Your search keyword '"Pinfold TL"' showing total 8 results

1. Devil Facial Tumour Disease: In vivo studies in mice

Author

Pinfold, TL

Abstract

Devil Facial Tumour Disease (DFTD) is an infectious cancer cell line transmitted as an allograft between Tasmanian devils. On transmission it does not evoke an immune response, is 100% fatal and is driving the Tasmanian devil towards extinction in the wild. Due to their endangered status, access to Tasmanian devils to study DFTD is limited. As a consequence this study of DFTD was undertaken in mice to complement studies being done in Tasmanian devils. Inoculation of immunocompetent mice with DFTD cells did not result in DFTD tumour establishment. This rejection was a specific immune response because DFTD specific antibodies were produced. This provided evidence that DFTD cells are immunogenic and susceptible to killing by the immune system making them suitable targets for immunotherapy and vaccines. Immunocompetent mice also provided a model to study immunogenicity of various DFTD cell preparations and injection protocols applicable to vaccine development. For example, 14 day prime-boost intraperitoneal injections of DFTD cells resulted in enhanced antibody and cytokine responses in mice compared to subcutaneous injections. Inactivation of DFTD cells by freeze-thawing or sonication reduced the immunogenicity of DFTD cells while irradiation of DFTD cells maintained immunogenicity. NOD/SCID mice have severe immune system defects that prevented protective immune responses against DFTD cells allowing tumours to establish. Consequently, these mice provided a xenograft model to study aspects of DFTD that could not be replicated in an in vitro setting. This included DFTD establishment and growth as well as efficacy of adoptive cell transfer trials. Adoptive cell transfer from immunocompetent mice conferred protection against DFTD as did adoptive transfer of Tasmanian devil lymphokine activated killer (LAK) cells. In this context, LAK cells refer to lymphocytes which have been stimulated in vitro with mitogens or cytokines to induce non-specific activated killer cells capable of killing DFTD cells without harming normal cells. The xenograft model also facilitated the evaluation of the chemotherapeutic agents afatinib, withaferin A and imiquimod. The most promising results came from intratumoural injections of imiquimod which caused the upregulation of ˜í‚â§2-microglobulin on the surface of the DFTD cells. DFTD cells avoid immune recognition in Tasmanian devils because they do not express MHC on the cell surface. Upregulation of ˜í‚â§2-microglobulin indicates that MHC was upregulated. This has important implications for the Tasmanian devil as the MHC would make the DFTD cells visible to the Tasmanian devil's immune system and this should invoke protective immune responses. In conclusion, DFTD cells are immunogenic and can be targeted by antibodies and cytotoxic cells. This makes them suitable candidates for vaccines or immunotherapy in Tasmanian devils. They avoid the Tasmanian devils immune system by downregulating MHC. This ignorance can be overcome by non-specific activation of LAK cells capable of killing DFTD cells in a MHC independent manner. The tumour cells can be targeted by imiquimod to upregulate surface molecules including ˜í‚â§2-microglobulin and MHC to make them more immunogenic and potential targets for MHC dependent cytotoxic responses.

Published

2023

2. New Methods for the Quantification of Ingested Nano- and Ultrafine Plastics in Seabirds.

Author

Keys BC, Grant ML, Rodemann T, Mylius KA, Pinfold TL, Rivers-Auty J, and Lavers JL

Subjects

Animals, Australia, Spectroscopy, Fourier Transform Infrared, Waste Products analysis, Environmental Monitoring methods, Birds, Plastics analysis, Water Pollutants, Chemical analysis

Abstract

Plastic ingestion has been documented in a plethora of taxa. However, there is a significant gap in the detection of nano- and ultrafine particles due to size limitations of commonly used techniques. Using two Australian seabird species as case studies, the flesh-footed shearwater (FFSH) Ardenna carneipes and short-tailed shearwater (STSH) A. tenuirostris , we tested a novel approach of flow cytometry to quantify ingested particles <70 μm in the fecal precursor (guano; colon and cloacal contents) of both species. This method provided the first baseline data set for these species for plastics in the 200 nm-70 μm particle size ranges and detected a mean of 553.50 ± 91.21 and 350.70 ± 52.08 plastics (count/mg fecal precursor, wet mass) in STSH and FFSH, respectively, whereas Fourier transform infrared spectroscopy (FT-IR) provided accurate measurements of polymer compositions and quantities in the size range above 5.5 × 5.5 μm 2 . The abundance of nano- and ultrafine particles in the guano (count/mg) was not significantly different between species ( p -value = 0.051), suggesting that foraging distribution or prey items, but not species, may contribute to the consumption of small plastics. In addition, there was no correlation between macroplastics in the stomach compared to the fecal precursor, indicating that small particles are likely bioaccumulating (e.g., through shedding and digestive fragmentation) and/or being directly ingested. Combining flow cytometry with FT-IR provides a powerful quantitative and qualitative analysis tool for detecting particles orders of magnitude smaller than that are currently explored with wider applications across taxa and marine environments.

Published

2023

3. Tasmanian devil CD28 and CTLA4 capture CD80 and CD86 from adjacent cells.

Author

Wong C, Darby JM, Murphy PR, Pinfold TL, Lennard PR, Woods GM, Lyons AB, and Flies AS

Subjects

Amino Acid Motifs genetics, Animals, CD28 Antigens antagonists & inhibitors, CHO Cells, CTLA-4 Antigen antagonists & inhibitors, CTLA-4 Antigen genetics, Cells, Cultured, Cloning, Molecular, Cricetulus, Endangered Species, Immune Checkpoint Inhibitors pharmacology, Immune Checkpoint Inhibitors therapeutic use, Intravital Microscopy, Marsupialia metabolism, Mutation, Trogocytosis, B7-1 Antigen metabolism, B7-2 Antigen metabolism, CD28 Antigens metabolism, CTLA-4 Antigen metabolism, Marsupialia immunology

Abstract

Immune checkpoint immunotherapy is a pillar of human oncology treatment with potential for non-human species. The first checkpoint immunotherapy approved for human cancers targeted the CTLA4 protein. CTLA4 can inhibit T cell activation by capturing and internalizing CD80 and CD86 from antigen presenting cells, a process called trans-endocytosis. Similarly, CD28 can capture CD80 and CD86 via trogocytosis and retain the captured ligands on the surface of the CD28-expressing cells. The wild Tasmanian devil (Sarcophilus harrisii) population has declined by 77% due to transmissible cancers that evade immune defenses despite genetic mismatches between the host and tumors. We used a live cell-based assay to demonstrate that devil CTLA4 and CD28 can capture CD80 and CD86. Mutation of evolutionarily conserved motifs in CTLA4 altered functional interactions with CD80 and CD86 in accordance with patterns observed in other species. These results suggest that checkpoint immunotherapies can be translated to evolutionarily divergent species., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2021

4. Novel Methods to Manipulate Autolysis in Sparkling Wine: Effects on Yeast.

Author

Gnoinski GB, Schmidt SA, Close DC, Goemann K, Pinfold TL, and Kerslake FL

Subjects

Wine microbiology, Autolysis, Saccharomyces cerevisiae metabolism, Wine analysis

Abstract

Sparkling wine made by the traditional method (Méthode Traditionelle) develops a distinct and desirable flavour and aroma profile attributed to proteolytic processes during prolonged ageing on lees. Microwave, ultrasound and addition of β-glucanase enzymes were applied to accelerate the disruption of Saccharomyces cerevisiae , and added to the tirage solution for secondary fermentation in traditional sparkling winemaking. Scanning electron microscopy and flow cytometry analyses were used to observe and describe yeast whole-cell anatomy, and cell integrity and structure via propidium iodide (PI) permeability after 6-, 12- and 18-months post-tirage. Treatments applied produced features on lees that were distinct from that of the untreated control yeast. Whilst control yeast displayed budding cells (growth features) with smooth, cavitated and flat external cell appearances; microwave treated yeast cells exhibited modifications like 'doughnut' shapes immediately after treatment (time 0). Similar 'doughnut'-shaped and 'pitted/porous' cell features were observed on progressively older lees from the control. Flow cytometry was used to discriminate yeast populations; features consistent with cell disruption were observed in the microwave, ultrasound and enzyme treatments, as evidenced by up to 4-fold increase in PI signal in the microwave treatment. Forward and side scatter signals reflected changes in size and structure of yeast cells, in all treatments applied. When flow cytometry was interpreted alongside the scanning electron microscopy images, bimodal populations of yeast cells with low and high PI intensities were revealed and distinctive 'doughnut'-shaped cell features observed in association with the microwave treatment only at tirage, that were not observed until 12 months wine ageing in older lees from the control. This work offers both a rapid approach to visualise alterations to yeast cell surfaces and a better understanding of the mechanisms of yeast lysis. Microwave, ultrasound or β-glucanase enzymes are tools that could potentially initiate the release of yeast cell compounds into wine. Further investigation into the impact of such treatments on the flavour and aroma profiles of the wines through sensory evaluation is warranted.

Published

2021

5. Generation and Testing of Fluorescent Adaptable Simple Theranostic (FAST) Proteins.

Author

Flies AS, Darby JM, Murphy PR, Pinfold TL, Patchett AL, and Lennard PR

Abstract

This protocol provides a step-by-step method to create recombinant fluorescent fusion proteins that can be secreted from mammalian cell lines. This builds on many other recombinant protein and fluorescent protein techniques, but is among the first to harness fluorescent fusion proteins secreted directly into cell culture supernatant. This opens new possibilities that are not achievable with proteins produced in bacteria or yeast, such as direct use of the fluorescent protein-secreting cells in live co-culture assays. The Fluorescent Adaptable Simple Theranostic (FAST) protein system includes a histidine purification tag and a tobacco etch virus (TEV) cleavage site, allowing the purification tag and fluorescent protein to be removed for therapeutic use. This protocol is split into five parts: (A) In silico characterization of the gene-of-interest (GOI) and protein-of-interest (POI); (B) design of the expression vector; (C) assembly of the expression vector; (D) transfection of a eukaryotic cell line with the expression vector; (E) testing of the recombinant protein. This extensive protocol can be completed with only polymerase chain reaction (PCR) and cell culture training. Additionally, each part of the protocol can be used independently., Competing Interests: Competing interestsThe authors received funding from Nexvet Australia Pty. Ltd for related studies., (Copyright © 2020 The Authors; exclusive licensee Bio-protocol LLC.)

Published

2020

6. A novel system to map protein interactions reveals evolutionarily conserved immune evasion pathways on transmissible cancers.

Author

Flies AS, Darby JM, Lennard PR, Murphy PR, Ong CEB, Pinfold TL, De Luca A, Lyons AB, Woods GM, and Patchett AL

Subjects

Animals, Immune Evasion, Immunotherapy, Facial Neoplasms metabolism, Facial Neoplasms pathology, Marsupialia

Abstract

Around 40% of humans and Tasmanian devils ( Sarcophilus harrisii ) develop cancer in their lifetime, compared to less than 10% for most species. In addition, devils are affected by two of the three known transmissible cancers in mammals. Immune checkpoint immunotherapy has transformed human medicine, but a lack of species-specific reagents has limited checkpoint immunology in most species. We developed a cut-and-paste reagent development system and used the fluorescent fusion protein system to show that immune checkpoint interactions are conserved across 160,000,000 years of evolution, CD200 is highly expressed on transmissible tumor cells, and coexpression of CD200R1 can block CD200 surface expression. The system's versatility across species was demonstrated by fusing a fluorescent reporter to a camelid-derived nanobody that binds human programmed death ligand 1. The evolutionarily conserved pathways suggest that naturally occurring cancers in devils and other species can be used to advance our understanding of cancer and immunological tolerance., (Copyright © 2020 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC).)

Published

2020

7. Temperature and telomeres: thermal treatment influences telomere dynamics through a complex interplay of cellular processes in a cold-climate skink.

Author

Fitzpatrick LJ, Olsson M, Parsley LM, Pauliny A, Pinfold TL, Pirtle T, While GM, and Wapstra E

Subjects

Animals, Cold Climate, Cold Temperature, Temperature, Lizards, Telomere

Abstract

Telomere dynamics vary fundamentally between endothermic populations and species as a result of differences in life history, yet we know little about these patterns in ectotherms. In ectotherms, the relationships between climate, metabolism and life history suggest that telomere attrition should be higher at relatively high environmental temperatures compared to relatively low environmental temperatures, but these effects may vary between populations due to local adaptation. To address this hypothesis, we sampled reactive oxygen species (ROS) and telomere length of lizards from warm lowland and cool highland populations of a climatically widespread lizard species that we exposed to hot or cold basking treatments. The hot treatment increased relative telomere length compared to the cold treatment independent of climatic origin or ROS levels. Lizards from the cool highland region had lower ROS levels than those from the warm lowland region. Within the highland lizards, ROS increased more in the cold basking treatment than the hot basking treatment. These results are in the opposite direction to those predicted, suggesting that the relationships between temperature, metabolism, ROS and telomere dynamics are not straightforward. Future work incorporating detailed understanding of the thermal reaction norms of these and other linked traits is needed to fully understand these processes.

Published

2019

8. Mouse Model of Devil Facial Tumour Disease Establishes That an Effective Immune Response Can be Generated Against the Cancer Cells.

Author

Pinfold TL, Brown GK, Bettiol SS, and Woods GM

Abstract

The largest carnivorous marsupial in Australia, the Tasmanian devil (Sarcophilus harrisii) is facing extinction in the wild due to a transmissible cancer known as Devil Facial Tumour Disease (DFTD). DFTD is a clonal cell line transmitted from host to host with 100% mortality and no known immunity. While it was first considered that low genetic diversity of the population of devils enabled the allograft transmission of DFTD recent evidence reveals that genetically diverse animals succumb to the disease. The lack of an immune response against the DFTD tumor cells may be due to a lack of immunogenicity of the tumor cells. This could facilitate transmission between devils. To test immunogenicity, mice were injected with viable DFTD cells and anti-DFTD immune responses analyzed. A range of antibody isotypes against DFTD cells was detected, indicating that as DFTD cells can induce an immune response they are immunogenic. This was supported by cytokine production, when splenocytes from mice injected with DFTD cells were cultured in vitro with DFTD cells and the supernatant analyzed. There was a significant production of IFN-γ and TNF-α following the first injection with DFTD cells and a significant production of IL-6 and IL-10 following the second injection. Splenocytes from naïve or immunized mice killed DFTD cells in in vitro cytotoxicity assays. Thus, they are also targets for immunological destruction. We conclude that as an immune response can be generated against DFTD cells they would be suitable targets for a vaccine.

Published

2014