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Your search keyword '"Clow, Fiona"' showing total 21 results
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21 results on '"Clow, Fiona"'

1. Enterotoxins can support CAR T cells against solid tumors

Author

von Scheidt, Bianca, Wang, Minyu, Oliver, Amanda J., Chan, Jack D., Jana, Metta K., Ali, Aesha I., Clow, Fiona, Fraser, John D., Quinn, Kylie M., Darcy, Phillip K., Kershaw, Michael H., and Slaney, Clare Y.

Published
2019

3. Feasibility of using a combination of staphylococcal superantigen‐like proteins 3, 7 and 11 in a fusion vaccine for Staphylococcus aureus.

Author

Chan, Janlin Ying Hui, Clow, Fiona, Pearson, Victoria, Langley, Ries J, Fraser, John D, and Radcliff, Fiona J

Subjects
*COMPLEMENT receptors, *STAPHYLOCOCCUS aureus, *STAPHYLOCOCCAL diseases, *CHIMERIC proteins, *IMMUNOGLOBULIN G, *VACCINE effectiveness, *IMMUNOGLOBULINS
Abstract

Staphylococcus aureus is a significant bacterial pathogen in both community and hospital settings, and the escalation of antimicrobial‐resistant strains is of immense global concern. Vaccination is an inviting long‐term strategy to curb staphylococcal disease, but identification of an effective vaccine has proved to be challenging. Three well‐characterized, ubiquitous, secreted immune evasion factors from the staphylococcal superantigen‐like (SSL) protein family were selected for the development of a vaccine. Wild‐type SSL3, 7 and 11, which inhibit signaling through Toll‐like receptor 2, cleavage of complement component 5 and neutrophil function, respectively, were successfully combined into a stable, active fusion protein (PolySSL7311). Vaccination of mice with an attenuated form of the PolySSL7311 protein stimulated significantly elevated specific immunoglobulin G and splenocyte proliferation responses to each component relative to adjuvant‐only controls. Vaccination with PolySSL7311, but not a mixture of the individual proteins, led to a > 102 reduction in S. aureus tissue burden compared with controls after peritoneal challenge. Comparable antibody responses were elicited after coadministration of the vaccine in either AddaVax (an analog of MF59) or an Alum‐based adjuvant; but only AddaVax conferred a significant reduction in bacterial load, aligning with other studies that suggest both cellular and humoral immune responses are necessary for protective immunity to S. aureus. Anti‐sera from mice immunized with PolySSL7311, but not individual proteins, partially neutralized the functional activities of SSL7. This study confirms the importance of these SSLs for the survival of S. aureus in vivo and suggests that PolySSL7311 is a promising vaccine candidate. [ABSTRACT FROM AUTHOR]

Published
2024
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11. PilVax, a novel Lactococcus lactis‐based mucosal vaccine platform, stimulates systemic and mucosal immune responses to Staphylococcus aureus.

Author

Clow, Fiona, Peterken, Kelly, Pearson, Victoria, Proft, Thomas, and Radcliff, Fiona J

Subjects
*NASAL mucosa, *STAPHYLOCOCCUS aureus, *RESPIRATORY mucosa, *LACTOCOCCUS, *LACTOCOCCUS lactis, *IMMUNE response, *VACCINES, *ANTIBODY formation
Abstract

Most pathogens initiate infection via the mucosa, therefore delivery of vaccines directly to the mucosa is likely to be advantageous for stimulating protective immunity at the site of entry. PilVax is a novel mucosal vaccine platform that harnesses Lactococcus lactis bacteria engineered to stably express multiple copies of vaccine peptide antigens within pili, hair‐like structures which extend from the cell wall. This strategy elicited systemic and mucosal antibody responses to a model antigen after intranasal immunization, but has not been tested for its capacity to stimulate protective mucosal immunity. A well‐characterized linear B‐cell epitope, D3(22–33), from the fibronectin‐binding protein A of Staphylococcus aureus was successfully introduced into PilVax and delivered intranasally to mice. Specific antipeptide immunoglobulin (Ig) G and IgA antibodies were detected in the serum and respiratory mucosa of vaccinated mice. Responses to the major pilus backbone protein Spy0128 were also assessed; robust antibody responses to this antigen were generated both systemically and in the respiratory and intestinal mucosa. Mice were challenged intranasally with the mouse‐adapted S. aureus JSNZ strain and the S. aureus load quantified 7 days after challenge. Unexpectedly, exposure to PilVax, irrespective of the presence of the peptide, resulted in a significant reduction in S. aureus load in both the intestine and nasal mucosa (both P < 0.05) when compared with unvaccinated control mice. The mechanism(s) of protection are unclear, but merit further investigation to determine whether PilVax is a suitable platform for delivery of vaccine candidate antigens to the mucosa. [ABSTRACT FROM AUTHOR]

Published
2020
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12. Staphylococcal enterotoxin-like X (SElX) is a unique superantigen with functional features of two major families of staphylococcal virulence factors.

Author

Langley, Ries J., Ting, Yi Tian, Clow, Fiona, Young, Paul G., Radcliff, Fiona J., Choi, Jeong Min, Sequeira, Richard P., Holtfreter, Silva, Baker, Heather, and Fraser, John D.

Subjects
ENTEROTOXINS, SUPERANTIGENS, STAPHYLOCOCCUS aureus infections, MICROBIAL virulence, STAPHYLOCOCCUS aureus, STAPHYLOCOCCUS
Abstract

Staphylococcus aureus is an opportunistic pathogen that produces many virulence factors. Two major families of which are the staphylococcal superantigens (SAgs) and the Staphylococcal Superantigen-Like (SSL) exoproteins. The former are immunomodulatory toxins that induce a Vβ-specific activation of T cells, while the latter are immune evasion molecules that interfere with a wide range of innate immune defences. The superantigenic properties of Staphylococcal enterotoxin-like X (SElX) have recently been established. We now reveal that SElX also possesses functional characteristics of the SSLs. A region of SElX displays high homology to the sialyl-lactosamine (sLacNac)-specific binding site present in a sub-family of SSLs. By analysing the interaction of SElX with sLacNac-containing glycans we show that SElX has an equivalent specificity and host cell binding range to the SSLs. Mutation of key amino acids in this conserved region affects the ability of SElX to bind to cells of myeloid origin and significantly reduces its ability to protect S. aureus from destruction in a whole blood killing (WBK) assay. Like the SSLs, SElX is up-regulated early during infection and is under the control of the S. aureus exotoxin expression (Sae) two component gene regulatory system. Additionally, the structure of SElX in complex with the sLacNac-containing tetrasaccharide sialyl Lewis X (sLeX) reveals that SElX is a unique single-domain SAg. In summary, SElX is an ‘SSL-like’ SAg. [ABSTRACT FROM AUTHOR]

Published
2017
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14. Characterization of a Mouse-Adapted Staphylococcus aureus Strain.

Author

Holtfreter, Silva, Radcliff, Fiona J., Grumann, Dorothee, Read, Hannah, Johnson, Sarah, Monecke, Stefan, Ritchie, Stephen, Clow, Fiona, Goerke, Christiane, Bröker, Barbara M., Fraser, John D., and Wiles, Siouxsie

Subjects
STAPHYLOCOCCUS aureus, LABORATORY mice, ANTIBIOTICS, STAPHYLOCOCCUS aureus infections, GASTROINTESTINAL system, CELLULAR signal transduction, VACCINATION
Abstract

More effective antibiotics and a protective vaccine are desperately needed to combat the ‘superbug’ Staphylococcus aureus. While in vivo pathogenicity studies routinely involve infection of mice with human S. aureus isolates, recent genetic studies have demonstrated that S. aureus lineages are largely host-specific. The use of such animal-adapted S. aureus strains may therefore be a promising approach for developing more clinically relevant animal infection models. We have isolated a mouse-adapted S. aureus strain (JSNZ) which caused a severe outbreak of preputial gland abscesses among male C57BL/6J mice. We aimed to extensively characterize this strain on a genomic level and determine its virulence potential in murine colonization and infection models. JSNZ belongs to the MLST type ST88, rare among human isolates, and lacks an hlb-converting phage encoding human-specific immune evasion factors. Naive mice were found to be more susceptible to nasal and gastrointestinal colonization with JSNZ than with the human-derived Newman strain. Furthermore, naïve mice required antibiotic pre-treatment to become colonized with Newman. In contrast, JSNZ was able to colonize mice in the absence of antibiotic treatment suggesting that this strain can compete with the natural flora for space and nutrients. In a renal abscess model, JSNZ caused more severe disease than Newman with greater weight loss and bacterial burden. In contrast to most other clinical isolates, JSNZ can also be readily genetically modified by phage transduction and electroporation. In conclusion, the mouse-adapted strain JSNZ may represent a valuable tool for studying aspects of mucosal colonization and for screening novel vaccines and therapies directed at preventing colonization. [ABSTRACT FROM AUTHOR]

Published
2013
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15. Analysis of Bovine Lactoferrin in Infant Formula and Adult Nutritional Products by Optical Biosensor Immunoassay: Collaborative Study, Final Action 2021.07.

Author

Gill, Brendon D, Indyk, Harvey E, Kobayashi, Tadashi, Wood, Jackie E, Clow, Fiona, Dolezal, Olan, Hartley-Tassell, Lauren, Jones, Martina, Kelton, William, Stoller, Robyn, and Wilkinson-White, Lorna

Subjects
*IMMUNOASSAY, *PERFORMANCE standards, *BOS, *BIOSENSORS, *HEPARIN, *LACTOFERRIN, *INFANT formulas
Abstract

Background Bovine lactoferrin is increasingly being used as an ingredient in infant formula manufacture to enhance nutritional efficacy through the provision of growth, immunoprotective, and antimicrobial factors to the neonate. Objective To evaluate method reproducibility of AOAC First Action Official Method   2021.07 for compliance with the performance requirements described in Standard Method Performance Requirement (SMPR®) 2020.005. Methods Eight laboratories participated in the analysis of blind-duplicate samples of seven nutritional products. Samples were diluted in buffer, and an optical biosensor immunoassay was used in a direct-assay format to quantitate bovine lactoferrin by its interaction with an immobilized anti-lactoferrin antibody. Quantitation was accomplished by the external standard technique with interpolation from a four-parameter calibration regression. Results After outliers were removed, precision as reproducibility was found to be within limits set in SMPR 2020.005 (≤ 9%) for six out of seven samples and all had acceptable Horwitz Ratio (HorRatR) values ranging from 1.0 to 2.1. Additionally, comparison with an alternative independent Stakeholder Panel on Infant Formula and Adult Nutritionals (SPIFAN) First Action method (heparin cleanup LC–UV), showed negligible difference between results. Conclusion The method described is suitable for the quantification of intact, undenatured bovine lactoferrin in powdered infant formulas. The SPIFAN Expert Review Panel evaluated the method and accompanying validation data from this multi-laboratory testing (MLT) study in July 2023 and recommended Official Method   2021.07 for adoption as a Final Action Official Method SM. Highlights A multi-laboratory validation study of an automated optical biosensor immunoassay for the determination of intact, undenatured bovine lactoferrin is described. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Feasibility of Using a Luminescence-Based Method to Determine Serum Bactericidal Activity against Neisseria gonorrhoeae.

Author

Clow, Fiona, O'Hanlon, Conor J, Christodoulides, Myron, and Radcliff, Fiona J

Subjects
NEISSERIA gonorrhoeae, COLONY-forming units assay, SERUM
Abstract

Development of a vaccine to limit the impact of antibiotic resistant Neisseria gonorrhoeae is now a global priority. Serum bactericidal antibody (SBA) is a possible indicator of protective immunity to N. gonorrhoeae, but conventional assays measure colony forming units (CFU), which is time-consuming. A luminescent assay that quantifies ATP as a surrogate measure of bacterial viability was tested on N. gonorrhoeae strains FA1090, MS11 and P9-17 and compared to CFU-based readouts. There was a linear relationship between CFU and ATP levels for all three strains (r > 0.9). Normal human serum (NHS) is a common source of complement for SBA assays, but needs to be screened for non-specific bactericidal activity. NHS from 10 individuals were used for serum sensitivity assays—sensitivity values were significantly reduced with the ATP method for FA1090 (5/10, p < 0.05) and MS11 (10/10, p < 0.05), whereas P9-17 data were comparable for all donors. Our results suggest that measuring ATP underestimates serum sensitivity of N. gonorrhoeae and that the CFU method is a better approach. However, mouse anti-P9-17 outer membrane vesicles (OMV) SBA titres to P9-17 were comparable with both methods (r = 0.97), suggesting this assay can be used to rapidly screen sera for bactericidal antibodies to gonococci. [ABSTRACT FROM AUTHOR]

Published
2019
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17. Impact of Superantigen-Producing Bacteria on T Cells from Tonsillar Hyperplasia.

Author

Radcliff, Fiona J, Waldvogel-Thurlow, Sharon, Clow, Fiona, Mahadevan, Murali, Johnston, James, Li, Gen, Proft, Thomas, Douglas, Richard G, and Fraser, John D

Subjects
CELL populations, HYPERPLASIA, BACTERIA, STREPTOCOCCUS pyogenes, TONSILS, B cells
Abstract

Staphylococcus aureus and Group A Streptococcus (GAS) are common occupants of the tonsils and many strains produce potent exotoxins (mitogens) that directly target T cells, which could be a driver for tonsillar hyperplasia. Tonsil tissues from 41 patients were tested for these bacteria in conjunction with profiling of B and T cells by flow cytometry. S. aureus and GAS were detected in tonsil tissue from 44% and 7%, respectively, of patients by bacteriological culture; immuno-histology showed bacteria in close proximity to both B and T lymphocytes. The presence of tonsillar S. aureus did not alter B or T cell populations, whereas peripheral blood mucosal-associated invariant T (MAIT) cells were significantly increased in S. aureus culture positive individuals (p < 0.006). Alterations of tonsil CD4+ TCR Vβ family members relative to peripheral blood were evident in 29 patients. Three patients had strong TCR Vβ skewing indicative of recent exposure to superantigens, their tonsils contained mitogenic bacteria, and supernatants from these bacteria were used to partially recapitulate the skewing profile in vitro, supporting the notion that superantigens can target tonsillar T cells in situ. Tonsils are a reservoir for superantigen-producing bacteria with the capacity to alter the composition and function of key immune cells. [ABSTRACT FROM AUTHOR]

Published
2019
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18. Stabilizing Isopeptide Bonds Revealed in Gram-Positive Bacterial Pilus Structure.

Author

Hae Joo Kang, Coulibaly, Fasséli, Clow, Fiona, Proft, Thomas, and Baker, Edward N.

Subjects
*PATHOGENIC microorganisms, *CELL membranes, *FUNGUS-bacterium relationships, *AMINO acids, *PREVENTION of communicable diseases, *MOLECULES, *STREPTOCOCCUS, *GRAM-positive bacteria, *PREVENTIVE medicine
Abstract

Many bacterial pathogens have long, slender pili through which they adhere to host cells. The crystal structure of the major pilin subunit from the Gram-positive human pathogen Streptococcus pyogenes at 2.2 angstroms resolution reveals an extended structure comprising two all-β domains. The molecules associate in columns through the crystal, with each carboxyl terminus adjacent to a conserved lysine of the next molecule. This lysine forms the isopeptide bonds that link the subunits in native pili, validating the relevance of the crystal assembly. Each subunit contains two lysine-asparagine isopeptide bonds generated by an intramolecular reaction, and we find evidence for similar isopeptide bonds in other cell surface proteins of Gram-positive bacteria. The present structure explains the strength and stability of such Gram-positive pili and could facilitate vaccine development. [ABSTRACT FROM AUTHOR]

Published
2007
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19. Uncoupling Molecular Testing for SARS-CoV-2 From International Supply Chains.

Author

Stanton JL, O'Brien R, Hall RJ, Chernyavtseva A, Ha HJ, Jelley L, Mace PD, Klenov A, Treece JM, Fraser JD, Clow F, Clarke L, Su Y, Kurup HM, Filichev VV, Rolleston W, Law L, Rendle PM, Harris LD, Wood JM, Scully TW, Ussher JE, Grant J, Hore TA, Moser TV, Harfoot R, Lawley B, Quiñones-Mateu ME, Collins P, and Blaikie R

Subjects
COVID-19, Humans, Indicators and Reagents supply & distribution, SARS-CoV-2, COVID-19 Nucleic Acid Testing
Abstract

The rapid global rise of COVID-19 from late 2019 caught major manufacturers of RT-qPCR reagents by surprise and threw into sharp focus the heavy reliance of molecular diagnostic providers on a handful of reagent suppliers. In addition, lockdown and transport bans, necessarily imposed to contain disease spread, put pressure on global supply lines with freight volumes severely restricted. These issues were acutely felt in New Zealand, an island nation located at the end of most supply lines. This led New Zealand scientists to pose the hypothetical question: in a doomsday scenario where access to COVID-19 RT-qPCR reagents became unavailable, would New Zealand possess the expertise and infrastructure to make its own reagents onshore? In this work we describe a review of New Zealand's COVID-19 test requirements, bring together local experts and resources to make all reagents for the RT-qPCR process, and create a COVID-19 diagnostic assay referred to as HomeBrew (HB) RT-qPCR from onshore synthesized components. This one-step RT-qPCR assay was evaluated using clinical samples and shown to be comparable to a commercial COVID-19 assay. Through this work we show New Zealand has both the expertise and, with sufficient lead time and forward planning, infrastructure capacity to meet reagent supply challenges if they were ever to emerge., Competing Interests: Authors JU and JG are employed by Southern Community Laboratories, Dunedin, New Zealand. Authors WR and LL are employed by South Pacific Sera, Washdyke, Timaru, New Zealand. Authors RO'B and PC are employed by MicroGEM NZ Ltd., 201 Princes Street, Dunedin, New Zealand. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Stanton, O'Brien, Hall, Chernyavtseva, Ha, Jelley, Mace, Klenov, Treece, Fraser, Clow, Clarke, Su, Kurup, Filichev, Rolleston, Law, Rendle, Harris, Wood, Scully, Ussher, Grant, Hore, Moser, Harfoot, Lawley, Quiñones-Mateu, Collins and Blaikie.)

Published
2022
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20. Characterization of a mouse-adapted Staphylococcus aureus strain.

Author

Holtfreter S, Radcliff FJ, Grumann D, Read H, Johnson S, Monecke S, Ritchie S, Clow F, Goerke C, Bröker BM, Fraser JD, and Wiles S

Subjects
Animals, Disease Models, Animal, Male, Mice, Mice, Inbred C57BL, Multilocus Sequence Typing, Staphylococcal Infections microbiology, Staphylococcus aureus genetics, Virulence genetics, Virulence physiology, Staphylococcus aureus pathogenicity
Abstract

More effective antibiotics and a protective vaccine are desperately needed to combat the 'superbug' Staphylococcus aureus. While in vivo pathogenicity studies routinely involve infection of mice with human S. aureus isolates, recent genetic studies have demonstrated that S. aureus lineages are largely host-specific. The use of such animal-adapted S. aureus strains may therefore be a promising approach for developing more clinically relevant animal infection models. We have isolated a mouse-adapted S. aureus strain (JSNZ) which caused a severe outbreak of preputial gland abscesses among male C57BL/6J mice. We aimed to extensively characterize this strain on a genomic level and determine its virulence potential in murine colonization and infection models. JSNZ belongs to the MLST type ST88, rare among human isolates, and lacks an hlb-converting phage encoding human-specific immune evasion factors. Naive mice were found to be more susceptible to nasal and gastrointestinal colonization with JSNZ than with the human-derived Newman strain. Furthermore, naïve mice required antibiotic pre-treatment to become colonized with Newman. In contrast, JSNZ was able to colonize mice in the absence of antibiotic treatment suggesting that this strain can compete with the natural flora for space and nutrients. In a renal abscess model, JSNZ caused more severe disease than Newman with greater weight loss and bacterial burden. In contrast to most other clinical isolates, JSNZ can also be readily genetically modified by phage transduction and electroporation. In conclusion, the mouse-adapted strain JSNZ may represent a valuable tool for studying aspects of mucosal colonization and for screening novel vaccines and therapies directed at preventing colonization.

Published
2013
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21. Staphylococcal superantigen super-domains in immune evasion.

Author

Langley R, Patel D, Jackson N, Clow F, and Fraser JD

Subjects
Animals, Humans, Protein Structure, Tertiary, Superantigens genetics, Immune Evasion immunology, Staphylococcus aureus immunology, Superantigens chemistry, Superantigens immunology
Abstract

Staphylococcus aureus is a robust pathogen that is capable of growing in virtually any part of the human body, and can also survive and grow in many other species. S. aureus remains the most frequent cause of hospital-acquired infection and, with the emergence and spread of drug-resistant, hypervirulent, community-acquired strains, the specter looms of the ultimate superbug. S. aureus produces an array of immune evasion factors that target various components of host immune defense. Among them are the powerful superantigen (SAg) and SAg-like (SSL) molecules, which are coded for by genes scattered across several genomic and pathogenicity islands. The SAgs universally bind MHC (major histocompatibility complex) class II and T-cell receptors to induce profound T-cell activation, while the SSLs target a range of molecules regulating opsonophagocytosis and neutrophil function. Despite functional differences, the SAgs and SSLs have clearly evolved from a single ancestral gene that now codes for a stable, two-domain protein, with each domain responsible for binding a different target molecule. This superstructure tolerates extensive surface variation, enabling a wide assortment of virulence factors targeting multiple steps in innate immunity. Notably, both the SAgs and the SSLs exhibit optimal activity for humans and non-human primates, clearly indicating that primates have been the preferred host for S. aureus evolution. This restricted function makes it difficult to assess their role in staphylococcal virulence using animal models of infection. This brief review focuses on the structural features of SAgs and SSLs and their individual functions as we currently understand them.

Published
2010
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