ORCID Profile
0000-0001-7409-4386
Current Organisations
University of Adelaide
,
University of South Australia
,
Monash University
,
Flinders University
Does something not look right? The information on this page has been harvested from data sources that may not be up to date. We continue to work with information providers to improve coverage and quality. To report an issue, use the Feedback Form.
Publisher: Elsevier BV
Date: 07-1999
Publisher: Springer International Publishing
Date: 2018
Publisher: Elsevier BV
Date: 10-2019
Publisher: Elsevier BV
Date: 02-2012
Abstract: Glycogen storage in the α-glucosidase knockout((6neo/6neo)) mouse recapitulates the biochemical defect that occurs in the human condition as such, this mouse serves as a model for the inherited metabolic deficiency of lysosomal acid α-glucosidase known as Pompe disease. Although this model has been widely used for the assessment of therapies, the time course of glycogen accumulation that occurs as untreated Pompe mice age has not been reported. To address this, we developed a quantitative method involving amyloglucosidase digestion of glycogen and quantification of the resulting free glucose by liquid chromatography/electrospray ionization-tandem mass spectrometry. The method was sensitive enough to measure as little as 0.1 μg of glycogen in tissue extracts with intra- and interassay coefficients of variation of less than 12%. Quantification of glycogen in tissues from Pompe mice from birth to 26 weeks of age showed that, in addition to the accumulation of glycogen in the heart and skeletal muscle, glycogen also progressively accumulated in the brain, diaphragm, and skin. Glycogen storage was also evident at birth in these tissues. This method may be particularly useful for longitudinal assessment of glycogen reduction in response to experimental therapies being trialed in this model.
Publisher: Springer Science and Business Media LLC
Date: 11-07-2019
DOI: 10.1038/S41598-019-46400-8
Abstract: Wildfire smoke induces acute pulmonary distress and is of particular concern to risk groups such as the sick and elderly. Wood smoke (WS) contains many of the same toxic compounds as those found in cigarette smoke (CS) including polycyclic aromatic hydrocarbons, carbon monoxide, and free radicals. CS is a well-established risk factor for respiratory diseases such as asthma and COPD. Limited studies investigating the biological effects of WS on the airway epithelium have been performed. Using a cell culture-based model, we assessed the effects of a WS-infused solution on alveolar epithelial barrier function, cell migration, and survival. The average geometric mean of particles in the WS was 178 nm. GC/MS analysis of the WS solution identified phenolic and cellulosic compounds. WS exposure resulted in a significant reduction in barrier function, which peaked after 24 hours of continuous exposure. The junctional protein E-cadherin showed a prominent reduction in response to increasing concentrations of WS. Furthermore, WS significantly repressed cell migration following injury to the cell monolayer. There was no difference in cell viability following WS exposure. Mechanistically, WS exposure induced activation of the p44/42, but not p38, MAPK signaling pathway, and inhibition of p44/42 phosphorylation prevented the disruption of barrier function and loss of E-cadherin staining. Thus, WS may contribute to the breakdown of alveolar structure and function through a p44/42 MAPK-dependent pathway and may lead to the development and/or exacerbation of respiratory pathologies with chronic exposure.
Publisher: Springer Science and Business Media LLC
Date: 05-2018
Publisher: Springer Science and Business Media LLC
Date: 23-07-2022
DOI: 10.1038/S41598-022-16512-9
Abstract: Pressure injuries, also known as pressure ulcers, are regions of localized damage to the skin and/or underlying tissue. Repeated rounds of ischemia–reperfusion (I/R) have a major causative role for tissue damage in pressure injury. Ischemia prevents oxygen/nutrient supply, and restoration of blood flow induces a burst of reactive oxygen species that damages blood vessels, surrounding tissues and can halt blood flow return. Minimizing the consequences of repeated I/R is expected to provide a protective effect against pressure injury. Sulfaphenazole (SP), an off patent sulfonamide antibiotic, is a potent CYP 2C6 and CYP 2C9 inhibitor, functioning to decrease post-ischemic vascular dysfunction and increase blood flow. The therapeutic effect of SP on pressure injury was therefore investigated in apolipoprotein E knockout mice, a model of aging susceptible to ischemic injury, which were subjected to repeated rounds of I/R-induced skin injury. SP reduced overall severity, improved wound closure and increased wound tensile strength compared to vehicle-treated controls. Saliently, SP restored tissue perfusion in and around the wound rapidly to pre-injury levels, decreased tissue hypoxia, and reduced both inflammation and fibrosis. SP also demonstrated bactericidal activity through enhanced M1 macrophage activity. The efficacy of SP in reducing thermal injury severity was also demonstrated. SP is therefore a potential therapeutic option for pressure injury and other ischemic skin injuries.
Publisher: Portland Press Ltd.
Date: 22-02-2005
DOI: 10.1042/BJ20040739
Abstract: Mammalian sulphatases (EC 3.1.6) are a family of enzymes that have a high degree of similarity in amino acid sequence, structure and catalytic mechanism. IDS (iduronate-2-sulphatase EC 3.1.6.13) is a lysosomal exo-sulphatase that belongs to this protein family and is involved in the degradation of the glycosaminoglycans heparan sulphate and dermatan sulphate. An IDS deficiency causes the lysosomal storage disorder MPS II (mucopolysaccharidosis type II). To examine the structural alterations in heat-denatured and mutant IDS, a panel of four monoclonal antibodies was raised to the denatured protein and used as probes of protein conformation. The linear sequence epitope reactivity of a polyclonal antibody raised against the native protein and the monoclonal antibodies were defined and mapped to distinct regions on the IDS protein. The antigenicity of native IDS was higher in regions without glycosylation, but reactivity was not restricted to protein surface epitopes. One monoclonal epitope was relatively surface accessible and in close proximity to an N-linked glycosylation site, while three others required additional thermal energy to expose the epitopes. The monoclonal antibodies demonstrated the capacity to differentiate progressive structural changes in IDS and could be used to characterize the severity of MPS type II in patients based on variable denatured microstates.
Publisher: Elsevier BV
Date: 04-2013
DOI: 10.1038/JID.2012.457
Abstract: Epidermolysis bullosa (EB) is a chronic inheritable disease that leads to severe blistering and fibrosis. Previous studies have shown that the actin cytoskeletal protein flightless I (Flii) impairs wound healing associated with EB. Using a mouse model of EB acquisita (EBA), the effect of "mopping up" Flii using Flii-neutralizing antibodies (FnAbs) before, during, and after blister formation was determined. FnAbs, incorporated into a cream vehicle and applied topically to the skin, penetrated into the basal epidermis and upper papillary dermis but were not detected in serum or other organs and did not alter neutrophil or macrophage infiltration into the blistered skin. Histological assessment of blister severity showed that treatment of early-stage blisters with FnAb cream reduced their severity and improved their rate of healing. Treatment of established blisters with FnAb cream also improved healing and restored the skin's tensile strength toward that of normal skin. Repeated application of FnAbs to EBA skin before the onset of blistering reduced the severity of skin blistering. Independent of when the FnAbs were applied, skin barrier function and wound healing were improved and skin fragility was reduced, suggesting that FnAbs could potentially improve healing of patients with EB.
Publisher: Frontiers Media SA
Date: 2016
Publisher: Elsevier BV
Date: 2019
DOI: 10.1016/J.JCMG.2018.06.028
Abstract: This study investigated processes causing leaflet thickening and structural valve degeneration (SVD). Although transcatheter aortic valve replacement (TAVR) has changed the treatment of aortic stenosis, concerns remain regarding SVD, potentially related to valve thrombosis and thickening, based on studies using computed tomography (CT). Detailed histological analyses are provided to help attain insights into these processes. Explanted transcatheter heart valves (THVs) were evaluated for thrombosis, fibrosis, and calcification for quantification of leaflet thickness. Immunohistochemical and microscopy approaches were used to investigate SVD-associated mechanisms. THVs (n = 23) were obtained from 22 patients (median 81 years of age 50% male) from 0 to 2,583 days post TAVR. Maximal leaflet thickness increased relative to implant duration (ρ = 0.427 p = 0.027). THVs explanted after >2 years were thicker than those explanted after <2 years (p = 0.007). All THVs had adherent thrombus on both aortic and ventricular sides, which beyond 60 days was seen in combination with fibrosis and beyond 4 years had calcification. Early thrombus formation (<60 days) occurred despite rapid endothelialization with an abnormal hyperplastic phenotype. Fibrosis was observed in 6 patients on both the aortic and the ventricular THV surfaces, remodeled over time, and was associated with matrix metalloproteinase-1 expression. Five THVs showed overt calcification associated with adherent thrombus and fibrosis. There is a time-dependent degeneration of THVs consisting of thrombus formation, endothelial hyperplasia, fibrosis, tissue remodeling, proteinase expression, and calcification. Future investigation is needed to further understand these mechanisms contributing to leaflet thickening and SVD.
Publisher: Oxford University Press (OUP)
Date: 23-10-2022
DOI: 10.1093/BJD/LJAC017
Abstract: Granzyme K (GzmK) is a serine protease with minimal presence in healthy tissues while abundant in inflamed tissues. Initially thought to play an exclusive role in immune-mediated cell death, extracellular GzmK can also promote inflammation. To evaluate the role of GzmK in the pathogenesis of atopic dermatitis (AD), the most common inflammatory skin disease. A panel of human AD and control s les was analysed to determine if GzmK is elevated. Next, to determine a pathological role for GzmK in AD-like skin inflammation, oxazolone-induced dermatitis was induced in GzmK−/− and wild-type (WT) mice. In human lesional AD s les, there was an increase in the number of GzmK+ cells compared with healthy controls. GzmK−/− mice exhibited reduced overall disease severity characterized by reductions in scaling, erosions and erythema. Surprisingly, the presence of GzmK did not notably increase the overall pro-inflammatory response or epidermal barrier permeability in WT mice rather, GzmK impaired angiogenesis, increased microvascular damage and microhaemorrhage. Mechanistically, GzmK contributed to vessel damage through cleavage of syndecan-1, a key structural component of the glycocalyx, which coats the luminal surface of vascular endothelia. GzmK may provide a potential therapeutic target for skin conditions associated with persistent inflammation, vasculitis and pathological angiogenesis.
Publisher: Elsevier BV
Date: 09-2002
DOI: 10.1016/S1096-7192(02)00148-8
Abstract: Immune response to replacement therapy has been reported for a range of therapeutic strategies being developed for the treatment of patients with genetic disease. The potential problem of immune response to enzyme replacement therapy has been investigated in alpha-L-iduronidase immunized rats, representing a model of the lysosomal storage disorder Hurler syndrome (alpha-L-iduronidase deficiency). The antibody response to alpha-L-iduronidase showed that the positional location of antibody reactivity was similar for different immunized rats, but the precise linear sequence epitopes identified, varied between rats. A monoclonal antibody reacting to an epitope in close proximity to one high antigenicity site on alpha-L-iduronidase was used to reproduce the in vivo effect of altered enzyme tissue distribution, previously observed in immunized rats infused with alpha-L-iduronidase. The study demonstrated that during an immune response, antibody reacting to a single epitope could partially control the tissue distribution of antigen from circulation.
Publisher: Wiley
Date: 2017
Publisher: American Physiological Society
Date: 11-2022
DOI: 10.1152/PHYSIOL.00011.2022
Abstract: Granzymes are serine proteases previously believed to play exclusive and somewhat redundant roles in lymphocyte-mediated target cell death. However, recent studies have challenged this paradigm. Distinct substrate profiles and functions have since emerged for each granzyme while their dysregulated proteolytic activities have been linked to erse pathologies.
Publisher: Elsevier BV
Date: 02-2012
Abstract: Glycogen storage in the α-glucosidase knockout((6neo/6neo)) mouse recapitulates the biochemical defect that occurs in the human condition as such, this mouse serves as a model for the inherited metabolic deficiency of lysosomal acid α-glucosidase known as Pompe disease. Although this model has been widely used for the assessment of therapies, the time course of glycogen accumulation that occurs as untreated Pompe mice age has not been reported. To address this, we developed a quantitative method involving amyloglucosidase digestion of glycogen and quantification of the resulting free glucose by liquid chromatography/electrospray ionization-tandem mass spectrometry. The method was sensitive enough to measure as little as 0.1 μg of glycogen in tissue extracts with intra- and interassay coefficients of variation of less than 12%. Quantification of glycogen in tissues from Pompe mice from birth to 26 weeks of age showed that, in addition to the accumulation of glycogen in the heart and skeletal muscle, glycogen also progressively accumulated in the brain, diaphragm, and skin. Glycogen storage was also evident at birth in these tissues. This method may be particularly useful for longitudinal assessment of glycogen reduction in response to experimental therapies being trialed in this model.
Publisher: Frontiers Media SA
Date: 26-06-2019
Publisher: Springer Science and Business Media LLC
Date: 12-01-2021
DOI: 10.1038/S41467-020-20604-3
Abstract: Pemphigoid diseases refer to a group of severe autoimmune skin blistering diseases characterized by subepidermal blistering and loss of dermal-epidermal adhesion induced by autoantibody and immune cell infiltrate at the dermal-epidermal junction and upper dermis. Here, we explore the role of the immune cell-secreted serine protease, granzyme B, in pemphigoid disease pathogenesis using three independent murine models. In all models, granzyme B knockout or topical pharmacological inhibition significantly reduces total blistering area compared to controls. In vivo and in vitro studies show that granzyme B contributes to blistering by degrading key anchoring proteins in the dermal-epidermal junction that are necessary for dermal-epidermal adhesion. Further, granzyme B mediates IL-8/macrophage inflammatory protein-2 secretion, lesional neutrophil infiltration, and lesional neutrophil elastase activity. Clinically, granzyme B is elevated and abundant in human pemphigoid disease blister fluids and lesional skin. Collectively, granzyme B is a potential therapeutic target in pemphigoid diseases.
Publisher: Oxford University Press (OUP)
Date: 09-01-2015
DOI: 10.1111/BJD.14263
Abstract: Hypertrophic scarring carries a large burden of disease, including disfigurement, pain and disability. There is currently no effective medical treatment to reduce or prevent hypertrophic scarring. Flightless I (Flii), a member of the gelsolin family of actin remodelling proteins, is an important negative regulator of wound repair. The objective of this study was to investigate the role of Flii as a potential regulator of hypertrophic scarring. Using human skin s les and an animal model of bleomycin-induced hypertrophic scarring in mice that overexpress or have reduced expression of Flii, we investigated its effect on dermal fibrosis and hypertrophic scarring. Flii expression was increased in human burns and hypertrophic scars. A similar increase in Flii was observed in hypertrophic scars formed in mice post-treatment with bleomycin. However, Flii-deficient (Flii(+/-) ) mice had reduced scarring in response to bleomycin evidenced by decreased dermal thickness, smaller cross-sectional scar areas, fewer myofibroblasts and a decreased collagen I/III ratio. In contrast, bleomycin-treated Flii-overexpressing mice (Flii(Tg/Tg) ) showed increased scar dermal thickness, larger cross-sectional scar areas, more myofibroblasts and an increased collagen I/III ratio. Injecting developing scars with a Flii neutralizing antibody led to a significant reduction in the size of the scars and a reduction in the collagen I/III ratio. This study identifies Flii as a profibrotic agent that contributes to excessive scar formation. Reducing its activity using neutralizing antibodies is a promising approach for reducing hypertrophic scarring.
Publisher: American Chemical Society (ACS)
Date: 09-11-2016
Publisher: Springer Science and Business Media LLC
Date: 20-11-2017
DOI: 10.1038/S41598-017-16194-8
Abstract: Decorin (DCN) is a small-leucine rich proteoglycan that mediates collagen fibrillogenesis, organization, and tensile strength. Adventitial DCN is reduced in abdominal aortic aneurysm (AAA) resulting in vessel wall instability thereby predisposing the vessel to rupture. Recombinant DCN fusion protein CAR-DCN was engineered with an extended C-terminus comprised of CAR homing peptide that recognizes inflamed blood vessels and penetrates deep into the vessel wall. In the present study, the role of systemically-administered CAR-DCN in AAA progression and rupture was assessed in a murine model. Apolipoprotein E knockout (ApoE-KO) mice were infused with angiotensin II (AngII) for 28 days to induce AAA formation. CAR-DCN or vehicle was administrated systemically until day 15. Mortality due to AAA rupture was significantly reduced in CAR-DCN-treated mice compared to controls. Although the prevalence of AAA was similar between vehicle and CAR-DCN groups, the severity of AAA in the CAR-DCN group was significantly reduced. Histological analysis revealed that CAR-DCN treatment significantly increased DCN and collagen levels within the aortic wall as compared to vehicle controls. Taken together, these results suggest that CAR-DCN treatment attenuates the formation and rupture of Ang II-induced AAA in mice by reinforcing the aortic wall.
Publisher: Wiley
Date: 21-11-2017
Abstract: Flightless I (Flii) is elevated in human chronic wounds and is a negative regulator of wound repair. Decreasing its activity improves healing responses. Flii neutralizing antibodies (FnAbs) decrease Flii activity in vivo and hold significant promise as healing agents. However, to avoid the need for repeated application in a clinical setting and to protect the therapeutic antibody from the hostile environment of the wound, suitable delivery vehicles are required. In this study, the use of porous silicon nanoparticles (pSi NPs) is demonstrated for the controlled release of FnAb to diabetic wounds. We achieve FnAb loading regimens exceeding 250 µg antibody per mg of vehicle. FnAb-loaded pSi NPs increase keratinocyte proliferation and enhance migration in scratch wound assays. Release studies confirm the functionality of the FnAb in terms of Flii binding. Using a streptozotocin-induced model of diabetic wound healing, a significant improvement in healing is observed for mice treated with FnAb-loaded pSi NPs compared to controls, including FnAb alone. FnAb-loaded pSi NPs treated with proteases show intact and functional antibody for up to 7 d post-treatment, suggesting protection of the antibodies from proteolytic degradation in wound fluid. pSi NPs may therefore enable new therapeutic approaches for the treatment of diabetic ulcers.
Publisher: Frontiers Media SA
Date: 07-04-2020
Publisher: Elsevier BV
Date: 10-2016
DOI: 10.1016/J.BBRC.2016.09.145
Abstract: Pompe disease is caused by a deficiency in the lysosomal enzyme α-glucosidase, and this leads to glycogen accumulation in the autolysosomes of patient cells. Glycogen storage material is exocytosed at a basal rate in cultured Pompe cells, with one study showing up to 80% is released under specific culture conditions. Critically, exocytosis induction may reduce glycogen storage in Pompe patients, providing the basis for a therapeutic strategy whereby stored glycogen is redirected to an extracellular location and subsequently degraded by circulating amylases. The focus of the current study was to identify compounds capable of inducing rapid glycogen exocytosis in cultured Pompe cells. Here, calcimycin, lysophosphatidylcholine and α-l-iduronidase each significantly increased glycogen exocytosis compared to vehicle-treated controls. The most effective compound, calcimycin, induced exocytosis through a Ca
Publisher: Elsevier BV
Date: 2021
Publisher: Elsevier BV
Date: 04-2019
DOI: 10.1016/J.JID.2018.09.031
Abstract: Granzyme K (GzmK), traditionally described as a pro-apoptotic, granule-secreted serine protease, has been proposed to promote inflammation. Found at low levels in the plasma of healthy in iduals, GzmK is markedly elevated in response to sepsis and infection. In this study we investigated the role of GzmK in inflammation and remodeling in response to thermal injury. In human burn tissue, GzmK was elevated compared with normal skin, with expression predominantly found in macrophages. GzmK was expressed and secreted by cultured human classically activated macrophages. To assess the role of GzmK in response to skin wounding, wild-type or GzmK
Publisher: Elsevier BV
Date: 05-2003
Publisher: Springer Science and Business Media LLC
Date: 05-03-2021
DOI: 10.1038/S41514-021-00059-6
Abstract: Pressure injuries (PIs), also known as bedsores or pressure ulcers, are a major cause of death and morbidity in the elderly. The serine protease, Granzyme B (GzmB), contributes to skin aging and impaired wound healing. Aging is a major risk factor for PIs thus, the role of GzmB in PI pathogenesis was investigated. GzmB levels in human PI tissue and wound fluids were markedly elevated. A causative role for GzmB was assessed in GzmB knockout (GzmB−/−) and wild-type (WT) mice using a murine model of PI. An apolipoprotein E knockout (ApoE−/−) model of aging and vascular dysfunction was also utilized to assess GzmB in a relevant age-related model better resembling tissue perfusion in the elderly. PI severity displayed no difference between young GzmB−/− and WT mice. However, in aged mice, PI severity was reduced in mice lacking GzmB. Mechanistically, GzmB increased vascular wall inflammation and impaired extracellular matrix remodeling. Together, GzmB is an important contributor to age-dependent impaired PI healing.
Publisher: Elsevier BV
Date: 12-2020
Publisher: Royal Society of Chemistry (RSC)
Date: 2015
DOI: 10.1039/C5TB00397K
Abstract: Infliximab antibodies released from porous silicon microparticles can sequester the proinflammatory cytokine, tumor necrosis factor-α (TNF-α), which is elevated in uveitis and non-healing chronic wounds.
Publisher: Hindawi Limited
Date: 2015
DOI: 10.1155/2015/309602
Abstract: Monoclonal antibodies (mAbs), available for a range of diseases, including tumours, leukemia, and multiple sclerosis, are emerging as the fastest growing area of therapeutic drug development. The greatest advantage of therapeutic mAbs is their ability to bind with a high degree of specificity to target proteins involved in disease pathophysiology. In response, effector functions are triggered and these ameliorate the disease cascade. As an alternative to this reliance on effector functions, drugs can be conjugated to mAbs. The ability to target compounds to the site of pathology minimises the nonspecific side effects associated with systemic administration. In both instances, optimising the delivery, absorption, and distribution of the mAbs, whilst minimising potential side effects, remain the key hurdles to improved clinical outcomes. Novel delivery strategies are being investigated with more vigour in recent years, and nanoparticles are being identified as suitable vehicles. In conjunction with permitting a controlled release profile, nanoparticles protect the drug from degradation, reducing both the dose and frequency of administration. Moreover, these particles shield the patient from the immune complications associated with high dose mAb infusions or drug cytotoxicity. This review outlines recent advances in nanoparticle technology and how they may be of benefit as therapeutic mAb delivery/targeting vehicles.
Publisher: Wiley
Date: 14-07-2015
DOI: 10.1111/EXD.12751
Abstract: The cytoskeletal protein Flightless (Flii) is a negative regulator of wound healing. Upregulation of Flii is associated with impaired migration, proliferation and adhesion of both fibroblasts and keratinocytes. Importantly, Flii translocates from the cytoplasm to the nucleus in response to wounding in fibroblasts but not keratinocytes. This cell-specific nuclear translocation of Flii suggests that Flii may directly regulate gene expression in fibroblasts, providing one potential mechanism of action for Flii in the wound healing response. To determine whether the tissue-specific upregulation of Flii in fibroblasts was important for the observed inhibitory effects of Flii on wound healing, an inducible fibroblast-specific Flii overexpressing mouse model was generated. The inducible ROSA26 system allowed the overexpression of Flii in a temporal and tissue-specific manner in response to tamoxifen treatment. Wound healing in the inducible mice was impaired, with wounds at day 7 postwounding significantly larger than those from non-inducible controls. There was also reduced collagen maturation, increased myofibroblast infiltration and elevated inflammation. The impaired healing response was similar in magnitude to that observed in mice with non-tissue-specific upregulation of Flii suggesting that fibroblast-derived Flii may have an important role in the wound healing response.
Publisher: Elsevier BV
Date: 04-2000
Abstract: Enzyme replacement therapy (ERT) has been developed and trialed for the treatment of human lysosomal storage disorder patients. The viability of ERT for the treatment of these severe multiple pathology disorders has subsequently been established. However, in both animal model studies and human clinical trials, some in iduals have been shown to develop an immune response to the replacement protein. This potential complication for treatment has been investigated by the infusion of recombinant human alpha-L-iduronidase (rh-alpha-L-iduronidase) into nonimmune and immunized rats to simulate mucopolysaccharidosis type I ERT in the presence of different levels of antibody. In rats with high antibody titers to rh-alpha-L-iduronidase (titer 1,024,000) there was evidence of altered organ distribution and subcellular targeting when compared to either lower titer immunized rats (titers less than 64,000) or nonimmune rats (titers 512-1024). In addition, hypersensitivity reactions were observed for high titer rats (titer 1,024,000) during rh-alpha-L-iduronidase infusion, but not for the other two treatment groups. A rat with an antibody titer of 64,000 had only minor changes in subcellular targeting and organ distribution when infused with rh-alpha-L-iduronidase. This implied that a high level of antibody was required to effect changes in alpha-L-iduronidase enzyme targeting and distribution. Notably, in the high titer rats, the antibody produced appeared to increase the tissue and subcellular level of rh-alpha-L-iduronidase specific activity. This suggested that antibody production may not always result in an adverse effect on ERT.
Publisher: Elsevier BV
Date: 2017
DOI: 10.1016/J.MATBIO.2017.12.005
Abstract: Granzyme B (GzmB) is a serine protease emerging as an important mediator of skin injury, inflammation and repair. Found at low levels in healthy skin, GzmB is dramatically elevated in chronic disease and inflammatory skin disorders, including diabetic ulcers, hypertrophic scarring, autoimmune skin disorders, cutaneous leishmaniasis and aging skin. Traditionally known for its pro-apoptotic function, the role of GzmB in disease has been redefined due to the discovery of additional activities involving the cleavage of extracellular matrix proteins, epithelial barrier disruption, fibrosis, vascular permeability, anoikis, inflammation and autoimmunity. In addition to the accumulation of GzmB
Publisher: Informa UK Limited
Date: 02-09-2019
Publisher: Royal Society of Chemistry (RSC)
Date: 2015
DOI: 10.1039/C5TB00397K
Abstract: Infliximab antibodies released from porous silicon microparticles can sequester the proinflammatory cytokine, tumor necrosis factor-α (TNF-α), which is elevated in uveitis and non-healing chronic wounds.
Publisher: Portland Press Ltd.
Date: 22-02-2005
DOI: 10.1042/BJ20040739
Abstract: Mammalian sulphatases (EC 3.1.6) are a family of enzymes that have a high degree of similarity in amino acid sequence, structure and catalytic mechanism. IDS (iduronate-2-sulphatase EC 3.1.6.13) is a lysosomal exo-sulphatase that belongs to this protein family and is involved in the degradation of the glycosaminoglycans heparan sulphate and dermatan sulphate. An IDS deficiency causes the lysosomal storage disorder MPS II (mucopolysaccharidosis type II). To examine the structural alterations in heat-denatured and mutant IDS, a panel of four monoclonal antibodies was raised to the denatured protein and used as probes of protein conformation. The linear sequence epitope reactivity of a polyclonal antibody raised against the native protein and the monoclonal antibodies were defined and mapped to distinct regions on the IDS protein. The antigenicity of native IDS was higher in regions without glycosylation, but reactivity was not restricted to protein surface epitopes. One monoclonal epitope was relatively surface accessible and in close proximity to an N-linked glycosylation site, while three others required additional thermal energy to expose the epitopes. The monoclonal antibodies demonstrated the capacity to differentiate progressive structural changes in IDS and could be used to characterize the severity of MPS type II in patients based on variable denatured microstates.
Publisher: Elsevier BV
Date: 06-2023
No related grants have been discovered for Christopher Turner.