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Results: 1 to 10 of 42

Publication Record


Polymer gel dosimetry by nuclear Overhauser enhancement (NOE) magnetic resonance imaging.
Quevedo A, Luo G, Galhardo E, Price M, Nicolucci P, Gore JC, Zu Z
(2018) Phys Med Biol 63: 15NT03
MeSH Terms: Ascorbic Acid, Copper Sulfate, Gelatin, Hydroquinones, Magnetic Resonance Imaging, Methacrylates, Polymers, Radiation Dosimeters, Radiometry
Show Abstract · Added March 26, 2019
The response to radiation of polymer gel dosimeters has previously been measured by magnetic resonance imaging (MRI) in terms of changes in the water transverse relaxation rate (R ) or magnetization transfer (MT) parameters. Here we report a new MRI approach, based on detecting nuclear Overhauser enhancement (NOE) mediated saturation transfer effects, which can also be used to detect radiation and measure dose distributions in MAGIC-f (Methacrylic and Ascorbic Acid and Gelatin Initiated by Copper Solution with formaldehyde) polymer gels. Results show that the NOE effects produced by low powered radiofrequency (RF) irradiation at specific frequencies offset from water may be quantified by appropriate measurements and over a useful range depend linearly on the radiation dose. The NOE effect likely arises from the polymerization of methacrylic acid monomers which become less mobile, facilitating dipolar through-space cross-relaxation and/or relayed magnetization exchange between polymer and water protons. Our study suggests a potential new MRI method for polymer gel dosimetry.
0 Communities
1 Members
0 Resources
9 MeSH Terms
Introduction to Metals in Biology 2018: Copper homeostasis and utilization in redox enzymes.
Guengerich FP
(2018) J Biol Chem 293: 4603-4605
MeSH Terms: Animals, Copper, Electron Transport Complex IV, Humans, Superoxide Dismutase
Show Abstract · Added March 14, 2018
This 11th Thematic Metals in Biology Thematic Series deals with copper, a transition metal with a prominent role in biochemistry. Copper is a very versatile element, and both deficiencies and excesses can be problematic. The five Minireviews in this series deal with several aspects of copper homeostasis in microorganisms and mammals and the role of this metal in two enzymes, copper-only superoxide dismutase and cytochrome oxidase.
© 2018 Guengerich.
0 Communities
1 Members
0 Resources
5 MeSH Terms
Role of Calprotectin in Withholding Zinc and Copper from Candida albicans.
Besold AN, Gilston BA, Radin JN, Ramsoomair C, Culbertson EM, Li CX, Cormack BP, Chazin WJ, Kehl-Fie TE, Culotta VC
(2018) Infect Immun 86:
MeSH Terms: Animals, Candida albicans, Copper, Fungal Proteins, Homeostasis, Leukocyte L1 Antigen Complex, Mice, Mice, Inbred C57BL, Mice, Knockout, Zinc
Show Abstract · Added March 24, 2018
The opportunistic fungal pathogen acquires essential metals from the host, yet the host can sequester these micronutrients through a process known as nutritional immunity. How the host withholds metals from has been poorly understood; here we examine the role of calprotectin (CP), a transition metal binding protein. When CP depletes bioavailable Zn from the extracellular environment, strongly upregulates and for Zn import and maintains constant intracellular Zn through numerous cell divisions. We show for the first time that CP can also sequester Cu by binding Cu(II) with subpicomolar affinity. CP blocks fungal acquisition of Cu from serum and induces a Cu starvation stress response involving and superoxide dismutases. These transcriptional changes are mirrored when invades kidneys in a mouse model of disseminated candidiasis, although the responses to Cu and Zn limitations are temporally distinct. The Cu response progresses throughout 72 h, while the Zn response is short-lived. Notably, these stress responses were attenuated in CP null mice, but only at initial stages of infection. Thus, Zn and Cu pools are dynamic at the host-pathogen interface and CP acts early in infection to restrict metal nutrients from .
Copyright © 2018 American Society for Microbiology.
0 Communities
1 Members
0 Resources
10 MeSH Terms
Advances in the local and targeted delivery of anti-infective agents for management of osteomyelitis.
Ford CA, Cassat JE
(2017) Expert Rev Anti Infect Ther 15: 851-860
MeSH Terms: Absorbable Implants, Anti-Infective Agents, Copper, Debridement, Disease Management, Drug Delivery Systems, Humans, Microspheres, Osteomyelitis, Polyurethanes, Silver, Staphylococcal Infections, Staphylococcus aureus, Tissue Scaffolds
Show Abstract · Added April 3, 2018
INTRODUCTION - Osteomyelitis, a common and debilitating invasive infection of bone, is a frequent complication following orthopedic surgery and causes pathologic destruction of skeletal tissues. Bone destruction during osteomyelitis results in necrotic tissue, which is poorly penetrated by antibiotics and can serve as a nidus for relapsing infection. Osteomyelitis therefore frequently necessitates surgical debridement procedures, which provide a unique opportunity for targeted delivery of antimicrobial and adjunctive therapies. Areas covered: Following surgical debridement, tissue voids require implanted materials to facilitate the healing process. Antibiotic-loaded, non-biodegradable implants have been the standard of care. However, a new generation of biodegradable, osteoconductive materials are being developed. Additionally, in the face of widespread antimicrobial resistance, alternative therapies to traditional antibiotic regimens are being investigated, including bone targeting compounds, antimicrobial surface modifications of orthopedic implants, and anti-virulence strategies. Expert commentary: Recent advances in biodegradable drug delivery scaffolds make this technology an attractive alternative to traditional techniques for orthopedic infection that require secondary operations for removal. Advances in novel treatment methods are expanding the arsenal of viable antimicrobial treatment strategies in the face of widespread drug resistance. Despite a need for large scale clinical investigations, these strategies offer hope for future treatment of this difficult invasive disease.
0 Communities
1 Members
0 Resources
14 MeSH Terms
Binding of transition metals to S100 proteins.
Gilston BA, Skaar EP, Chazin WJ
(2016) Sci China Life Sci 59: 792-801
MeSH Terms: Amino Acid Sequence, Animals, Copper, Humans, Manganese, Models, Molecular, Protein Binding, Protein Domains, S100 Proteins, Sequence Homology, Amino Acid, Transition Elements, Zinc
Show Abstract · Added April 8, 2017
The S100 proteins are a unique class of EF-hand Ca(2+) binding proteins distributed in a cell-specific, tissue-specific, and cell cycle-specific manner in humans and other vertebrates. These proteins are distinguished by their distinctive homodimeric structure, both intracellular and extracellular functions, and the ability to bind transition metals at the dimer interface. Here we summarize current knowledge of S100 protein binding of Zn(2+), Cu(2+) and Mn(2+) ions, focusing on binding affinities, conformational changes that arise from metal binding, and the roles of transition metal binding in S100 protein function.
0 Communities
2 Members
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12 MeSH Terms
Evolution of a Heavy Metal Homeostasis/Resistance Island Reflects Increasing Copper Stress in Enterobacteria.
Staehlin BM, Gibbons JG, Rokas A, O'Halloran TV, Slot JC
(2016) Genome Biol Evol 8: 811-26
MeSH Terms: Chromosomes, Bacterial, Copper, Enterobacteriaceae, Gene Transfer, Horizontal, Homeostasis, Humans, Metals, Heavy, Phylogeny, Plasmids, Shewanella
Show Abstract · Added February 22, 2016
Copper homeostasis in bacteria is challenged by periodic elevation of copper levels in the environment, arising from both natural sources and human inputs. Several mechanisms have evolved to efflux copper from bacterial cells, including thecus(copper sensing copper efflux system), andpco(plasmid-borne copper resistance system) systems. The genes belonging to these two systems can be physically clustered in a Copper Homeostasis and Silver Resistance Island (CHASRI) on both plasmids and chromosomes in Enterobacteria. Increasing use of copper in agricultural and industrial applications raises questions about the role of human activity in the evolution of novel copper resistance mechanisms. Here we present evidence that CHASRI emerged and diversified in response to copper deposition across aerobic and anaerobic environments. An analysis of diversification rates and a molecular clock model suggest that CHASRI experienced repeated episodes of elevated diversification that could correspond to peaks in human copper production. Phylogenetic analyses suggest that CHASRI originated in a relative ofEnterobacter cloacaeas the ultimate product of sequential assembly of several pre-existing two-gene modules. Once assembled, CHASRI dispersed via horizontal gene transfer within Enterobacteriaceae and also to certain members of Shewanellaceae, where the originalpcomodule was replaced by a divergentpcohomolog. Analyses of copper stress mitigation suggest that CHASRI confers increased resistance aerobically, anaerobically, and during shifts between aerobic and anaerobic environments, which could explain its persistence in facultative anaerobes and emergent enteric pathogens.
© The Author 2016. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.
0 Communities
1 Members
0 Resources
10 MeSH Terms
Interstitial renal fibrosis due to multiple cisplatin treatments is ameliorated by semicarbazide-sensitive amine oxidase inhibition.
Katagiri D, Hamasaki Y, Doi K, Negishi K, Sugaya T, Nangaku M, Noiri E
(2016) Kidney Int 89: 374-85
MeSH Terms: Actins, Acute Kidney Injury, Allylamine, Amine Oxidase (Copper-Containing), Animals, Antineoplastic Agents, Benzamides, Chemokine CCL2, Cisplatin, Drug Evaluation, Preclinical, Fatty Acid-Binding Proteins, Fibrosis, Interleukin-6, Kidney, Male, Mice, Inbred C57BL, Mice, Transgenic, Transforming Growth Factor beta, Tumor Necrosis Factor-alpha, Vascular Endothelial Growth Factor A
Show Abstract · Added February 11, 2016
Elucidation of acute kidney diseases and disorders (AKD), including acute kidney injury (AKI), is important to prevent their progression to chronic kidney disease. Current animal AKI models are often too severe for use in evaluating human AKI. Therefore, new animal models of mild kidney injury are needed. Here a new clinically relevant animal model using multiple low doses of cisplatin (CP) was used to evaluate AKD. When 10 mg/kg CP was administered intraperitoneally once weekly for three times to L-type fatty acid-binding protein (L-FABP) transgenic mice, moderate renal interstitial fibrosis and tubule dilatation occurred, accompanied by brush-border loss. Urinary L-FABP, a promising biomarker of AKI, changed more drastically than blood urea nitrogen or creatinine. Preventing fibrosis in organs was also studied. Oral administration of a recently reported selective semicarbazide-sensitive amine oxidase inhibitor, PXS-4728A, for 1 week attenuated kidney injury and interstitial fibrosis compared with vehicle. Inhibition of renal lipid accumulation in semicarbazide-sensitive amine oxidase inhibitor-treated mice, together with reduced oxidative stress and L-FABP suppression in proximal tubules, suggested an antifibrotic effect of semicarbazide-sensitive amine oxidase inhibition in this CP-AKD model, a representative onco-nephrology. Thus, semicarbazide-sensitive amine oxidase inhibitors may be promising candidates for the prevention of chronic kidney disease in patients using CP to treat malignancy.
0 Communities
1 Members
0 Resources
20 MeSH Terms
The CsoR-like sulfurtransferase repressor (CstR) is a persulfide sensor in Staphylococcus aureus.
Luebke JL, Shen J, Bruce KE, Kehl-Fie TE, Peng H, Skaar EP, Giedroc DP
(2014) Mol Microbiol 94: 1343-60
MeSH Terms: Bacterial Proteins, Copper, Culture Media, Gene Expression Regulation, Bacterial, Hydrogen Sulfide, Operon, Repressor Proteins, Staphylococcus aureus, Sulfides, Tandem Mass Spectrometry
Show Abstract · Added January 24, 2015
How cells regulate the bioavailability of utilizable sulfur while mitigating the effects of hydrogen sulfide toxicity is poorly understood. CstR [Copper-sensing operon repressor (CsoR)-like sulfurtransferase repressor] represses the expression of the cst operon encoding a putative sulfide oxidation system in Staphylococcus aureus. Here, we show that the cst operon is strongly and transiently induced by cellular sulfide stress in an acute phase and specific response and that cst-encoded genes are necessary to mitigate the effects of sulfide toxicity. Growth defects are most pronounced when S. aureus is cultured in chemically defined media with thiosulfate (TS) as a sole sulfur source, but are also apparent when cystine is used or in rich media. Under TS growth conditions, cells fail to grow as a result of either unregulated expression of the cst operon in a ΔcstR strain or transformation with a non-inducible C31A/C60A CstR that blocks cst induction. This suggests that the cst operon contributes to cellular sulfide homeostasis. Tandem high-resolution mass spectrometry reveals derivatization of CstR by both inorganic tetrasulfide and an organic persulfide, glutathione persulfide, to yield a mixture of Cys31-Cys60' interprotomer cross-links, including di-, tri- and tetrasulfide bonds, which allosterically inhibit cst operator DNA binding by CstR.
© 2014 John Wiley & Sons Ltd.
0 Communities
1 Members
0 Resources
10 MeSH Terms
PARK2 patient neuroprogenitors show increased mitochondrial sensitivity to copper.
Aboud AA, Tidball AM, Kumar KK, Neely MD, Han B, Ess KC, Hong CC, Erikson KM, Hedera P, Bowman AB
(2015) Neurobiol Dis 73: 204-12
MeSH Terms: Adult, Cadmium, Cell Line, Copper, Genetic Predisposition to Disease, Humans, Induced Pluripotent Stem Cells, Male, Manganese, Membrane Potential, Mitochondrial, Methylmercury Compounds, Mitochondria, Mutation, Neural Stem Cells, Parkinson Disease, Risk Factors, Ubiquitin-Protein Ligases
Show Abstract · Added December 16, 2014
Poorly-defined interactions between environmental and genetic risk factors underlie Parkinson's disease (PD) etiology. Here we tested the hypothesis that human stem cell derived forebrain neuroprogenitors from patients with known familial risk for early onset PD will exhibit enhanced sensitivity to PD environmental risk factors compared to healthy control subjects without a family history of PD. Two male siblings (SM and PM) with biallelic loss-of-function mutations in PARK2 were identified. Human induced pluripotent stem cells (hiPSCs) from SM, PM, and four control subjects with no known family histories of PD or related neurodegenerative diseases were utilized. We tested the hypothesis that hiPSC-derived neuroprogenitors from patients with PARK2 mutations would show heightened cell death, mitochondrial dysfunction, and reactive oxygen species generation compared to control cells as a result of exposure to heavy metals (PD environmental risk factors). We report that PARK2 mutant neuroprogenitors showed increased cytotoxicity with copper (Cu) and cadmium (Cd) exposure but not manganese (Mn) or methyl mercury (MeHg) relative to control neuroprogenitors. PARK2 mutant neuroprogenitors also showed a substantial increase in mitochondrial fragmentation, initial ROS generation, and loss of mitochondrial membrane potential following Cu exposure. Our data substantiate Cu exposure as an environmental risk factor for PD. Furthermore, we report a shift in the lowest observable effect level (LOEL) for greater sensitivity to Cu-dependent mitochondrial dysfunction in patients SM and PM relative to controls, correlating with their increased genetic risk for PD.
Copyright © 2015 Elsevier Inc. All rights reserved.
2 Communities
4 Members
0 Resources
17 MeSH Terms
Small amounts of isotope-reinforced polyunsaturated fatty acids suppress lipid autoxidation.
Hill S, Lamberson CR, Xu L, To R, Tsui HS, Shmanai VV, Bekish AV, Awad AM, Marbois BN, Cantor CR, Porter NA, Clarke CF, Shchepinov MS
(2012) Free Radic Biol Med 53: 893-906
MeSH Terms: Antioxidants, Arachidonic Acid, Copper, Deuterium, Eicosapentaenoic Acid, Kinetics, Linoleic Acid, Lipid Peroxidation, Oxidants, Oxidation-Reduction, Oxidative Stress, Saccharomyces cerevisiae, Ubiquinone
Show Abstract · Added March 20, 2014
Polyunsaturated fatty acids (PUFAs) undergo autoxidation and generate reactive carbonyl compounds that are toxic to cells and associated with apoptotic cell death, age-related neurodegenerative diseases, and atherosclerosis. PUFA autoxidation is initiated by the abstraction of bis-allylic hydrogen atoms. Replacement of the bis-allylic hydrogen atoms with deuterium atoms (termed site-specific isotope-reinforcement) arrests PUFA autoxidation due to the isotope effect. Kinetic competition experiments show that the kinetic isotope effect for the propagation rate constant of Lin autoxidation compared to that of 11,11-D(2)-Lin is 12.8 ± 0.6. We investigate the effects of different isotope-reinforced PUFAs and natural PUFAs on the viability of coenzyme Q-deficient Saccharomyces cerevisiae coq mutants and wild-type yeast subjected to copper stress. Cells treated with a C11-BODIPY fluorescent probe to monitor lipid oxidation products show that lipid peroxidation precedes the loss of viability due to H-PUFA toxicity. We show that replacement of just one bis-allylic hydrogen atom with deuterium is sufficient to arrest lipid autoxidation. In contrast, PUFAs reinforced with two deuterium atoms at mono-allylic sites remain susceptible to autoxidation. Surprisingly, yeast treated with a mixture of approximately 20%:80% isotope-reinforced D-PUFA:natural H-PUFA are protected from lipid autoxidation-mediated cell killing. The findings reported here show that inclusion of only a small fraction of PUFAs deuterated at the bis-allylic sites is sufficient to profoundly inhibit the chain reaction of nondeuterated PUFAs in yeast.
Copyright © 2012 Elsevier Inc. All rights reserved.
0 Communities
1 Members
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13 MeSH Terms