Your search keyword '"Tull, DL"' showing total 31 results

1. Metabolomics Provide Sensitive Insights into the Impacts of Low Level Environmental Contamination on Fish Health-A Pilot Study

Author

Long, SM, Tull, DL, De Souza, DP, Kouremenos, KA, Dayalan, S, McConville, MJ, Hassell, KL, Pettigrove, VJ, Gagnon, MM, Long, SM, Tull, DL, De Souza, DP, Kouremenos, KA, Dayalan, S, McConville, MJ, Hassell, KL, Pettigrove, VJ, and Gagnon, MM

Abstract

This exploratory study aims to investigate the health of sand flathead (Platycephalus bassensis) sampled from five sites in Port Phillip Bay, Australia using gas chromatography-mass spectrometry (GC-MS) metabolomics approaches. Three of the sites were the recipients of industrial, agricultural, and urban run-off and were considered urban sites, while the remaining two sites were remote from contaminant inputs, and hence classed as rural sites. Morphological parameters as well as polar and free fatty acid metabolites were used to investigate inter-site differences in fish health. Significant differences in liver somatic index (LSI) and metabolite abundance were observed between the urban and rural sites. Differences included higher LSI, an increased abundance of amino acids and energy metabolites, and reduced abundance of free fatty acids at the urban sites compared to the rural sites. These differences might be related to the additional energy requirements needed to cope with low-level contaminant exposure through energy demanding processes such as detoxification and antioxidant responses as well as differences in diet between the sites. In this study, we demonstrate that metabolomics approaches can offer a greater level of sensitivity compared to traditional parameters such as physiological parameters or biochemical markers of fish health, most of which showed no or little inter-site differences in the present study. Moreover, the metabolite responses are more informative than traditional biomarkers in terms of biological significance as disturbances in specific metabolic pathways can be identified.

Published

2020

2. Dengue virus dominates lipid metabolism modulations in Wolbachia-coinfected Aedes aegypti

Author

Koh, C, Islam, MN, Ye, YH, Chotiwan, N, Graham, B, Belisle, JT, Kouremenos, KA, Dayalan, S, Tull, DL, Klatt, S, Perera, R, McGraw, EA, Koh, C, Islam, MN, Ye, YH, Chotiwan, N, Graham, B, Belisle, JT, Kouremenos, KA, Dayalan, S, Tull, DL, Klatt, S, Perera, R, and McGraw, EA

Abstract

Competition between viruses and Wolbachia for host lipids is a proposed mechanism of Wolbachia-mediated virus blocking in insects. Yet, the metabolomic interaction between virus and symbiont within the mosquito has not been clearly defined. We compare the lipid profiles of Aedes aegypti mosquitoes bearing mono- or dual-infections of the Wolbachia wMel strain and dengue virus serotype 3 (DENV3). We found metabolic signatures of infection-induced intracellular events but little evidence to support direct competition between Wolbachia and virus for host lipids. Lipid profiles of dual-infected mosquitoes resemble those of DENV3 mono-infected mosquitoes, suggesting virus-driven modulation dominates over that of Wolbachia. Interestingly, knockdown of key metabolic enzymes suggests cardiolipins are host factors for DENV3 and Wolbachia replication. These findings define the Wolbachia-DENV3 metabolic interaction as indirectly antagonistic, rather than directly competitive, and reveal new research avenues with respect to mosquito × virus interactions at the molecular level.

Published

2020

3. Metabolite Changes in an Estuarine Annelid Following Sublethal Exposure to a Mixture of Zinc and Boscalid

Author

Sinclair, GM, O'Brien, AL, Keough, M, de Souza, DP, Dayalan, S, Kanojia, K, Kouremenos, K, Tull, DL, Coleman, RA, Jones, OAH, Long, SM, Sinclair, GM, O'Brien, AL, Keough, M, de Souza, DP, Dayalan, S, Kanojia, K, Kouremenos, K, Tull, DL, Coleman, RA, Jones, OAH, and Long, SM

Abstract

Environmental pollutants such as heavy metals and fungicides pose a serious threat to waterways worldwide. Toxicological assessment of such contaminants is usually conducted using single compound exposures, as it is challenging to understand the effect of mixtures on biota using standard ecotoxicological methods; whereas complex chemical mixtures are more probable in ecosystems. This study exposed Simplisetia aequisetis (an estuarine annelid) to sublethal concentrations of a metal (zinc) and a fungicide (boscalid), both singly and as a mixture, for two weeks. Metabolomic analysis via gas and liquid chromatography-mass spectrometry was used to measure the stress response(s) of the organism following exposure. A total of 75 metabolites, including compounds contributing to the tricarboxylic acid cycle, the urea cycle, and a number of other pathways, were identified and quantified. The multiplatform approach identified distinct metabolomic responses to each compound that differed depending on whether the substance was presented singly or as a mixture, indicating a possible antagonistic effect. The study demonstrates that metabolomics is able to elucidate the effects and mode of action of contaminants and can identify possible outcomes faster than standard ecotoxicological endpoints, such as growth and reproduction. Metabolomics therefore has a possible future role in biomonitoring and ecosystem health assessments.

Published

2019

4. Metabolomic Profiles of a Midge (Procladius villosimanus, Kieffer) Are Associated with Sediment Contamination in Urban Wetlands

Author

Jeppe, KJ, Kouremenos, KA, Townsend, KR, MacMahon, DF, Sharley, D, Tull, DL, Hoffmann, AA, Pettigrove, V, Long, SM, Jeppe, KJ, Kouremenos, KA, Townsend, KR, MacMahon, DF, Sharley, D, Tull, DL, Hoffmann, AA, Pettigrove, V, and Long, SM

Abstract

Metabolomic techniques are powerful tools for investigating organism-environment interactions. Metabolite profiles have the potential to identify exposure or toxicity before populations are disrupted and can provide useful information for environmental assessment. However, under complex environmental scenarios, metabolomic responses to exposure can be distorted by background and/or organismal variation. In the current study, we use LC-MS (liquid chromatography-mass spectrometry) and GC-MS (gas chromatography-mass spectrometry) to measure metabolites of the midge Procladius villosimanus inhabiting 21 urban wetlands. These metabolites were tested against common sediment contaminants using random forest models and metabolite enrichment analysis. Sediment contaminant concentrations in the field correlated with several P. villosimanus metabolites despite natural environmental and organismal variation. Furthermore, enrichment analysis indicated that metabolite sets implicated in stress responses were enriched, pointing to specific cellular functions affected by exposure. Methionine metabolism, sugar metabolism and glycerolipid metabolism associated with total petroleum hydrocarbon and metal concentrations, while mitochondrial electron transport and urea cycle sets associated only with bifenthrin. These results demonstrate the potential for metabolomics approaches to provide useful information in field-based environmental assessments.

Published

2017

5. Lipidomic Profiling of Adipose Tissue Reveals an Inflammatory Signature in Cancer-Related and Primary Lymphedema

Author

Maya-Monteiro, CM, Sedger, LM, Tull, DL, McConville, MJ, De Souza, DP, Rupasinghe, TWT, Williams, SJ, Dayalan, S, Lanzer, D, Mackie, H, Lam, TC, Boyages, J, Maya-Monteiro, CM, Sedger, LM, Tull, DL, McConville, MJ, De Souza, DP, Rupasinghe, TWT, Williams, SJ, Dayalan, S, Lanzer, D, Mackie, H, Lam, TC, and Boyages, J

Abstract

Cancer-related and primary lymphedema (LE) are associated with the production of adipose tissue (AT). Nothing is known, however, about the lipid-based molecules that comprise LE AT. We therefore analyzed lipid molecules in lipoaspirates and serum obtained from LE patients, and compared them to lipoaspirates from cosmetic surgery patients and healthy control cohort serum. LE patient serum analysis demonstrated that triglycerides, HDL- and LDL-cholesterol and lipid transport molecules remained within the normal range, with no alterations in individual fatty acids. The lipidomic analysis also identified 275 lipid-based molecules, including triacylglycerides, diacylglycerides, fatty acids and phospholipids in AT oil and fat. Although the majority of lipid molecules were present in a similar abundance in LE and non-LE samples, there were several small changes: increased C20:5-containing triacylglycerides, reduced C10:0 caprinic and C24:1 nervonic acids. LE AT oil also contained a signature of increased cyclopropane-type fatty acids and inflammatory mediators arachidonic acid and ceramides. Interestingly C20:5 and C22:6 omega-3-type lipids are increased in LE AT, correlating with LE years. Hence, LE AT has a normal lipid profile containing a signature of inflammation and omega-3-lipids. It remains unclear, however, whether these differences reflect a small-scale global metabolic disturbance or effects within localised inflammatory foci.

Published

2016

6. Reversing diet-induced metabolic dysregulation by diet switching leads to altered hepatic de novo lipogenesis and glycerolipid synthesis

Author

Kowalski, GM, Hamley, S, Selathurai, A, Kloehn, J, De Souza, DP, O'Callaghan, S, Nijagal, B, Tull, DL, McConville, MJ, Bruce, CR, Kowalski, GM, Hamley, S, Selathurai, A, Kloehn, J, De Souza, DP, O'Callaghan, S, Nijagal, B, Tull, DL, McConville, MJ, and Bruce, CR

Abstract

In humans, low-energy diets rapidly reduce hepatic fat and improve/normalise glycemic control. Due to difficulties in obtaining human liver, little is known about changes to the lipid species and pathway fluxes that occur under these conditions. Using a combination of stable isotope, and targeted metabolomic approaches we investigated the acute (7-9 days) hepatic effects of switching high-fat high-sucrose diet (HFD) fed obese mice back to a chow diet. Upon the switch, energy intake was reduced, resulting in reductions of fat mass and hepatic triacyl- and diacylglycerol. However, these parameters were still elevated compared to chow fed mice, thus representing an intermediate phenotype. Nonetheless, glucose intolerance and hyperinsulinemia were completely normalized. The diet reversal resulted in marked reductions in hepatic de novo lipogenesis when compared to the chow and HFD groups. Compared with HFD, glycerolipid synthesis was reduced in the reversal animals, however it remained elevated above that of chow controls, indicating that despite experiencing a net loss in lipid stores, the liver was still actively esterifying available fatty acids at rates higher than that in chow control mice. This effect likely promotes the re-esterification of excess free fatty acids released from the breakdown of adipose depots during the weight loss period.

Published

2016

7. Lipidomic profiling of adipose tissue reveals an inflammatory signature in cancer-related and primary Lymphedema

Author

Sedger, LM, Tull, DL, McConville, MJ, De Souza, DP, Rupasinghe, TWT, Williams, SJ, Dayalan, S, Lanzer, D, Mackie, H, Lam, TC, Boyages, J, Sedger, LM, Tull, DL, McConville, MJ, De Souza, DP, Rupasinghe, TWT, Williams, SJ, Dayalan, S, Lanzer, D, Mackie, H, Lam, TC, and Boyages, J

Abstract

© 2016 Sedger et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Cancer-related and primary lymphedema (LE) are associated with the production of adipose tissue (AT). Nothing is known, however, about the lipid-based molecules that comprise LE AT. We therefore analyzed lipid molecules in lipoaspirates and serum obtained from LE patients, and compared them to lipoaspirates from cosmetic surgery patients and healthy control cohort serum. LE patient serum analysis demonstrated that triglycerides, HDL- and LDL-cholesterol and lipid transport molecules remained within the normal range, with no alterations in individual fatty acids. The lipidomic analysis also identified 275 lipid-based molecules, including triacylglycerides, diacylglycerides, fatty acids and phospholipids in AT oil and fat. Although the majority of lipid molecules were present in a similar abundance in LE and non-LE samples, there were several small changes: increased C20:5-containing triacylglycerides, reduced C10:0 caprinic and C24:1 nervonic acids. LE AT oil also contained a signature of increased cyclopropane-type fatty acids and inflammatory mediators arachidonic acid and ceramides. Interestingly C20:5 and C22:6 omega-3-type lipids are increased in LE AT, correlating with LE years. Hence, LE AT has a normal lipid profile containing a signature of inflammation and omega-3-lipids. It remains unclear, however, whether these differences reflect a small-scale global metabolic disturbance or effects within localised inflammatory foci.

Published

2016

8. PyMS: a Python toolkit for processing of gas chromatography-mass spectrometry (GC-MS) data. Application and comparative study of selected tools

Author

O'Callaghan, S, De Souza, DP, Isaac, A, Wang, Q, Hodkinson, L, Olshansky, M, Erwin, T, Appelbe, B, Tull, DL, Roessner, U, Bacic, A, McConville, MJ, Likic, VA, O'Callaghan, S, De Souza, DP, Isaac, A, Wang, Q, Hodkinson, L, Olshansky, M, Erwin, T, Appelbe, B, Tull, DL, Roessner, U, Bacic, A, McConville, MJ, and Likic, VA

Abstract

BACKGROUND: Gas chromatography-mass spectrometry (GC-MS) is a technique frequently used in targeted and non-targeted measurements of metabolites. Most existing software tools for processing of raw instrument GC-MS data tightly integrate data processing methods with graphical user interface facilitating interactive data processing. While interactive processing remains critically important in GC-MS applications, high-throughput studies increasingly dictate the need for command line tools, suitable for scripting of high-throughput, customized processing pipelines. RESULTS: PyMS comprises a library of functions for processing of instrument GC-MS data developed in Python. PyMS currently provides a complete set of GC-MS processing functions, including reading of standard data formats (ANDI- MS/NetCDF and JCAMP-DX), noise smoothing, baseline correction, peak detection, peak deconvolution, peak integration, and peak alignment by dynamic programming. A novel common ion single quantitation algorithm allows automated, accurate quantitation of GC-MS electron impact (EI) fragmentation spectra when a large number of experiments are being analyzed. PyMS implements parallel processing for by-row and by-column data processing tasks based on Message Passing Interface (MPI), allowing processing to scale on multiple CPUs in distributed computing environments. A set of specifically designed experiments was performed in-house and used to comparatively evaluate the performance of PyMS and three widely used software packages for GC-MS data processing (AMDIS, AnalyzerPro, and XCMS). CONCLUSIONS: PyMS is a novel software package for the processing of raw GC-MS data, particularly suitable for scripting of customized processing pipelines and for data processing in batch mode. PyMS provides limited graphical capabilities and can be used both for routine data processing and interactive/exploratory data analysis. In real-life GC-MS data processing scenarios PyMS performs as well or better than le

Published

2012

9. Class IIa HDACs inhibit cell death pathways and protect muscle integrity in response to lipotoxicity.

Author

Martin SD, Connor T, Sanigorski A, McEwen KA, Henstridge DC, Nijagal B, De Souza D, Tull DL, Meikle PJ, Kowalski GM, Bruce CR, Gregorevic P, Febbraio MA, Collier FM, Walder KR, and McGee SL

Subjects

Mice, Animals, Muscle, Skeletal metabolism, Protein Processing, Post-Translational, Cell Death, Histone Deacetylases genetics, Histone Deacetylases metabolism, Muscle Cells metabolism

Abstract

Lipotoxicity, the accumulation of lipids in non-adipose tissues, alters the metabolic transcriptome and mitochondrial metabolism in skeletal muscle. The mechanisms involved remain poorly understood. Here we show that lipotoxicity increased histone deacetylase 4 (HDAC4) and histone deacetylase 5 (HDAC5), which reduced the expression of metabolic genes and oxidative metabolism in skeletal muscle, resulting in increased non-oxidative glucose metabolism. This metabolic reprogramming was also associated with impaired apoptosis and ferroptosis responses, and preserved muscle cell viability in response to lipotoxicity. Mechanistically, increased HDAC4 and 5 decreased acetylation of p53 at K120, a modification required for transcriptional activation of apoptosis. Redox drivers of ferroptosis derived from oxidative metabolism were also reduced. The relevance of this pathway was demonstrated by overexpression of loss-of-function HDAC4 and HDAC5 mutants in skeletal muscle of obese db/db mice, which enhanced oxidative metabolic capacity, increased apoptosis and ferroptosis and reduced muscle mass. This study identifies HDAC4 and HDAC5 as repressors of skeletal muscle oxidative metabolism, which is linked to inhibition of cell death pathways and preservation of muscle integrity in response to lipotoxicity., (© 2023. The Author(s).)

Published

2023

10. Dengue virus dominates lipid metabolism modulations in Wolbachia-coinfected Aedes aegypti.

Author

Koh C, Islam MN, Ye YH, Chotiwan N, Graham B, Belisle JT, Kouremenos KA, Dayalan S, Tull DL, Klatt S, Perera R, and McGraw EA

Subjects

Aedes microbiology, Aedes pathogenicity, Aedes virology, Animals, Dengue genetics, Dengue metabolism, Dengue microbiology, Dengue virology, Dengue Virus metabolism, Dengue Virus pathogenicity, Humans, Insect Vectors genetics, Insect Vectors microbiology, Insect Vectors virology, Pest Control, Biological, Virus Replication genetics, Wolbachia metabolism, Wolbachia pathogenicity, Aedes metabolism, Dengue Virus genetics, Lipid Metabolism genetics, Wolbachia genetics

Abstract

Competition between viruses and Wolbachia for host lipids is a proposed mechanism of Wolbachia-mediated virus blocking in insects. Yet, the metabolomic interaction between virus and symbiont within the mosquito has not been clearly defined. We compare the lipid profiles of Aedes aegypti mosquitoes bearing mono- or dual-infections of the Wolbachia wMel strain and dengue virus serotype 3 (DENV3). We found metabolic signatures of infection-induced intracellular events but little evidence to support direct competition between Wolbachia and virus for host lipids. Lipid profiles of dual-infected mosquitoes resemble those of DENV3 mono-infected mosquitoes, suggesting virus-driven modulation dominates over that of Wolbachia. Interestingly, knockdown of key metabolic enzymes suggests cardiolipins are host factors for DENV3 and Wolbachia replication. These findings define the Wolbachia-DENV3 metabolic interaction as indirectly antagonistic, rather than directly competitive, and reveal new research avenues with respect to mosquito × virus interactions at the molecular level.

Published

2020

11. Metabolomics Provide Sensitive Insights into the Impacts of Low Level Environmental Contamination on Fish Health-A Pilot Study.

Author

Long SM, Tull DL, De Souza DP, Kouremenos KA, Dayalan S, McConville MJ, Hassell KL, Pettigrove VJ, and Gagnon MM

Abstract

This exploratory study aims to investigate the health of sand flathead ( Platycephalus bassensis ) sampled from five sites in Port Phillip Bay, Australia using gas chromatography-mass spectrometry (GC-MS) metabolomics approaches. Three of the sites were the recipients of industrial, agricultural, and urban run-off and were considered urban sites, while the remaining two sites were remote from contaminant inputs, and hence classed as rural sites. Morphological parameters as well as polar and free fatty acid metabolites were used to investigate inter-site differences in fish health. Significant differences in liver somatic index (LSI) and metabolite abundance were observed between the urban and rural sites. Differences included higher LSI, an increased abundance of amino acids and energy metabolites, and reduced abundance of free fatty acids at the urban sites compared to the rural sites. These differences might be related to the additional energy requirements needed to cope with low-level contaminant exposure through energy demanding processes such as detoxification and antioxidant responses as well as differences in diet between the sites. In this study, we demonstrate that metabolomics approaches can offer a greater level of sensitivity compared to traditional parameters such as physiological parameters or biochemical markers of fish health, most of which showed no or little inter-site differences in the present study. Moreover, the metabolite responses are more informative than traditional biomarkers in terms of biological significance as disturbances in specific metabolic pathways can be identified.

Published

2020

12. Metabolite Changes in an Estuarine Annelid Following Sublethal Exposure to a Mixture of Zinc and Boscalid.

Author

Sinclair GM, O'Brien AL, Keough M, de Souza DP, Dayalan S, Kanojia K, Kouremenos K, Tull DL, Coleman RA, Jones OAH, and Long SM

Abstract

Environmental pollutants such as heavy metals and fungicides pose a serious threat to waterways worldwide. Toxicological assessment of such contaminants is usually conducted using single compound exposures, as it is challenging to understand the effect of mixtures on biota using standard ecotoxicological methods; whereas complex chemical mixtures are more probable in ecosystems. This study exposed Simplisetia aequisetis (an estuarine annelid) to sublethal concentrations of a metal (zinc) and a fungicide (boscalid), both singly and as a mixture, for two weeks. Metabolomic analysis via gas and liquid chromatography-mass spectrometry was used to measure the stress response(s) of the organism following exposure. A total of 75 metabolites, including compounds contributing to the tricarboxylic acid cycle, the urea cycle, and a number of other pathways, were identified and quantified. The multiplatform approach identified distinct metabolomic responses to each compound that differed depending on whether the substance was presented singly or as a mixture, indicating a possible antagonistic effect. The study demonstrates that metabolomics is able to elucidate the effects and mode of action of contaminants and can identify possible outcomes faster than standard ecotoxicological endpoints, such as growth and reproduction. Metabolomics therefore has a possible future role in biomonitoring and ecosystem health assessments., Competing Interests: The authors declare no conflicts of interest.

Published

2019

13. Autocrine IFN-I inhibits isocitrate dehydrogenase in the TCA cycle of LPS-stimulated macrophages.

Author

De Souza DP, Achuthan A, Lee MK, Binger KJ, Lee MC, Davidson S, Tull DL, McConville MJ, Cook AD, Murphy AJ, Hamilton JA, and Fleetwood AJ

Subjects

Animals, Autocrine Communication, Citric Acid Cycle, Humans, Interleukin-10 metabolism, Isocitrate Dehydrogenase genetics, Isocitrate Dehydrogenase metabolism, Lipopolysaccharides pharmacology, Macrophage Activation, Macrophages drug effects, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Receptor, Interferon alpha-beta deficiency, Receptor, Interferon alpha-beta genetics, Receptor, Interferon alpha-beta metabolism, Succinates metabolism, Interferon Type I metabolism, Isocitrate Dehydrogenase antagonists & inhibitors, Macrophages immunology, Macrophages metabolism

Abstract

Macrophage activation in response to LPS is coupled to profound metabolic changes, typified by accumulation of the TCA cycle intermediates citrate, itaconate, and succinate. We have identified that endogenous type I IFN controls the cellular citrate/α-ketoglutarate ratio and inhibits expression and activity of isocitrate dehydrogenase (IDH); and, via 13C-labeling studies, demonstrated that autocrine type I IFN controls carbon flow through IDH in LPS-activated macrophages. We also found that type I IFN-driven IL-10 contributes to inhibition of IDH activity and itaconate synthesis in LPS-stimulated macrophages. Our findings have identified the autocrine type I IFN pathway as being responsible for the inhibition of IDH in LPS-stimulated macrophages.

Published

2019

14. Using metabolomics to assess the sub-lethal effects of zinc and boscalid on an estuarine polychaete worm over time.

Author

Sinclair GM, O'Brien AL, Keough M, De Souza DP, Dayalan S, Kanojia K, Kouremenos K, Tull DL, Coleman RA, Jones OAH, and Long SM

Subjects

Animals, Biphenyl Compounds administration & dosage, Chlorides administration & dosage, Niacinamide administration & dosage, Niacinamide pharmacology, Time Factors, Zinc Compounds administration & dosage, Biphenyl Compounds pharmacology, Chlorides pharmacology, Metabolomics, Niacinamide analogs & derivatives, Polychaeta drug effects, Polychaeta metabolism, Zinc Compounds pharmacology

Abstract

Introduction: Zinc is a heavy metal commonly detected in urban estuaries around Australia. Boscalid is a fungicide found in estuaries, both in water and sediment, it enters the system predominantly through agricultural run-off. Zinc is persistent while boscalid breaks down, with a half-life of 108 days. Both contaminants are widely distributed and their effects on ecosystems are not well understood., Objectives: The aim of this study was to determine the metabolite changes in Simplisetia aequisetis (an estuarine polychaete) following laboratory exposure to a sub-lethal concentration of zinc or boscalid over a 2-week period., Methods: Individuals were collected at six time points over a 2-week period. Whole polychaete metabolites were extracted and quantified using a multi-platform approach. Polar metabolites were detected using a semi-targeted GC-MS analysis and amine containing compounds were analysed using a targeted LC-MS analysis. Total lipid energy content was also analysed for Simplisetia aequisetis., Results: The pathways that responded to zinc and boscalid exposure were alanine, aspartate and glutamate metabolism (AAG); glycine, serine and threonine metabolism (GST) and metabolites associated with the tricarboxylic acid cycle (TCA). Results showed that changes in total abundance of some metabolites could be detected as early as 24-h exposure. Changes were detected in the metabolites before commonly used total lipid energy assays identified effects., Conclusion: A multi-platform approach provided a holistic overview of the metabolomic response to contaminants in polychaetes. This approach shows promise to be used in biomonitoring programs to provide early diagnostic indicators of contamination and exposure.

Published

2019

15. Mus musculus deficient for secretory antibodies show delayed growth with an altered urinary metabolome.

Author

Simpfendorfer KR, Wang N, Tull DL, De Souza DP, Nahid A, Mu A, Hocking DM, Pedersen JS, Wijburg OLC, McConville MJ, and Strugnell RA

Subjects

Animals, Antibodies genetics, Cytokines blood, Female, Gastrointestinal Tract metabolism, Male, Mice, Inbred C57BL, Mice, Knockout, Gastrointestinal Tract immunology, Intraepithelial Lymphocytes immunology, Metabolome, Receptors, Polymeric Immunoglobulin genetics, Urine chemistry

Abstract

Background: The polymeric immunoglobulin receptor (pIgR) maintains the integrity of epithelial barriers by transporting polymeric antibodies and antigens through the epithelial mucosa into the lumen. In this study, we examined the role of pIgR in maintaining gut barrier integrity, which is important for the normal development in mice., Methods: Cohorts of pIgR -/- mice and their wildtype controls were housed under Specific Pathogen Free (SPF) conditions and monitored for weight gain as an indicator of development over time. The general physiology of the gastrointestinal tract was analysed using immunohistochemistry in young (8-12 weeks of age) and aged mice (up to 18 months of age), and the observed immunopathology in pIgR -/- mice was further characterised using flow cytometry. Urinary metabolites were analysed using gas chromatography-mass spectrometry (GC-MS), which revealed changes in metabolites that correlated with age-related increase in gut permeability in pIgR -/- mice., Results: We observed that pIgR -/- mice exhibited delayed growth, and this phenomenon is associated with low-grade gut inflammation that increased with ageing. The gross intraepithelial lymphocytic (IEL) infiltration characteristic of pIgR -/- mice was redefined as CD8α + αβ + T cells, the majority of which expressed high levels of CD103 and CD69 consistent with tissue resident memory T cells (T RM ). Comparison of the urinary metabolome between pIgR -/- and wild-type mice revealed key changes in urinary biomarkers fucose, glycine and Vitamin B5, suggestive of altered mucosal permeability. A significant increase in gut permeability was confirmed by analysing the site-specific uptake of sugar probes in different parts of the intestine., Conclusion: Our data show that loss of the secretory antibody system in mice results in enhanced accumulation of inflammatory IELs in the gut, which likely reflects ongoing inflammation in reaction to gut microbiota or food antigens, leading to delayed growth in pIgR -/- mice. We demonstrate that this leads to the presence of a unique urinary metabolome profile, which may provide a biomarker for altered gut permeability.

Published

2019

16. Metabolomic Profiles of a Midge (Procladius villosimanus, Kieffer) Are Associated with Sediment Contamination in Urban Wetlands.

Author

Jeppe KJ, Kouremenos KA, Townsend KR, MacMahon DF, Sharley D, Tull DL, Hoffmann AA, Pettigrove V, and Long SM

Abstract

Metabolomic techniques are powerful tools for investigating organism-environment interactions. Metabolite profiles have the potential to identify exposure or toxicity before populations are disrupted and can provide useful information for environmental assessment. However, under complex environmental scenarios, metabolomic responses to exposure can be distorted by background and/or organismal variation. In the current study, we use LC-MS (liquid chromatography-mass spectrometry) and GC-MS (gas chromatography-mass spectrometry) to measure metabolites of the midge Procladius villosimanus inhabiting 21 urban wetlands. These metabolites were tested against common sediment contaminants using random forest models and metabolite enrichment analysis. Sediment contaminant concentrations in the field correlated with several P. villosimanus metabolites despite natural environmental and organismal variation. Furthermore, enrichment analysis indicated that metabolite sets implicated in stress responses were enriched, pointing to specific cellular functions affected by exposure. Methionine metabolism, sugar metabolism and glycerolipid metabolism associated with total petroleum hydrocarbon and metal concentrations, while mitochondrial electron transport and urea cycle sets associated only with bifenthrin. These results demonstrate the potential for metabolomics approaches to provide useful information in field-based environmental assessments., Competing Interests: The authors declare no conflict of interest.

Published

2017

17. Reversing diet-induced metabolic dysregulation by diet switching leads to altered hepatic de novo lipogenesis and glycerolipid synthesis.

Author

Kowalski GM, Hamley S, Selathurai A, Kloehn J, De Souza DP, O'Callaghan S, Nijagal B, Tull DL, McConville MJ, and Bruce CR

Subjects

Animals, Blood Glucose metabolism, Diglycerides metabolism, Energy Intake, Fatty Acids metabolism, Glucose Intolerance, Liver drug effects, Liver metabolism, Male, Mice, Mice, Inbred C57BL, Obesity etiology, Obesity pathology, Triglycerides metabolism, Weight Gain, Diet, High-Fat, Dietary Fats administration & dosage, Glycolipids biosynthesis, Lipogenesis drug effects, Obesity metabolism

Abstract

In humans, low-energy diets rapidly reduce hepatic fat and improve/normalise glycemic control. Due to difficulties in obtaining human liver, little is known about changes to the lipid species and pathway fluxes that occur under these conditions. Using a combination of stable isotope, and targeted metabolomic approaches we investigated the acute (7-9 days) hepatic effects of switching high-fat high-sucrose diet (HFD) fed obese mice back to a chow diet. Upon the switch, energy intake was reduced, resulting in reductions of fat mass and hepatic triacyl- and diacylglycerol. However, these parameters were still elevated compared to chow fed mice, thus representing an intermediate phenotype. Nonetheless, glucose intolerance and hyperinsulinemia were completely normalized. The diet reversal resulted in marked reductions in hepatic de novo lipogenesis when compared to the chow and HFD groups. Compared with HFD, glycerolipid synthesis was reduced in the reversal animals, however it remained elevated above that of chow controls, indicating that despite experiencing a net loss in lipid stores, the liver was still actively esterifying available fatty acids at rates higher than that in chow control mice. This effect likely promotes the re-esterification of excess free fatty acids released from the breakdown of adipose depots during the weight loss period.

Published

2016

18. Lipidomic Profiling of Adipose Tissue Reveals an Inflammatory Signature in Cancer-Related and Primary Lymphedema.

Author

Sedger LM, Tull DL, McConville MJ, De Souza DP, Rupasinghe TW, Williams SJ, Dayalan S, Lanzer D, Mackie H, Lam TC, and Boyages J

Subjects

Adolescent, Adult, Aged, Biological Transport, Fatty Acids metabolism, Female, Humans, Lymphedema diagnosis, Male, Metabolomics methods, Middle Aged, Phospholipids metabolism, Severity of Illness Index, Young Adult, Adipose Tissue metabolism, Inflammation Mediators metabolism, Lipid Metabolism, Lipids blood, Lymphedema etiology, Lymphedema metabolism, Neoplasms complications

Abstract

Cancer-related and primary lymphedema (LE) are associated with the production of adipose tissue (AT). Nothing is known, however, about the lipid-based molecules that comprise LE AT. We therefore analyzed lipid molecules in lipoaspirates and serum obtained from LE patients, and compared them to lipoaspirates from cosmetic surgery patients and healthy control cohort serum. LE patient serum analysis demonstrated that triglycerides, HDL- and LDL-cholesterol and lipid transport molecules remained within the normal range, with no alterations in individual fatty acids. The lipidomic analysis also identified 275 lipid-based molecules, including triacylglycerides, diacylglycerides, fatty acids and phospholipids in AT oil and fat. Although the majority of lipid molecules were present in a similar abundance in LE and non-LE samples, there were several small changes: increased C20:5-containing triacylglycerides, reduced C10:0 caprinic and C24:1 nervonic acids. LE AT oil also contained a signature of increased cyclopropane-type fatty acids and inflammatory mediators arachidonic acid and ceramides. Interestingly C20:5 and C22:6 omega-3-type lipids are increased in LE AT, correlating with LE years. Hence, LE AT has a normal lipid profile containing a signature of inflammation and omega-3-lipids. It remains unclear, however, whether these differences reflect a small-scale global metabolic disturbance or effects within localised inflammatory foci.

Published

2016

19. Evidence that asthma is a developmental origin disease influenced by maternal diet and bacterial metabolites.

Author

Thorburn AN, McKenzie CI, Shen S, Stanley D, Macia L, Mason LJ, Roberts LK, Wong CH, Shim R, Robert R, Chevalier N, Tan JK, Mariño E, Moore RJ, Wong L, McConville MJ, Tull DL, Wood LG, Murphy VE, Mattes J, Gibson PG, and Mackay CR

Subjects

Acetates pharmacology, Acetylation drug effects, Animals, Asthma immunology, Disease Models, Animal, Epigenesis, Genetic drug effects, Fatty Acids, Volatile metabolism, Fatty Acids, Volatile pharmacology, Female, Forkhead Transcription Factors drug effects, Forkhead Transcription Factors genetics, Histone Deacetylases drug effects, Histone Deacetylases metabolism, Mice, Pregnancy, Prenatal Exposure Delayed Effects immunology, Promoter Regions, Genetic, Repressor Proteins drug effects, Repressor Proteins metabolism, T-Lymphocytes, Regulatory cytology, T-Lymphocytes, Regulatory drug effects, Acetates metabolism, Asthma metabolism, Diet, Dietary Fiber metabolism, Gastrointestinal Microbiome, Prenatal Exposure Delayed Effects metabolism, T-Lymphocytes, Regulatory immunology

Abstract

Asthma is prevalent in Western countries, and recent explanations have evoked the actions of the gut microbiota. Here we show that feeding mice a high-fibre diet yields a distinctive gut microbiota, which increases the levels of the short-chain fatty acid, acetate. High-fibre or acetate-feeding led to marked suppression of allergic airways disease (AAD, a model for human asthma), by enhancing T-regulatory cell numbers and function. Acetate increases acetylation at the Foxp3 promoter, likely through HDAC9 inhibition. Epigenetic effects of fibre/acetate in adult mice led us to examine the influence of maternal intake of fibre/acetate. High-fibre/acetate feeding of pregnant mice imparts on their adult offspring an inability to develop robust AAD. High fibre/acetate suppresses expression of certain genes in the mouse fetal lung linked to both human asthma and mouse AAD. Thus, diet acting on the gut microbiota profoundly influences airway responses, and may represent an approach to prevent asthma, including during pregnancy.

Published

2015

20. A multi-platform metabolomics approach demonstrates changes in energy metabolism and the transsulfuration pathway in Chironomus tepperi following exposure to zinc.

Author

Long SM, Tull DL, Jeppe KJ, De Souza DP, Dayalan S, Pettigrove VJ, McConville MJ, and Hoffmann AA

Subjects

Animals, Biomarkers metabolism, Chironomidae metabolism, Chromatography, Liquid, Environmental Monitoring, Gas Chromatography-Mass Spectrometry, Random Allocation, Signal Transduction drug effects, Chironomidae drug effects, Chlorides toxicity, Energy Metabolism drug effects, Gene Expression drug effects, Metabolomics, Water Pollutants, Chemical toxicity, Zinc Compounds toxicity

Abstract

Measuring biological responses in resident biota is a commonly used approach to monitoring polluted habitats. The challenge is to choose sensitive and, ideally, stressor-specific endpoints that reflect the responses of the ecosystem. Metabolomics is a potentially useful approach for identifying sensitive and consistent responses since it provides a holistic view to understanding the effects of exposure to chemicals upon the physiological functioning of organisms. In this study, we exposed the aquatic non-biting midge, Chironomus tepperi, to two concentrations of zinc chloride and measured global changes in polar metabolite levels using an untargeted gas chromatography-mass spectrometry (GC-MS) analysis and a targeted liquid chromatography-mass spectrometry (LC-MS) analysis of amine-containing metabolites. These data were correlated with changes in the expression of a number of target genes. Zinc exposure resulted in a reduction in levels of intermediates in carbohydrate metabolism (i.e., glucose 6-phosphate, fructose 6-phosphate and disaccharides) and an increase in a number of TCA cycle intermediates. Zinc exposure also resulted in decreases in concentrations of the amine containing metabolites, lanthionine, methionine and cystathionine, and an increase in metallothionein gene expression. Methionine and cystathionine are intermediates in the transsulfuration pathway which is involved in the conversion of methionine to cysteine. These responses provide an understanding of the pathways affected by zinc toxicity, and how these effects are different to other heavy metals such as cadmium and copper. The use of complementary metabolomics analytical approaches was particularly useful for understanding the effects of zinc exposure and importantly, identified a suite of candidate biomarkers of zinc exposure useful for the development of biomonitoring programs., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2015

21. Liquid-liquid extraction and liquid chromatography-mass spectrometry detection of curcuminoids from bacterial culture medium.

Author

Tan S, Rupasinghe TW, Tull DL, Augustin MA, and Gras SL

Subjects

Bioreactors microbiology, Curcumin analysis, Curcumin metabolism, Linear Models, Polyphenols analysis, Polyphenols metabolism, Chromatography, Liquid methods, Curcumin isolation & purification, Escherichia metabolism, Liquid-Liquid Extraction methods, Mass Spectrometry methods, Polyphenols isolation & purification

Abstract

Liquid chromatography-mass spectrometry (LC-MS) has been used to detect polyphenolic curcuminoids found in turmeric but studies of metabolism by bacterial and mammalian cells in vitro are compromised by poor recovery from the culture medium. We report a liquid-liquid extraction procedure with ethyl acetate and use LC-MS to quantify extracted curcuminoids. Ethyl acetate allows recoveries of ∼ 80-86% of curcuminoids from the bacterial growth medium, bacterial cell lysate and combined bacterial cell and growth medium matrices; a clear improvement over acetonitrile where recoveries were ∼ 25-66%. This optimised method will enable studies of curcuminoid metabolism and may be applicable to other hydrophobic polyphenolic compounds., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2015

22. Degradation of curcuminoids by in vitro pure culture fermentation.

Author

Tan S, Rupasinghe TW, Tull DL, Boughton B, Oliver C, McSweeny C, Gras SL, and Augustin MA

Subjects

Animals, Biotransformation, Curcumin analogs & derivatives, Curcumin chemistry, Escherichia growth & development, Escherichia coli growth & development, Escherichia coli metabolism, Feces microbiology, Fermentation, Gastrointestinal Tract microbiology, Humans, In Vitro Techniques, Swine, Curcumin metabolism, Escherichia metabolism

Abstract

Colonic bacteria may mediate the transformation of curcuminoids, but studies of this metabolism are limited. Here, the metabolism of curcuminoids by Escherichia fergusonii (ATCC 35469) and two Escherichia coli strains (ATCC 8739 and DH10B) was examined in modified medium for colon bacteria (mMCB) with or without pig cecal fluid. LC-MS analysis showed that 16-37% of curcumin, 6-16% of demethoxycurcumin (DMC) and 7-15% of bis-demethoxycurcumin (Bis-DMC), and 7-15% of bis-demethoxycurcumin (Bis-DMC) were converted following 36 h of fermentation, with the amount of curcuminoids degraded varying depending on the bacterial strain and medium used. Three metabolites (dihydrocurcumin (DHC), tetrahydrocurcumin (THC), and ferulic acid (FA)) were found in fermentation cultures with all strains used. In addition, a compound with m/z [M - H](-) 470 was found and identified to be a curcumin adduct (curcumin-l-cysteine), using accurate mass FT-ICR-MS. This study provides insights into the bacterial metabolism of curcuminoids.

Published

2014

23. (1)H-NMR analysis of the human urinary metabolome in response to an 18-month multi-component exercise program and calcium-vitamin-D3 supplementation in older men.

Author

Sheedy JR, Gooley PR, Nahid A, Tull DL, McConville MJ, Kukuljan S, Nowson CA, Daly RM, and Ebeling PR

Subjects

Aged, Animals, Anthropometry, Biomarkers urine, Body Composition drug effects, Bone Density drug effects, Creatinine urine, Dietary Supplements, Humans, Male, Middle Aged, Milk, Muscle Strength drug effects, Calcium therapeutic use, Cholecalciferol therapeutic use, Exercise physiology, Magnetic Resonance Spectroscopy, Metabolome, Urinalysis methods

Abstract

The musculoskeletal benefits of calcium and vitamin-D3 supplementation and exercise have been extensively studied, but the effect on metabolism remains contentious. Urine samples were analyzed by (1)H-NMR spectroscopy from participants recruited for an 18-month, randomized controlled trial of a multi-component exercise program and calcium and vitamin-D3 fortified milk consumption. It was shown previously that no increase in musculoskeletal composition was observed for participants assigned to the calcium and vitamin-D3 intervention, but exercise resulted in increased bone mineral density, total lean body mass, and muscle strength. Retrospective metabolomics analysis of urine samples from patients involved in this study revealed no distinct changes in the urinary metabolome in response to the calcium and vitamin-D3 intervention, but significant changes followed the exercise intervention, notably a reduction in creatinine and an increase in choline, guanidinoacetate, and hypoxanthine (p < 0.001, fold change > 1.5). These metabolites are intrinsically involved in anaerobic ATP synthesis, intracellular buffering, and methyl-balance regulation. The exercise intervention had a marked effect on the urine metabolome and markers of muscle turnover but none of these metabolites were obvious markers of bone turnover. Measurement of specific urinary exercise biomarkers may provide a basis for monitoring performance and metabolic response to exercise regimes.

Published

2014

24. Specific plasma lipid classes and phospholipid fatty acids indicative of dairy food consumption associate with insulin sensitivity.

Author

Nestel PJ, Straznicky N, Mellett NA, Wong G, De Souza DP, Tull DL, Barlow CK, Grima MT, and Meikle PJ

Subjects

Blood Pressure, Body Mass Index, Diabetes Mellitus, Type 2 blood, Dietary Fats administration & dosage, Fasting, Female, Gas Chromatography-Mass Spectrometry, Glucose Tolerance Test, Humans, Insulin blood, Linear Models, Male, Metabolic Syndrome blood, Metabolic Syndrome complications, Middle Aged, Nutrition Assessment, Obesity blood, Obesity complications, Sphingolipids blood, Triglycerides blood, Waist-Hip Ratio, Dairy Products, Diet, Fatty Acids blood, Insulin Resistance, Phospholipids blood

Abstract

Background: Reports have suggested that the consumption of dairy foods may reduce risk of type 2 diabetes on the basis of evidence of raised circulating ruminant fatty acids., Objective: We determined whether certain phospholipid species and fatty acids that are associated with full-fat dairy consumption may also be linked to diminished insulin resistance., Design: Four variables of insulin resistance and sensitivity were defined from oral-glucose-tolerance tests in 86 overweight and obese subjects with metabolic syndrome. Plasma phospholipids, sphingolipids, and fatty acids were determined by using a lipidomic analysis and gas chromatography-mass spectrometry to provide objective markers of dairy consumption. Food records provided information on dairy products. Associations were determined by using linear regression analyses adjusted for potential confounders age, sex, systolic blood pressure, waist:hip ratio, or body mass index (BMI) and corrected for multiple comparisons., Results: Lysophosphatidylcholine, lyso-platelet-activating factor, and several phospholipid fatty acids correlated directly with the number of servings of full-fat dairy foods. Lysophosphatidylcholine and lyso-platelet-activating factor were also associated directly with insulin sensitivity when accounting for the waist:hip ratio (Matsuda index unadjusted, P < 0.001 for both; adjusted for multiple comparisons, P < 0.02 for both) and inversely with insulin resistance (fasting insulin unadjusted, P < 0.001 for both; adjusted, P = 0.04 and P < 0.05, respectively; homeostasis model assessment of insulin resistance adjusted, P = 0.04 for both; post-glucose insulin area under the plasma insulin curve during the 120 min of the test adjusted, P < 0.01 for both). The substitution of BMI for the waist:hip ratio attenuated associations modestly. Phospholipid fatty acid 17:0 also tended to be associated directly with insulin sensitivity and inversely with resistance., Conclusion: Variables of insulin resistance were lower at higher concentrations of specific plasma phospholipids that were also indicators of full-fat dairy consumption. This trial was registered at clinicaltrials.gov as NCT00163943.

Published

2014

25. Human inflammatory and resolving lipid mediator responses to resistance exercise and ibuprofen treatment.

Author

Markworth JF, Vella L, Lingard BS, Tull DL, Rupasinghe TW, Sinclair AJ, Maddipati KR, and Cameron-Smith D

Subjects

Adult, Eicosanoids metabolism, Humans, Inflammation drug therapy, Inflammation metabolism, Male, Young Adult, Anti-Inflammatory Agents pharmacology, Drug Resistance, Exercise physiology, Fatty Acids, Unsaturated metabolism, Ibuprofen pharmacology, Inflammation physiopathology, Lipid Metabolism physiology

Abstract

Classical proinflammatory eicosanoids, and more recently discovered lipid mediators with anti-inflammatory and proresolving bioactivity, exert a complex role in the initiation, control, and resolution of inflammation. Using a targeted lipidomics approach, we investigated circulating lipid mediator responses to resistance exercise and treatment with the NSAID ibuprofen. Human subjects undertook a single bout of unaccustomed resistance exercise (80% of one repetition maximum) following oral ingestion of ibuprofen (400 mg) or placebo control. Venous blood was collected during early recovery (0-3 h and 24 h postexercise), and serum lipid mediator composition was analyzed by LC-MS-based targeted lipidomics. Postexercise recovery was characterized by elevated levels of cyclooxygenase (COX)-1 and 2-derived prostanoids (TXB2, PGE2, PGD2, PGF2α, and PGI2), lipooxygenase (5-LOX, 12-LOX, and 15-LOX)-derived hydroxyeicosatetraenoic acids (HETEs), and leukotrienes (e.g., LTB4), and epoxygenase (CYP)-derived epoxy/dihydroxy eicosatrienoic acids (EpETrEs/DiHETrEs). Additionally, we detected elevated levels of bioactive lipid mediators with anti-inflammatory and proresolving properties, including arachidonic acid-derived lipoxins (LXA4 and LXB4), and the EPA (E-series) and DHA (D-series)-derived resolvins (RvD1 and RvE1), and protectins (PD1 isomer 10S, 17S-diHDoHE). Ibuprofen treatment blocked exercise-induced increases in COX-1 and COX-2-derived prostanoids but also resulted in off-target reductions in leukotriene biosynthesis, and a diminished proresolving lipid mediator response. CYP pathway product metabolism was also altered by ibuprofen treatment, as indicated by elevated postexercise serum 5,6-DiHETrE and 8,9-DiHETrE only in those receiving ibuprofen. These findings characterize the blood inflammatory lipid mediator response to unaccustomed resistance exercise in humans and show that acute proinflammatory signals are mechanistically linked to the induction of a biological active inflammatory resolution program, regulated by proresolving lipid mediators during postexercise recovery.

Published

2013

26. Mechanical cell disruption for lipid extraction from microalgal biomass.

Author

Halim R, Rupasinghe TW, Tull DL, and Webley PA

Subjects

Kinetics, Models, Theoretical, Pressure, Thermodynamics, Triglycerides isolation & purification, Biomass, Cell Fractionation methods, Lipids isolation & purification, Microalgae cytology, Microalgae metabolism, Ultrasonics methods

Abstract

Cell disruption is an integral part of the downstream operation required to produce biodiesel from microalgae. This study investigated the use of ultrasonication and high-pressure homogenization (HPH) as cell disruption methods for two microalgal species, Tetraselmis suecica (TS) and Chlorococcum sp. (C sp.). The kinetics of cell disruption followed a first-order model (0.65

Published

2013

27. PyMS: a Python toolkit for processing of gas chromatography-mass spectrometry (GC-MS) data. Application and comparative study of selected tools.

Author

O'Callaghan S, De Souza DP, Isaac A, Wang Q, Hodkinson L, Olshansky M, Erwin T, Appelbe B, Tull DL, Roessner U, Bacic A, McConville MJ, and Likić VA

Subjects

Algorithms, Data Interpretation, Statistical, Gas Chromatography-Mass Spectrometry statistics & numerical data, Software

Abstract

Background: Gas chromatography-mass spectrometry (GC-MS) is a technique frequently used in targeted and non-targeted measurements of metabolites. Most existing software tools for processing of raw instrument GC-MS data tightly integrate data processing methods with graphical user interface facilitating interactive data processing. While interactive processing remains critically important in GC-MS applications, high-throughput studies increasingly dictate the need for command line tools, suitable for scripting of high-throughput, customized processing pipelines., Results: PyMS comprises a library of functions for processing of instrument GC-MS data developed in Python. PyMS currently provides a complete set of GC-MS processing functions, including reading of standard data formats (ANDI- MS/NetCDF and JCAMP-DX), noise smoothing, baseline correction, peak detection, peak deconvolution, peak integration, and peak alignment by dynamic programming. A novel common ion single quantitation algorithm allows automated, accurate quantitation of GC-MS electron impact (EI) fragmentation spectra when a large number of experiments are being analyzed. PyMS implements parallel processing for by-row and by-column data processing tasks based on Message Passing Interface (MPI), allowing processing to scale on multiple CPUs in distributed computing environments. A set of specifically designed experiments was performed in-house and used to comparatively evaluate the performance of PyMS and three widely used software packages for GC-MS data processing (AMDIS, AnalyzerPro, and XCMS)., Conclusions: PyMS is a novel software package for the processing of raw GC-MS data, particularly suitable for scripting of customized processing pipelines and for data processing in batch mode. PyMS provides limited graphical capabilities and can be used both for routine data processing and interactive/exploratory data analysis. In real-life GC-MS data processing scenarios PyMS performs as well or better than leading software packages. We demonstrate data processing scenarios simple to implement in PyMS, yet difficult to achieve with many conventional GC-MS data processing software. Automated sample processing and quantitation with PyMS can provide substantial time savings compared to more traditional interactive software systems that tightly integrate data processing with the graphical user interface.

Published

2012

28. VEGF-D promotes tumor metastasis by regulating prostaglandins produced by the collecting lymphatic endothelium.

Author

Karnezis T, Shayan R, Caesar C, Roufail S, Harris NC, Ardipradja K, Zhang YF, Williams SP, Farnsworth RH, Chai MG, Rupasinghe TW, Tull DL, Baldwin ME, Sloan EK, Fox SB, Achen MG, and Stacker SA

Subjects

Animals, Anti-Inflammatory Agents pharmacology, Endothelium, Lymphatic pathology, Female, Gene Expression Regulation, Neoplastic drug effects, Humans, Lymphangiogenesis drug effects, Lymphatic Metastasis genetics, Lymphatic System drug effects, Lymphatic System pathology, Lymphatic Vessels metabolism, Lymphatic Vessels pathology, Mice, Mice, Inbred NOD, Mice, SCID, Vascular Endothelial Growth Factor D genetics, Vascular Endothelial Growth Factor D metabolism, Vascular Endothelial Growth Factor Receptor-2 metabolism, Vascular Endothelial Growth Factor Receptor-3 metabolism, Cell Transformation, Neoplastic, Endothelium, Lymphatic metabolism, Lymphatic Metastasis physiopathology, Prostaglandins metabolism, Vascular Endothelial Growth Factor D physiology

Abstract

Lymphatic metastasis is facilitated by lymphangiogenic growth factors VEGF-C and VEGF-D that are secreted by some primary tumors. We identified regulation of PGDH, the key enzyme in prostaglandin catabolism, in endothelial cells of collecting lymphatics, as a key molecular change during VEGF-D-driven tumor spread. The VEGF-D-dependent regulation of the prostaglandin pathway was supported by the finding that collecting lymphatic vessel dilation and subsequent metastasis were affected by nonsteroidal anti-inflammatory drugs (NSAIDs), known inhibitors of prostaglandin synthesis. Our data suggest a control point for cancer metastasis within the collecting lymphatic endothelium, which links VEGF-D/VEGFR-2/VEGFR-3 and the prostaglandin pathways. Collecting lymphatics therefore play an active and important role in metastasis and may provide a therapeutic target to restrict tumor spread., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2012

29. Comprehensive profiling and quantitation of amine group containing metabolites.

Author

Boughton BA, Callahan DL, Silva C, Bowne J, Nahid A, Rupasinghe T, Tull DL, McConville MJ, Bacic A, and Roessner U

Subjects

Amines metabolism, Molecular Structure, Stereoisomerism, Amines analysis

Abstract

Primary and secondary amines, including amino acids, biogenic amines, hormones, neurotransmitters, and plant siderophores, are readily derivatized with 6-aminoquinolyl-N-hydroxysuccinimidyl carbamate using easily performed experimental methodology. Complex mixtures of these amine derivatives can be fractionated and quantified using liquid chromatography-electrospray ionization-mass spectrometry (LC-ESI-MS). Upon collision induced dissociation (CID) in a quadrupole collision cell, all derivatized compounds lose the aminoquinoline tag. With the use of untargeted fragmentation scan functions, such as precursor ion scanning, the loss of the aminoquinoline tag (Amq) can be monitored to identify derivatized species; and the use of targeted fragmentation scans, such as multiple reaction monitoring, can be exploited to quantitate amine-containing molecules. Further, with the use of accurate mass, charge state, and retention time, identification of unknown amines is facilitated. The stability of derivatized amines was found to be variable with oxidatively labile derivatives rapidly degrading. With the inclusion of antioxidant and reducing agents, tris(2-carboxyethyl)-phosphine (TCEP) and ascorbic acid, into both extraction solvents and reaction buffers, degradation was significantly decreased, allowing reproducible identification and quantification of amine compounds in large sample sets.

Published

2011

30. Cell wall integrity is linked to mitochondria and phospholipid homeostasis in Candida albicans through the activity of the post-transcriptional regulator Ccr4-Pop2.

Author

Dagley MJ, Gentle IE, Beilharz TH, Pettolino FA, Djordjevic JT, Lo TL, Uwamahoro N, Rupasinghe T, Tull DL, McConville M, Beaurepaire C, Nantel A, Lithgow T, Mitchell AP, and Traven A

Subjects

Animals, Candida albicans drug effects, Candida albicans metabolism, Candida albicans pathogenicity, Caspofungin, Cell Wall chemistry, Cell Wall drug effects, Echinocandins pharmacology, Fungal Proteins genetics, Gene Expression Profiling, Gene Expression Regulation, Fungal, Homeostasis, Lipopeptides, Mice, Mice, Inbred BALB C, Mitochondria ultrastructure, Mutation, Oligonucleotide Array Sequence Analysis, Phospholipids analysis, Polyadenylation, RNA, Fungal genetics, Ribonucleases genetics, Saccharomyces cerevisiae drug effects, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae metabolism, Virulence, beta-Glucans analysis, Candida albicans genetics, Cell Wall ultrastructure, Fungal Proteins metabolism, Mitochondria metabolism, Ribonucleases metabolism

Abstract

The cell wall is essential for viability of fungi and is an effective drug target in pathogens such as Candida albicans. The contribution of post-transcriptional gene regulators to cell wall integrity in C. albicans is unknown. We show that the C. albicans Ccr4-Pop2 mRNA deadenylase, a regulator of mRNA stability and translation, is required for cell wall integrity. The ccr4/pop2 mutants display reduced wall β-glucans and sensitivity to the echinocandin caspofungin. Moreover, the deadenylase mutants are compromised for filamentation and virulence. We demonstrate that defective cell walls in the ccr4/pop2 mutants are linked to dysfunctional mitochondria and phospholipid imbalance. To further understand mitochondrial function in cell wall integrity, we screened a Saccharomyces cerevisiae collection of mitochondrial mutants. We identify several mitochondrial proteins required for caspofungin tolerance and find a connection between mitochondrial phospholipid homeostasis and caspofungin sensitivity. We focus on the mitochondrial outer membrane SAM complex subunit Sam37, demonstrating that it is required for both trafficking of phospholipids between the ER and mitochondria and cell wall integrity. Moreover, in C. albicans also Sam37 is essential for caspofungin tolerance. Our study provides the basis for an integrative view of mitochondrial function in fungal cell wall biogenesis and resistance to echinocandin antifungal drugs., (© 2010 Blackwell Publishing Ltd.)

Published

2011

31. Leishmania adaptor protein-1 subunits are required for normal lysosome traffic, flagellum biogenesis, lipid homeostasis, and adaptation to temperatures encountered in the mammalian host.

Author

Vince JE, Tull DL, Spurck T, Derby MC, McFadden GI, Gleeson PA, Gokool S, and McConville MJ

Subjects

Adaptation, Physiological physiology, Adaptor Protein Complex 1 chemistry, Adaptor Protein Complex 1 genetics, Animals, Body Temperature physiology, Endosomes metabolism, Endosomes ultrastructure, Flagella ultrastructure, Golgi Apparatus metabolism, Golgi Apparatus ultrastructure, Heat-Shock Response physiology, Homeostasis physiology, Leishmania mexicana genetics, Leishmania mexicana ultrastructure, Lysosomes ultrastructure, Mammals parasitology, Mammals physiology, Membrane Lipids metabolism, Mutation genetics, Protein Subunits chemistry, Protein Subunits genetics, Protein Subunits metabolism, Protein Transport physiology, Sterols metabolism, Adaptor Protein Complex 1 metabolism, Flagella metabolism, Host-Parasite Interactions physiology, Leishmania mexicana metabolism, Lipid Metabolism physiology, Lysosomes metabolism

Abstract

The adaptor protein-1 (AP-1) complex is involved in membrane transport between the Golgi apparatus and endosomes. In the protozoan parasite Leishmania mexicana mexicana, the AP-1 mu1 and sigma1 subunits are not required for growth at 27 degrees C but are essential for infectivity in the mammalian host. In this study, we have investigated the function of these AP-1 subunits in order to understand the molecular basis for this loss of virulence. The mu1 and sigma1 subunits were localized to late Golgi and endosome membranes of the major parasite stages. Parasite mutants lacking either AP-1 subunit lacked obvious defects in Golgi structure, endocytosis, or exocytic transport. However, these mutants displayed reduced rates of endosome-to-lysosome transport and accumulated fragmented, sterol-rich lysosomes. Defects in flagellum biogenesis were also evident in nondividing promastigote stages, and this phenotype was exacerbated by inhibitors of sterol and sphingolipid biosynthesis. Furthermore, both AP-1 mutants were hypersensitive to elevated temperature and perturbations in membrane lipid composition. The pleiotropic requirements for AP-1 in membrane trafficking and temperature stress responses explain the loss of virulence of these mutants in the mammalian host.

Published

2008