Your search keyword '"Susan D. Wiedner"' showing total 7 results

1. Activity-based protein profiling reveals mitochondrial oxidative enzyme impairment and restoration in diet-induced obese mice.

Author

Natalie C Sadler, Thomas E Angel, Michael P Lewis, Leeanna M Pederson, Lacie M Chauvigné-Hines, Susan D Wiedner, Erika M Zink, Richard D Smith, and Aaron T Wright

Subjects

Medicine, Science

Abstract

High-fat diet (HFD) induced obesity and concomitant development of insulin resistance (IR) and type 2 diabetes mellitus have been linked to mitochondrial dysfunction. However, it is not clear whether mitochondrial dysfunction is a direct effect of a HFD, or if mitochondrial function is reduced with increased HFD duration. We hypothesized that the function of mitochondrial oxidative and lipid metabolism functions in skeletal muscle mitochondria for HFD mice are similar, or elevated, relative to standard diet (SD) mice; thereby, IR is neither cause nor consequence of mitochondrial dysfunction. We applied a chemical probe approach to identify functionally reactive ATPases and nucleotide-binding proteins in mitochondria isolated from skeletal muscle of C57Bl/6J mice fed HFD or SD chow for 2-, 8-, or 16-weeks; feeding time points known to induce IR. A total of 293 probe-labeled proteins were identified by mass spectrometry-based proteomics, of which 54 differed in abundance between HFD and SD mice. We found proteins associated with the TCA cycle, oxidative phosphorylation (OXPHOS), and lipid metabolism were altered in function when comparing SD to HFD fed mice at 2-weeks, however by 16-weeks HFD mice had TCA cycle, β-oxidation, and respiratory chain function at levels similar to or higher than SD mice.

Published

2012

2. Disparate Proteome Responses of Pathogenic and Nonpathogenic Aspergilli to Human Serum Measured by Activity-Based Protein Profiling (ABPP)

Author

Charles Ansong, Suereta Fortuin, Richard D. Smith, Anil K. Shukla, LeeAnna M. Pederson, Beth A. Hofstad, Susan D. Wiedner, Ellen A. Panisko, Aaron T. Wright, and Bobbie-Jo M. Webb-Robertson

Subjects

Serum, Fungal protein, Proteome, Virulence, biology, Aspergillus fumigatus, Research, Protein Array Analysis, Conidiation, Aspergillosis, medicine.disease, biology.organism_classification, Biochemistry, Analytical Chemistry, Microbiology, Fungal Proteins, medicine, Humans, skin and connective tissue diseases, Molecular Biology, Aspergillus clavatus, Pathogen

Abstract

Aspergillus fumigatus is the primary pathogen causing the devastating pulmonary disease Invasive Aspergillosis in immunocompromised individuals. There is high genomic synteny between A. fumigatus and closely related rarely pathogenic Neosartorya fischeri and Aspergillus clavatus genomes. We applied activity-based protein profiling to compare unique or overexpressed activity-based probe-reactive proteins of all three fungi over time in minimal media growth and in response to human serum. We found 360 probe-reactive proteins exclusive to A. fumigatus, including known virulence associated proteins, and 13 proteins associated with stress response exclusive to A. fumigatus culture in serum. Though the fungi are highly orthologous, A. fumigatus has a significantly greater number of ABP-reactive proteins across varied biological process. Only 50% of expected orthologs of measured A. fumigatus reactive proteins were observed in N. fischeri and A. clavatus. Activity-based protein profiling identified a number of processes that were induced by human serum in A. fumigatus relative to N. fischeri and A. clavatus. These included actin organization and assembly, transport, and fatty acid, cell membrane, and cell wall synthesis. Additionally, signaling proteins regulating vegetative growth, conidiation, and cell wall integrity, required for appropriate cellular response to external stimuli, had higher activity-based probe-protein reaction over time in A. fumigatus and N. fisheri, but not in A. clavatus. Together, we show that measured proteins and physiological processes identified solely or significantly over-represented in A. fumigatus reveal a unique adaptive response to human protein not found in closely related, but rarely pathogenic aspergilli. These unique activity-based probe-protein responses to culture condition may reveal how A. fumigatus initiates pulmonary invasion leading to Invasive Aspergillosis.

Published

2013

3. Reactivity of Aziridinomitosene Derivatives Related to FK317 in the Presence of Protic Nucleophiles

Author

Susan D. Wiedner and Edwin Vedejs

Subjects

chemistry.chemical_classification, Magnetic Resonance Spectroscopy, Molecular Structure, Chemistry, Aziridines, Organic Chemistry, Oxazines, Nuclear magnetic resonance spectroscopy, Article, Aziridinomitosene, Nucleophile, Organic chemistry, Molecule, Reactivity (chemistry)

Abstract

The syntheses and reactivity of N-TBDPS and N-trityl protected derivatives of an aziridinomitosene corresponding to FK317 are described. New reactivity patterns were observed for these highly sensitive and functionally dense heterocycles under mild nucleophilic conditions approaching the threshold for degradation. Thus, the silyl or trityl protected aziridinomitosene reacted with Cs(2)CO(3)/CD(3)OD to give isomeric products where substitution occurred at C(10) and C(9a) (mitomycin numbering) providing a CD(3) ether and a CD(3) hemiaminal, respectively. These findings show that heterolysis at C(10) is faster than at aziridine C(1), in contrast to the behavior of typical aziridinomitosenes in the mitomycin series. The labile N-TBDPS hemiaminal and the more stable N-trityl hemiaminal resemble the mitomycin K substitution pattern. A reagent consisting of CsF in CF(3)CH(2)OH/CH(3)CN desilylated a simple N-TBDPS aziridine but caused nucleophilic cleavage at C(1) as well as C(10) without cleavage of the N-TBPDS group in the fully functionalized penultimate aziridinomitosene. The high reactivity of the C(10) carbamate with nucleophiles precludes the use of deprotection methodology that requires N-protonation for fully functionalized aziridinomitosenes in the FK317 series.

Published

2011

4. Formation of dehydroalanine from mimosine and cysteine: artifacts in gas chromatography/mass spectrometry based metabolomics

Author

Qibin Zhang, Zeping Hu, Richard D. Smith, William F. Morgan, Thomas O. Metz, Susan D. Wiedner, Jong-Seo Kim, and Young-Mo Kim

Subjects

Chromatography, Metabolite, Organic Chemistry, Mass spectrometry, Analytical Chemistry, chemistry.chemical_compound, Metabolomics, chemistry, Dehydroalanine, Molecule, Kovats retention index, Gas chromatography–mass spectrometry, Derivatization, Spectroscopy

Abstract

Gas chromatography-mass spectrometry (GC-MS)-based global metabolomics requires complete chemical derivatization and matching of experimental spectra with those in various commercial or freely available databases in a high throughput manner.[1–6] Although several chemical methods have been developed for converting active functional groups in metabolites,[7, 8] the combination of methoxyamination and trimethylsilyation is one of the most widely used in global metabolomics studies.[6, 9] Recently, Agilent Technologies released the Fiehn GC-MS Metabolomics RTL (retention time locked) Library based on this derivatization approach. This library contains validated retention indices and spectra for 700 metabolites,[6] increasing the confidence of metabolite identifications in complex samples through the use of two independent parameters. However, multiple peaks could be formed from some specific molecules during the derivatization processes. Some of these peaks are partial TMS derivatives, while others are well-documented artifacts.[6, 10]

Published

2011

5. Multiplexed activity-based protein profiling of the human pathogen Aspergillus fumigatus reveals large functional changes upon exposure to human serum

Author

Anil K. Shukla, Susan D. Wiedner, Aaron T. Wright, Kristin E. Burnum, Ellen A. Panisko, Charles Ansong, Lacie M. Chauvigné-Hines, Richard D. Smith, Suereta Fortuin, Lindsey N. Anderson, and LeeAnna M. Pederson

Subjects

Lung Diseases, Proteomics, Serum, Time Factors, Genomics and Proteomics, Cellular respiration, Protein Array Analysis, Human pathogen, Biochemistry, Models, Biological, Culture Media, Serum-Free, Mass Spectrometry, Aspergillus fumigatus, Microbiology, Fungal Proteins, Gene Expression Regulation, Fungal, parasitic diseases, Aspergillosis, Humans, skin and connective tissue diseases, Molecular Biology, Pathogen, Lung, Fungal protein, Aspergillus, biology, Activity-based proteomics, Cell Biology, biology.organism_classification, bacterial infections and mycoses, Models, Chemical

Abstract

Environmental adaptability is critical for survival of the fungal human pathogen Aspergillus fumigatus in the immunocompromised host lung. We hypothesized that exposure of the fungal pathogen to human serum would lead to significant alterations to the organism's physiology, including metabolic activity and stress response. Shifts in functional pathway and corresponding enzyme reactivity of A. fumigatus upon exposure to the human host may represent much needed prognostic indicators of fungal infection. To address this, we employed a multiplexed activity-based protein profiling (ABPP) approach coupled to quantitative mass spectrometry-based proteomics to measure broad enzyme reactivity of the fungus cultured with and without human serum. ABPP showed a shift from aerobic respiration to ethanol fermentation and utilization over time in the presence of human serum, which was not observed in serum-free culture. Our approach provides direct insight into this pathogen's ability to survive, adapt, and proliferate. Additionally, our multiplexed ABPP approach captured a broad swath of enzyme reactivity and functional pathways and provides a method for rapid assessment of the A. fumigatus response to external stimuli.

Published

2012

6. Aziridinomitosanes via lactam cyclization

Author

Edwin Vedejs and Susan D. Wiedner

Subjects

Molecular Structure, Stereochemistry, Organic Chemistry, Aziridines, Stereoisomerism, Aziridine, Biochemistry, Radical cyclization, Catalysis, Article, Mitomycins, chemistry.chemical_compound, chemistry, Cyclization, Lactam, Physical and Theoretical Chemistry

Abstract

Aziridinomitosane ketones 4 and 24 are accessed by internal acyl anion equivalent-lactam cyclization of 29 in a convergent route. The key aziridinolactam 6 is prepared by tin−lithium exchange via the lithiated aziridine 11.

Published

2010

7. Activity-Based Protein Profiling Reveals Mitochondrial Oxidative Enzyme Impairment and Restoration in Diet-Induced Obese Mice

Author

Richard D. Smith, Thomas E. Angel, Michael P. Lewis, Natalie C. Sadler, Erika M. Zink, LeeAnna M. Pederson, Aaron T. Wright, Lacie M. Chauvigné-Hines, and Susan D. Wiedner

Subjects

Male, Proteomics, Time Factors, Proteome, Mouse, Respiratory chain, lcsh:Medicine, Mitochondrion, Biochemistry, Mass Spectrometry, Oxidative Phosphorylation, Mice, Adenosine Triphosphate, Endocrinology, 0302 clinical medicine, lcsh:Science, 2. Zero hunger, 0303 health sciences, Multidisciplinary, Molecular Structure, Enzyme Classes, Systems Biology, digestive, oral, and skin physiology, food and beverages, Animal Models, Enzymes, Chemistry, medicine.anatomical_structure, Medicine, Metabolic Pathways, Oxidation-Reduction, Research Article, medicine.medical_specialty, Citric Acid Cycle, 030209 endocrinology & metabolism, Citrate (si)-Synthase, Oxidative phosphorylation, Biology, Diet, High-Fat, Peptide Mapping, Electron Transport Complex IV, Mitochondrial Proteins, Enzyme Regulation, 03 medical and health sciences, Model Organisms, Insulin resistance, Internal medicine, Chemical Biology, medicine, Animals, Obesity, Muscle, Skeletal, 030304 developmental biology, Diabetic Endocrinology, Organic Chemistry, Organic Synthesis, lcsh:R, nutritional and metabolic diseases, Skeletal muscle, Lipid metabolism, Diabetes Mellitus Type 2, Lipid Metabolism, medicine.disease, Mitochondria, Muscle, Mice, Inbred C57BL, Citric acid cycle, Metabolism, lcsh:Q, Diet-induced obese, Protein Abundance, Chromatography, Liquid

Abstract

High-fat diet (HFD) induced obesity and concomitant development of insulin resistance (IR) and type 2 diabetes mellitus have been linked to mitochondrial dysfunction. However, it is not clear whether mitochondrial dysfunction is a direct effect of a HFD, or if mitochondrial function is reduced with increased HFD duration. We hypothesized that the function of mitochondrial oxidative and lipid metabolism functions in skeletal muscle mitochondria for HFD mice are similar, or elevated, relative to standard diet (SD) mice; thereby, IR is neither cause nor consequence of mitochondrial dysfunction. We applied a chemical probe approach to identify functionally reactive ATPases and nucleotide-binding proteins in mitochondria isolated from skeletal muscle of C57Bl/6J mice fed HFD or SD chow for 2-, 8-, or 16-weeks; feeding time points known to induce IR. A total of 293 probe-labeled proteins were identified by mass spectrometry-based proteomics, of which 54 differed in abundance between HFD and SD mice. We found proteins associated with the TCA cycle, oxidative phosphorylation (OXPHOS), and lipid metabolism were altered in function when comparing SD to HFD fed mice at 2-weeks, however by 16-weeks HFD mice had TCA cycle, β-oxidation, and respiratory chain function at levels similar to or higher than SD mice.

Published

2012