plays in directing crucial events pertaining to T-cell functionality. We also describe methods of calcium ion quantification, and take the opportunity to discuss how a deeper understanding of calcium signalling combined with new detection and quantification methodologies can be used to better design immunotherapies targeting T-cell responses.
Publisher: Wiley
Date: 31-05-2016
DOI: 10.1038/ICB.2016.48
Abstract: Compared with lymphoid tissues, the immune cell compartment at mucosal sites is enriched with T cells bearing the γδ T-cell receptor (TCR). The female reproductive tract, along with the placenta and uterine decidua during pregnancy, are populated by γδ T cells predominantly expressing the invariant Vγ6(+)Vδ1(+) receptor. Surprisingly little is understood about the function of these cells. We found that the majority of γδ T cells in the non-pregnant uterus, pregnant uterus, decidua and placenta of mice express the transcription factor RORγt and produce interleukin-17 (IL-17). In contrast, IFNγ-producing γδ T cells were markedly reduced in gestational tissues compared with uterine-draining lymph nodes and spleen. Both uterine-resident invariant Vγ6(+) and Vγ4(+) γδ T cells which are more typically found in lymphoid tissues and circulating blood, were found to express IL-17. Vγ4(+) γδ T cells were particularly enriched in the placenta, suggesting a pregnancy-specific recruitment or expansion of these cells. A small increase in IL-17-producing γδ T cells was observed in allogeneic compared with syngeneic pregnancy, suggesting a contribution to regulating the maternal response to paternally-derived alloantigens. However, their high proportions also in non-pregnant uteri and gestational tissues of syngeneic pregnancy imply a role in the prevention of intrauterine infection or quality control of fetal development. These data suggest the need for a more rigorous evaluation of the role of IL-17 in sustaining normal pregnancy, particularly as emerging data points to a pathogenic role for IL-17 in pre-ecl sia, pre-term birth, miscarriage and maternal immune activation-induced behavioral abnormalities in offspring.
Publisher: Elsevier BV
Date: 12-2016
DOI: 10.1016/J.JIM.2016.09.008
Abstract: Adjuvants are used to enhance the immune response against specific antigens for the production of antibodies, with the choice of adjuvant most critical for poorly immunogenic and self-antigens. This study quantitatively and qualitatively evaluated CoVaccine HT™ and Freund's adjuvants for eliciting therapeutic ovine polyclonal antibodies targeting the endogenous alarmin, high mobility group box-1 (HMGB1). Sheep were immunised with HMGB1 protein in CoVaccine HT™ or Freund's adjuvants, with injection site reactions and antibody titres periodically assessed. The binding affinity of antibodies for HMGB1 and their neutralisation activity was determined in-vitro, with in vivo activity confirmed using a murine model of endotoxemia. Results indicated that CoVaccine HT™ elicited significantly higher antibody tires with stronger affinity and more functional potency than antibodies induced with Freund's adjuvants. These studies provide evidence that CoVaccine HT™ is superior to Freund's adjuvants for the production of antibodies to antigens with low immunogenicity and supports the use of this alternative adjuvant for clinical and experimental use antibodies.
Publisher: Cambridge University Press
Date: 21-04-2011
Abstract: In the 1990s and mid-2000s, turbulent political and social protests surrounded the issue of private sector involvement in providing urban water services in both the developed and developing world. Water on Tap explores ex les of such conflicts in six national settings (France, Bolivia, Chile, Argentina, South Africa and New Zealand), focusing on a central question: how were rights and regulation mobilized to address the demands of redistribution and recognition? Two modes of governance emerged: managed liberalization and participatory democracy, often in hybrid forms that complicated simple oppositions between public and private, commodity and human right. The case studies examine the effects of transnational and domestic regulatory frameworks shaping the provision of urban water services, bilateral investment treaties and the contributions of non-state actors such as transnational corporations, civil society organisations and social movement activists. The conceptual framework developed can be applied to a wide range of transnational governance contexts.
Publisher: Elsevier BV
Date: 2012
DOI: 10.1016/J.ACTBIO.2011.09.001
Abstract: Polyfunctional T cell responses are increasingly underpinning new and improved vaccination regimens. Studies of the nature and extent of these T cell responses may be facilitated if specific T cell populations can be assessed from mixed populations by ligand-mediated capture in a solid-state assay format. Accordingly, we report here the development of a novel strategy for the solid-state capture and real-time activation analyses of in idual cognate T cells which utilizes a spontaneous self-assembly process for generating multimers of biotinylated class I major histocompatibility-peptide complex (MHCp) directly on the solid-state assay surface while also ensuring stability by covalent interfacial binding. The capture surface was constructed by the fabrication of multilayer coatings onto standard slides. The first layer was a thin polymer coating with surface aldehyde groups, onto which streptavidin was covalently immobilized, followed by the docking of multimers of biotinylated MHCp or biotinylated anti-CD45.1 monoclonal antibody. The high binding strength at each step of this immobilization sequence aims to ensure that artefacts such as (partial) detachment, or displacement by proteins from solution, would not interfere with the intended biological assays. The multilayer coating steps were monitored by X-ray photoelectron spectroscopy data indicated that the MHCp proteins self-assembled in a multimeric form onto the streptavidin surface. Immobilized multimeric MHCp demonstrated the capacity to bind and retain antigen-specific T cells from mixed populations of cells onto the solid carrier. Furthermore, real-time confocal microscopic detection and quantification of subsequent calcium flux using paired fluorescent ratiometric probes facilitated the analysis of in idual T cell response profiles, as well as population analyses using a combination of in idual T cell events.
Publisher: Informa UK Limited
Date: 10-2011
DOI: 10.1586/ERV.11.121
Abstract: The study of poxviruses pioneered the field of vaccinology after Jenner's remarkable discovery that 'vaccination' with the phylogenetically related cowpox virus conferred immunity to the devastating disease of smallpox. The study of poxviruses continues to enrich the field of virology because the global eradication of smallpox provides a unique ex le of the potency of effective immunization. Other poxviruses have since been developed as vaccine vectors for clinical and veterinary applications and include modified vaccinia virus strains such as modified vaccinia Ankara and NYVAC as well as the avipox viruses, fowlpox virus and canarypox virus. Despite the empirical development of poxvirus-based vectored vaccines, it is only now becoming apparent that we need to better understand how the innate arm of the immune system drives adaptive immunity to poxviruses, and how this information is relevant to vaccine design strategies, which are the topics addressed in this article.
Publisher: Future Science Ltd
Date: 04-2017
DOI: 10.2144/000114537
Abstract: Recombinant vaccinia viruses (rVACVs) are promising antigen-delivery systems for vaccine development that are also useful as research tools. Two common methods for selection during construction of rVACV clones are (i) co-insertion of drug resistance or reporter protein genes, which requires the use of additional selection drugs or detection methods, and (ii) dominant host-range selection. The latter uses VACV variants rendered replication-incompetent in host cell lines by the deletion of host-range genes. Replicative ability is restored by co-insertion of the host-range genes, providing for dominant selection of the recombinant viruses. Here, we describe a new method for the construction of rVACVs using the cowpox CP77 protein and unmodified VACV as the starting material. Our selection system will expand the range of tools available for positive selection of rVACV during vector construction, and it is substantially more high-fidelity than approaches based on selection for drug resistance.
Publisher: Elsevier BV
Date: 2021
Publisher: American Society for Microbiology
Date: 11-2010
DOI: 10.1128/CVI.00291-10
Abstract: Recombinant fowlpox viruses (rFPV) and ovine atadenoviruses (rOAdV) are being developed as safe, nonpathogenic, prophylactic and therapeutic vaccine vectors. There is scope, however, to improve the limited immune responses elicited by each of these vaccine vectors. Using previously determined and optimized routes of administration and viral doses, we characterized the primary adaptive immune responses elicited by recombinant variants of each virus. We demonstrate the contrasting nature of the response elicited by each recombinant virus. Whereas rFPV generates predominately cell-mediated immunity to our nominal target antigen, ovalbumin (OVA), rOAdV drives strong humoral responses. By defining the time taken to achieve maximal cytotoxic T cell responses and by studying the different patterns and kinetics of major histocompatibility complex class I-restricted OVA antigen expression postimmunization, we proposed a heterologous prime-boost regimen of immunization with rOAdV followed by rFPV. The subsequent experimental results showed that this approach produced robust cell-mediated and humoral immune responses against OVA that, importantly, were accompanied by weak anti-viral vector antibody responses. These results, therefore, represent a novel and potentially clinically applicable way to achieve broadly based and effective immunity to the antigens encoded by vectored vaccines.
Publisher: American Society for Microbiology
Date: 07-2010
DOI: 10.1128/JVI.02618-09
Abstract: Type I interferons (IFNs) are considered to be important mediators of innate immunity due to their inherent antiviral activity, ability to drive the transcription of a number of genes involved in viral clearance, and their role in the initiation of innate and adaptive immune responses. Due to the central role of type I IFNs, we sought to determine their importance in the generation of immunity to a recombinant vaccine vector fowlpox virus (FPV). In analyzing the role of type I IFNs in immunity to FPV, we show that they are critical to the secretion of a number of innate and proinflammatory cytokines, including type I IFNs themselves as well as interleukin-12 (IL-12), tumor necrosis factor-alpha (TNF-α), IL-6, and IL-1β, and that deficiency leads to enhanced virus-mediated antigen expression. Interestingly, however, type I IFNs were not required for adaptive immune responses to recombinant FPV even though plasmacytoid dendritic cells (pDCs), the primary producers of type I IFNs, have been shown to be requisite for this to occur. Furthermore, we provide evidence that the importance of pDCs may lie in their ability to capture and present virally derived antigen to T cells rather than in their capacity as professional type I IFN-producing cells.
Publisher: Wiley
Date: 13-03-2022
DOI: 10.1111/IMCB.12539
Abstract: The ongoing coronavirus disease 2019 (COVID‐19) pandemic perpetuated by severe acute respiratory syndrome coronavirus 2 (SARS‐CoV‐2) variants has highlighted the continued need for broadly protective vaccines that elicit robust and durable protection. Here, the vaccinia virus‐based, replication‐defective Sementis Copenhagen Vector (SCV) was used to develop a first‐generation COVID‐19 vaccine encoding the spike glycoprotein (SCV‐S). Vaccination of mice rapidly induced polyfunctional CD8 T cells with cytotoxic activity and robust type 1 T helper‐biased, spike‐specific antibodies, which are significantly increased following a second vaccination, and contained neutralizing activity against the alpha and beta variants of concern. Longitudinal studies indicated that neutralizing antibody activity was maintained up to 9 months after vaccination in both young and middle‐aged mice, with durable immune memory evident even in the presence of pre‐existing vector immunity. Therefore, SCV‐S vaccination has a positive immunogenicity profile, with potential to expand protection generated by current vaccines in a heterologous boost format and presents a solid basis for second‐generation SCV‐based COVID‐19 vaccine candidates incorporating additional SARS‐CoV‐2 immunogens.
Publisher: Wiley
Date: 08-01-2015
DOI: 10.1111/CEN.12680
Abstract: Corticosteroid-binding globulin (CBG) is cleaved by neutrophil elastase converting the high-affinity (haCBG) conformation of CBG to a low-affinity (laCBG) conformation with a ninefold reduced cortisol-binding affinity. These in vitro data suggest that cortisol release by CBG cleavage results in the targeted delivery of cortisol to areas of inflammation. Our objective was to determine whether CBG cleavage alters circulating levels of haCBG and laCBG in vivo in proportion to sepsis severity. Prospective, observational cohort study in an adult tertiary level Intensive Care Unit in Adelaide, Australia. Thirty-three patients with sepsis or septic shock grouped by illness severity [sepsis, septic shock survivors, septic shock nonsurvivors and other shock]. Plasma levels of haCBG and laCBG were assessed using a recently developed in-house assay in patients. Plasma total and free cortisol levels were also measured. Plasma total CBG and haCBG levels fell significantly, in proportion to disease severity (P < 0·0001 for both). There was a nonsignificant increase in free and total cortisol as illness severity worsened (P = 0·19 and P = 0·39, respectively). Illness severity was better correlated with haCBG levels than either free or total cortisol levels. Increasing illness severity in sepsis and septic shock is associated with markedly reduced circulating haCBG concentrations in vivo. We propose that low levels of haCBG in chronic inflammation may limit the availability of cortisol to inflammatory sites, perpetuating the inflammatory process.
Publisher: Elsevier BV
Date: 11-2015
DOI: 10.1016/J.JCIS.2015.06.040
Abstract: Hybrid micro and nanoparticles have become a topic of intense research in recent years. This is due to the special properties of these materials that open new avenues in advanced applications. Herein, we report a novel method for the generation of hybrid particles utilising plasma polymerization. Poly (methyl methacrylate) (PMMA) beads were first coated with a thin allylamine based plasma polymer layer. Gold nanoparticles of engineered size and surface structure were then attached in a controlled manner to the plasma polymer coated beads. To generate uniform chemistry on the outermost surface and to preserve the nanotopography, we deposited a 5-10 nm thin layer of Acpp. We demonstrated that these particles can be utilized in in vivo models to interrogate important biological phenomena. Specifically, we used them in mice to study the inflammatory and foreign body responses to surface nanotopography. The data strongly indicates that surface nanotopography and chemistry can modulate collagen production and the number of adhering immune cells. The method for generating hybrid particles reported here is solvent free and can open new opportunities in fields such as tissue engineering, drug delivery, biosensors, and regenerative medicine.
Publisher: Springer Science and Business Media LLC
Date: 10-02-2016
DOI: 10.1038/SREP20635
Abstract: Detailing the inflammatory mechanisms of biomaterial-implant induced foreign body responses (FBR) has implications for revealing targetable pathways that may reduce leukocyte activation and fibrotic encapsulation of the implant. We have adapted a model of poly(methylmethacrylate) (PMMA) bead injection to perform an assessment of the mechanistic role of the ASC-dependent inflammasome in this process. We first demonstrate that ASC −/− mice subjected to PMMA bead injections had reduced cell infiltration and altered collagen deposition, suggesting a role for the inflammasome in the FBR. We next investigated the NLRP3 and AIM2 sensors because of their known contributions in recognising damaged and apoptotic cells. We found that NLRP3 was dispensable for the fibrotic encapsulation however AIM2 expression influenced leukocyte infiltration and controlled collagen deposition, suggesting a previously unexplored link between AIM2 and biomaterial-induced FBR.
Publisher: Elsevier BV
Date: 05-2012
DOI: 10.1016/J.BIOS.2012.02.038
Abstract: In this report, a label-free reflectometric interference spectroscopy (RIfS) based microchip biosensor for the detection of circulating tumour cells (CTCs) is demonstrated. Highly ordered nanoporous anodic aluminium oxide (AAO) fabricated by electrochemical anodization of aluminium foil was used as the RIfS sensing platform. Biotinylated anti-EpCAM antibody that specifically binds to human cancer cells of epithelial origin such as pancreatic cancer cells (PANC-1) was covalently attached to the AAO surface through multiple surface functionalization steps. Whole blood or phosphate buffer saline spiked with low numbers of pancreatic cancer cells were successfully detected by specially designed microfluidic device incorporating an AAO RIfS sensor, without labour intensive fluorescence labelling and/or pre-enhancement process. Our results show that the developed device is capable of selectively detecting of cancer cells, within a concentrations range of 1000-100,000 cells/mL, with a detection limit of <1000 cells/mL, a response time of <5 min and s le volume of 50 μL of. The presented RIfS method shows considerable promise for translation to a rapid and cost-effective point-of-care diagnostic device for the detection of CTCs in patients with metastatic cancer.
Publisher: Wiley
Date: 27-06-2020
DOI: 10.1038/ICB.2017.41
Abstract: Central to pregnancy success is a state of T cell tolerance to paternal antigens, which is initiated at conception. The role and regulation of specific phenotypes of CD8
Publisher: Elsevier BV
Date: 09-2014
Publisher: Informa UK Limited
Date: 08-01-2010
DOI: 10.1517/14728220903544507
Abstract: The TGF-beta's are pleiotropic cytokines that regulate multiple cellular functions. Their role in the prostate is important for normal prostate development and also in prostate tumourigenesis. The interactions TGF-beta-mediated signalling has with maintaining prostate health, as well as its role in prostate tumourigenesis and prostate tumour immune evasion, with emphasis on how a breakdown in these interactions may influence disease progression. That TGF-beta influences normal prostate growth and differentiation by regulating the balance between epithelial cell proliferation and apoptosis, and involving the androgen receptor pathway. That TGF-beta protects and maintains prostate stem cells and a review of the contrasting role TGF-beta has in prostate tumourigenesis and tumour development, where TGF-beta acts as a tumour suppressor and then switches roles to become a tumour promoter, and creates a local immunosuppressive niche leading to systemic tumour tolerance. TGF-beta signalling in prostate cancer is a valid target for the treatment of this disease however any therapeutic regimen will require an understanding of all aspects of the TGF-beta-signalling nexus, otherwise by the very pleiotrophic nature of TGF-beta, limited clinical benefits may result.
Publisher: Wiley
Date: 04-02-2016
Abstract: Synthetic materials employed for enhancing, replacing, or restoring biological functionality may be compromised by the host immune responses that they evoke. Surface modification has attracted substantial attention as a tool to modulate the host response to synthetic materials however, how surface nanotopography combined with chemistry affects immune effector cell responses is still poorly understood. To address this open question, a unique set of model surfaces with controlled surface nanotopography in the range of 16, 38, and 68 nm has been generated. Tailored outermost surface chemistry that was amine, carboxyl, or methyl group rich has been provided. The combinations of these properties yield 12 surface types that are subject to functional assays assessing key immune effector cells, namely, primary neutrophil and macrophage responses in vitro. The data demonstrate that surface nanotopography leads to enhanced matrix metalloproteinase-9 production from primary neutrophils, and a decrease in pro-inflammatory cytokine secretion from primary macrophages. Together, these results are the first to directly compare the immunomodulatory effects of the cooperative interplay between surface nanotopography and chemistry.
Publisher: CSIRO Publishing
Date: 2012
DOI: 10.1071/CH11311
Abstract: We have developed a novel method for activating T-cells on material surfaces that enable in idual and population-based analyses of intracellular calcium flux, as a quantitative measure of T-cell receptor engagement. Functionalized material surfaces were created using a plasma-polymerized foundation layer to immobilize stimulatory T-cell ligands, which could induce T-cell receptor-dependent calcium flux in naive T-cells. Real-time confocal microscopic detection and quantification of calcium flux using paired fluorescent ratiometric probes facilitated the tracking and analysis of response profiles of in idual T-cells, as well as population analyses using a combination of in idual T-cell events. This type of combined analysis cannot be achieved using traditional population-based flow cytometric approaches, and thus provides a logical step towards developing the capacity to assess the magnitude and quality of inherently heterogeneous effector T-cell responses to antigenic challenge.
Publisher: Springer Science and Business Media LLC
Date: 19-07-2017
DOI: 10.1038/S41598-017-06205-Z
Abstract: Sepsis remains a significant health burden and a major clinical need exists for therapeutics to d en the excessive and uncontrolled immune activation. Nuclear protein high mobility group box protein 1 (HMGB1) is released following cell death and is a late mediator in sepsis pathogenesis. While approaches targeting HMGB1 have demonstrated reduced mortality in pre-clinical models of sepsis, the impact of HMGB1 blockade on the complex septic inflammatory milieu and the development of subsequent immunosuppression remain enigmatic. Analysis of plasma s les obtained from septic shock patients established an association between increased HMGB1 and non-survival, higher APACHE II scores, and increased pro-inflammatory cytokine responses. Pre-clinically, administration of neutralising ovine anti-HMGB1 polyclonal antibodies improved survival in murine endotoxaemia and caecal ligation and puncture-induced sepsis models, and altered early cytokine profiles to one which corresponded to patterns observed in the surviving patient cohort. Additionally, anti-HMGB1 treated murine sepsis survivors were significantly more resistant to secondary bacterial infection and exhibited altered innate immune cell phenotypes and cytokine responses. These findings demonstrate that anti-HMGB1 antibodies alter inflammation in murine sepsis models and reduce sepsis mortality without potentiating immunosuppression.
Publisher: Springer Science and Business Media LLC
Date: 06-07-2016
DOI: 10.1038/SREP29154
Abstract: Passive immunotherapy may have particular benefits for the treatment of severe influenza infection in at-risk populations, however little is known of the impact of passive immunotherapy on the formation of memory responses to the virus. Ideally, passive immunotherapy should attenuate the severity of infection while still allowing the formation of adaptive responses to confer protection from future exposure. In this study, we sought to determine if administration of influenza-specific ovine polyclonal antibodies could inhibit adaptive immune responses in a murine model of lethal influenza infection. Ovine polyclonal antibodies generated against recombinant PR8 (H1N1) hemagglutinin exhibited potent prophylactic capacity and reduced lethality in an established influenza infection, particularly when administered intranasally. Surviving mice were also protected against reinfection and generated normal antibody and cytotoxic T lymphocyte responses to the virus. The longevity of ovine polyclonal antibodies was explored with a half-life of over two weeks following a single antibody administration. These findings support the development of an ovine passive polyclonal antibody therapy for treatment of severe influenza infection which does not affect the formation of subsequent acquired immunity to the virus.
Publisher: Informa UK Limited
Date: 06-2010
DOI: 10.1586/ERA.10.66
Abstract: The immune system has an intricate and complex relationship with tumorigenesis while it has the capacity to identify and eliminate cancerous cells, the emergence of a tumor signifies its failure to do this. Thus, the immune-tumor interplay is paradoxical as through initial suppression of tumor growth, an immunologically silent or even suppressive tumor evolves. Furthermore, certain immune processes, such as chronic inflammation and immunosuppression, can facilitate malignant progression. Nevertheless, immunotherapeutic approaches can manipulate the immune milieu to improve the therapeutic outcomes of cancer treatments. Furthermore, particular conventional cancer therapies also have immunostimulatory properties in their own right. An in-depth understanding of the intimate involvement of the immune system in tumorigenesis and the potential to manipulate this interaction to improve disease outcomes will enable the development of new and broadly effective cancer therapies.
Publisher: Frontiers Media SA
Date: 11-12-2019
Publisher: Wiley
Date: 10-2021
DOI: 10.1002/HSR2.410
Publisher: Wiley
Date: 06-10-2019
DOI: 10.1111/AJI.13187
Publisher: Springer Science and Business Media LLC
Date: 18-05-2016
DOI: 10.1038/SREP26207
Abstract: Implantable devices have become an established part of medical practice. However, often a negative inflammatory host response can impede the integration and functionality of the device. In this paper, we interrogate the role of surface nanotopography and chemistry on the potential molecular role of the inflammasome in controlling macrophage responses. To achieve this goal we engineered model substrata having precisely controlled nanotopography of predetermined height and tailored outermost surface chemistry. Bone marrow derived macrophages (BMDM) were harvested from genetically engineered mice deficient in the inflammasome components ASC, NLRP3 and AIM2. These cells were then cultured on these nanoengineered substrata and assessed for their capacity to attach and express pro-inflammatory cytokines. Our data provide evidence that the inflammasome components ASC, NLRP3 and AIM2 play a role in regulating macrophage adhesion and activation in response to surface nanotopography and chemistry. The findings of this paper are important for understanding the inflammatory consequences caused by biomaterials and pave the way to the rational design of future implantable devices having controlled and predictable inflammatory outcomes.
No related grants have been discovered for Kerrilyn Diener.