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1. Beta-adrenergic agonism protects mitochondrial metabolism in the pancreatectomised rat heart

Author

Ross T. Lindsay, Louise Thisted, Nora E. Zois, Sebastian T. Thrane, James A. West, Keld Fosgerau, Julian L. Griffin, Lisbeth N. Fink, and Andrew J. Murray

Subjects
Mitochondria, Pancreatectomy, Adrenergic, Heart, Diabetes, Cardiomyopathy, Medicine, Science
Abstract

Abstract The diabetic heart is characterised by functional, morphological and metabolic alterations predisposing it to contractile failure. Chronic sympathetic activation is a feature of the pathogenesis of heart failure, however the type 1 diabetic heart shows desensitisation to β-adrenergic stimulation. Here, we sought to understand the impact of repeated isoprenaline-mediated β-stimulation upon cardiac mitochondrial respiratory capacity and substrate metabolism in the 90% pancreatectomy (Px) rat model of type 1 diabetes. We hypothesised these hearts would be relatively protected against the metabolic impact of stress-induced cardiomyopathy. We found that individually both Px and isoprenaline suppressed cardiac mitochondrial respiration, but that this was preserved in Px rats receiving isoprenaline. Px and isoprenaline had contrasting effects on cardiac substrate metabolism, with increased reliance upon cardiac fatty acid oxidation capacity and altered ketone metabolism in the hearts of Px rats, but enhanced capacity for glucose uptake and metabolism in isoprenaline-treated rats. Moreover, Px rats were protected against isoprenaline-induced mortality, whilst isoprenaline elevated cGMP and protected myocardial energetic status in Px rat hearts. Our work suggests that adrenergic stimulation may be protective in the type 1 diabetic heart, and underlines the importance of studying pathological features in combination when modeling complex disease in rodents.

Published
2024
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2. Conjugating uncoupler compounds with hydrophobic hydrocarbon chains to achieve adipose tissue selective drug accumulation

Author

Mei Ying Ng, Zhi Jian Song, Gopalakrishnan Venkatesan, Sergio Rodriguez-Cuenca, James A. West, Shili Yang, Choon Hong Tan, Paul Chi-Lui Ho, Julian L. Griffin, Antonio Vidal-Puig, Marcella Bassetto, and Thilo Hagen

Subjects
Medicine, Science
Abstract

Abstract One potential approach for treating obesity is to increase energy expenditure in brown and white adipose tissue. Here we aimed to achieve this outcome by targeting mitochondrial uncoupler compounds selectively to adipose tissue, thus avoiding side effects from uncoupling in other tissues. Selective drug accumulation in adipose tissue has been observed with many lipophilic compounds and dyes. Hence, we explored the feasibility of conjugating uncoupler compounds with a lipophilic C8-hydrocarbon chain via an ether bond. We found that substituting the trifluoromethoxy group in the uncoupler FCCP with a C8-hydrocarbon chain resulted in potent uncoupling activity. Nonetheless, the compound did not elicit therapeutic effects in mice, likely as a consequence of metabolic instability resulting from rapid ether bond cleavage. A lipophilic analog of the uncoupler compound 2,6-dinitrophenol, in which a C8-hydrocarbon chain was conjugated via an ether bond in the para-position (2,6-dinitro-4-(octyloxy)phenol), exhibited increased uncoupling activity compared to the parent compound. However, in vivo pharmacokinetics studies suggested that 2,6-dinitro-4-(octyloxy)phenol was also metabolically unstable. In conclusion, conjugation of a hydrophobic hydrocarbon chain to uncoupler compounds resulted in sustained or improved uncoupling activity. However, an ether bond linkage led to metabolic instability, indicating the need to conjugate lipophilic groups via other chemical bonds.

Published
2024
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3. A HIF independent oxygen-sensitive pathway for controlling cholesterol synthesis

Author

Anna S. Dickson, Tekle Pauzaite, Esther Arnaiz, Brian M. Ortmann, James A. West, Norbert Volkmar, Anthony W. Martinelli, Zhaoqi Li, Niek Wit, Dennis Vitkup, Arthur Kaser, Paul J. Lehner, and James A. Nathan

Subjects
Science
Abstract

Abstract Cholesterol biosynthesis is a highly regulated, oxygen-dependent pathway, vital for cell membrane integrity and growth. In fungi, the dependency on oxygen for sterol production has resulted in a shared transcriptional response, resembling prolyl hydroxylation of Hypoxia Inducible Factors (HIFs) in metazoans. Whether an analogous metazoan pathway exists is unknown. Here, we identify Sterol Regulatory Element Binding Protein 2 (SREBP2), the key transcription factor driving sterol production in mammals, as an oxygen-sensitive regulator of cholesterol synthesis. SREBP2 degradation in hypoxia overrides the normal sterol-sensing response, and is HIF independent. We identify MARCHF6, through its NADPH-mediated activation in hypoxia, as the main ubiquitin ligase controlling SREBP2 stability. Hypoxia-mediated degradation of SREBP2 protects cells from statin-induced cell death by forcing cells to rely on exogenous cholesterol uptake, explaining why many solid organ tumours become auxotrophic for cholesterol. Our findings therefore uncover an oxygen-sensitive pathway for governing cholesterol synthesis through regulated SREBP2-dependent protein degradation.

Published
2023
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5. N-arachidonylglycine is a caloric state-dependent circulating metabolite which regulates human CD4+T cell responsiveness

Author

Allison M. Meadows, Kim Han, Komudi Singh, Antonio Murgia, Ben D. McNally, James A. West, Rebecca D. Huffstutler, Tiffany M. Powell-Wiley, Yvonne Baumer, Julian L. Griffin, and Michael N. Sack

Subjects
Human metabolism, Immunology, Lipidomics, Metabolomics, Transcriptomics, Science
Abstract

Summary: Caloric deprivation interventions such as intermittent fasting and caloric restriction ameliorate metabolic and inflammatory disease. As a human model of caloric deprivation, a 24-h fast blunts innate and adaptive immune cell responsiveness relative to the refed state. Isolated serum at these time points confers these same immunomodulatory effects on transformed cell lines. To identify serum mediators orchestrating this, metabolomic and lipidomic analysis was performed on serum extracted after a 24-h fast and re-feeding. Bioinformatic integration with concurrent peripheral blood mononuclear cells RNA-seq analysis implicated key metabolite-sensing GPCRs in fasting-mediated immunomodulation. The putative GPR18 ligand N-arachidonylglycine (NAGly) was elevated during fasting and attenuated CD4+T cell responsiveness via GPR18 MTORC1 signaling. In parallel, NAGly reduced inflammatory Th1 and Th17 cytokines levels in CD4+T cells isolated from obese subjects, identifying a fasting-responsive metabolic intermediate that may contribute to the regulation of nutrient-level dependent inflammation associated with metabolic disease.

Published
2023
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7. Metabolic Effects of Doxorubicin on the Rat Liver Assessed With Hyperpolarized MRI and Metabolomics

Author

Kerstin N. Timm, Vicky Ball, Jack J. Miller, Dragana Savic, James A. West, Julian L. Griffin, and Damian J. Tyler

Subjects
hyperpolarized 13C, metabolomics, liver, doxorubicin, chemotherapy, toxicity, Physiology, QP1-981
Abstract

Doxorubicin (DOX) is a successful chemotherapeutic widely used for the treatment of a range of cancers. However, DOX can have serious side-effects, with cardiotoxicity and hepatotoxicity being the most common events. Oxidative stress and changes in metabolism and bioenergetics are thought to be at the core of these toxicities. We have previously shown in a clinically-relevant rat model that a low DOX dose of 2 mg kg–1 week–1 for 6 weeks does not lead to cardiac functional decline or changes in cardiac carbohydrate metabolism, assessed with hyperpolarized [1-13C]pyruvate magnetic resonance spectroscopy (MRS). We now set out to assess whether there are any signs of liver damage or altered liver metabolism using this subclinical model. We found no increase in plasma alanine aminotransferase (ALT) activity, a measure of liver damage, following DOX treatment in rats at any time point. We also saw no changes in liver carbohydrate metabolism, using hyperpolarized [1-13C]pyruvate MRS. However, using metabolomic analysis of liver metabolite extracts at the final time point, we found an increase in most acyl-carnitine species as well as increases in high energy phosphates, citrate and markers of oxidative stress. This may indicate early signs of steatohepatitis, with increased and decompensated fatty acid uptake and oxidation, leading to oxidative stress.

Published
2022
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8. Divergent trajectories of cellular bioenergetics, intermediary metabolism and systemic redox status in survivors and non-survivors of critical illness

Author

Helen T. McKenna, Katie A. O'Brien, Bernadette O. Fernandez, Magdalena Minnion, Adam Tod, Ben D. McNally, James A. West, Julian L. Griffin, Michael P. Grocott, Michael G. Mythen, Martin Feelisch, Andrew J. Murray, and Daniel S. Martin

Subjects
Critical illness, Stress physiology, Energy metabolism, Mitochondria, Redox signaling, Oxidative stress, Medicine (General), R5-920, Biology (General), QH301-705.5
Abstract

Background: Numerous pathologies result in multiple-organ failure, which is thought to be a direct consequence of compromised cellular bioenergetic status. Neither the nature of this phenotype nor its relevance to survival are well understood, limiting the efficacy of modern life-support. Methods: To explore the hypothesis that survival from critical illness relates to changes in cellular bioenergetics, we combined assessment of mitochondrial respiration with metabolomic, lipidomic and redox profiling in skeletal muscle and blood, at multiple timepoints, in 21 critically ill patients and 12 reference patients. Results: We demonstrate an end-organ cellular phenotype in critical illness, characterized by preserved total energetic capacity, greater coupling efficiency and selectively lower capacity for complex I and fatty acid oxidation (FAO)-supported respiration in skeletal muscle, compared to health. In survivors, complex I capacity at 48 h was 27% lower than in non-survivors (p = 0.01), but tended to increase by day 7, with no such recovery observed in non-survivors. By day 7, survivors’ FAO enzyme activity was double that of non-survivors (p = 0.048), in whom plasma triacylglycerol accumulated. Increases in both cellular oxidative stress and reductive drive were evident in early critical illness compared to health. Initially, non-survivors demonstrated greater plasma total antioxidant capacity but ultimately higher lipid peroxidation compared to survivors. These alterations were mirrored by greater levels of circulating total free thiol and nitrosated species, consistent with greater reductive stress and vascular inflammation, in non-survivors compared to survivors. In contrast, no clear differences in systemic inflammatory markers were observed between the two groups. Conclusion: Critical illness is associated with rapid, specific and coordinated alterations in the cellular respiratory machinery, intermediary metabolism and redox response, with different trajectories in survivors and non-survivors. Unravelling the cellular and molecular foundation of human resilience may enable the development of more effective life-support strategies.

Published
2021
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9. Integration of metabolomics, lipidomics and clinical data using a machine learning method

Author

Animesh Acharjee, Zsuzsanna Ament, James A. West, Elizabeth Stanley, and Julian L. Griffin

Subjects
Computer applications to medicine. Medical informatics, R858-859.7, Biology (General), QH301-705.5
Abstract

Abstract Background The recent pandemic of obesity and the metabolic syndrome (MetS) has led to the realisation that new drug targets are needed to either reduce obesity or the subsequent pathophysiological consequences associated with excess weight gain. Certain nuclear hormone receptors (NRs) play a pivotal role in lipid and carbohydrate metabolism and have been highlighted as potential treatments for obesity. This realisation started a search for NR agonists in order to understand and successfully treat MetS and associated conditions such as insulin resistance, dyslipidaemia, hypertension, hypertriglyceridemia, obesity and cardiovascular disease. The most studied NRs for treating metabolic diseases are the peroxisome proliferator-activated receptors (PPARs), PPAR-α, PPAR-γ, and PPAR-δ. However, prolonged PPAR treatment in animal models has led to adverse side effects including increased risk of a number of cancers, but how these receptors change metabolism long term in terms of pathology, despite many beneficial effects shorter term, is not fully understood. In the current study, changes in male Sprague Dawley rat liver caused by dietary treatment with a PPAR-pan (PPAR-α, −γ, and –δ) agonist were profiled by classical toxicology (clinical chemistry) and high throughput metabolomics and lipidomics approaches using mass spectrometry. Results In order to integrate an extensive set of nine different multivariate metabolic and lipidomics datasets with classical toxicological parameters we developed a hypotheses free, data driven machine learning approach. From the data analysis, we examined how the nine datasets were able to model dose and clinical chemistry results, with the different datasets having very different information content. Conclusions We found lipidomics (Direct Infusion-Mass Spectrometry) data the most predictive for different dose responses. In addition, associations with the metabolic and lipidomic data with aspartate amino transaminase (AST), a hepatic leakage enzyme to assess organ damage, and albumin, indicative of altered liver synthetic function, were established. Furthermore, by establishing correlations and network connections between eicosanoids, phospholipids and triacylglycerols, we provide evidence that these lipids function as a key link between inflammatory processes and intermediary metabolism.

Published
2016
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10. Metabolomics dataset of PPAR-pan treated rat liver

Author

Zsuzsanna Ament, James A. West, Elizabeth Stanley, Xuefei Li, Tom Ashmore, Lee D. Roberts, Jayne Wright, Andrew W. Nicholls, and Julian L. Griffin

Subjects
Computer applications to medicine. Medical informatics, R858-859.7, Science (General), Q1-390
Abstract

This article contains mass spectrometry (MS) data investigating small molecule changes as an effect of a triple peroxisome proliferator-activated receptor (PPAR-pan) agonist GW625019 in the liver as described in the manuscript (Ament et al., 2016) [1]. Samples were measured using gas chromatography-mass spectrometry (GC–MS) for total fatty acid content, and liquid chromatography-mass spectrometry (LC–MS) to measure intact lipids, carnitines and selected aqueous metabolites and eicosanoids. Data files comprise of Excel (Microsoft, WA, USA) spreadsheets of identified metabolites and their area ratio values for total fatty acids, carnitines, aqueous metabolites, and eicosanoids where the intensity of the analytes were normalised to the intensity of the internal standard. In the case of open profiling intact lipid data, the Excel file contains area ratio values of retention time and mass to charge ratio pairs; again, the area ratio values were calculated by normalising to the intensity of the internal standard. It should be noted that several metabolic changes are potentially indirect (secondary, tertiary and ensuing changes). Keywords: Peroxisome proliferator activated receptors, PPAR, Metabolomics, Lipidomics, Mass spectrometry

Published
2016
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11. A Review of Odd-Chain Fatty Acid Metabolism and the Role of Pentadecanoic Acid (C15:0) and Heptadecanoic Acid (C17:0) in Health and Disease

Author

Benjamin Jenkins, James A. West, and Albert Koulman

Subjects
odd chain fatty acids, pentadecanoic, heptadecanoic, biomarker, α-oxidation, dairy, Organic chemistry, QD241-441
Abstract

The role of C17:0 and C15:0 in human health has recently been reinforced following a number of important biological and nutritional observations. Historically, odd chain saturated fatty acids (OCS-FAs) were used as internal standards in GC-MS methods of total fatty acids and LC-MS methods of intact lipids, as it was thought their concentrations were insignificant in humans. However, it has been thought that increased consumption of dairy products has an association with an increase in blood plasma OCS-FAs. However, there is currently no direct evidence but rather a casual association through epidemiology studies. Furthermore, a number of studies on cardiometabolic diseases have shown that plasma concentrations of OCS-FAs are associated with lower disease risk, although the mechanism responsible for this is debated. One possible mechanism for the endogenous production of OCS-FAs is α-oxidation, involving the activation, then hydroxylation of the α-carbon, followed by the removal of the terminal carboxyl group. Differentiation human adipocytes showed a distinct increase in the concentration of OCS-FAs, which was possibly caused through α-oxidation. Further evidence for an endogenous pathway, is in human plasma, where the ratio of C15:0 to C17:0 is approximately 1:2 which is contradictory to the expected levels of C15:0 to C17:0 roughly 2:1 as detected in dairy fat. We review the literature on the dietary consumption of OCS-FAs and their potential endogenous metabolism.

Published
2015
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13. Correction: Hypoxic Regulation of Controls the Fetal-Neonatal Switch in Cardiac Metabolism.

Author

Ross A. Breckenridge, Izabela Piotrowska, Keat-Eng Ng, Timothy J. Ragan, James A. West, Surendra Kotecha, Norma Towers, Michael Bennett, Petra C. Kienesberger, Ryszard T. Smolenski, Hillary K. Siddall, John L. Offer, Mihaela M. Mocanu, Derek M. Yelon, Jason R. B. Dyck, Jules L. Griffin, Andrey Y. Abramov, Alex P. Gould, and Timothy J. Mohun

Subjects
Biology (General), QH301-705.5
Published
2013
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14. Use of the Academic Services Experience Survey for Formative Assessment of the Service Quality of a New College Campus

Author

James R. West

Abstract

Education and academic related services have become as important as manufacturing and, in some cases, even more important. Considering the importance of these services as it relates to manufacturing, a problem exists. Products such as education and academic services are far less specific in value when comparing with manufactured goods, even though their quality depends on resources which can be measured, such as funding. At the same time, we must be able to quantify them and compare their values with predetermined expected levels for each area of expertise, as well as with each other. The quality of the services provided, specifically academic services, is an intangible concept that can be assessed through various methods. This research study applies the Academic Services Experience Survey, a modified version of SERVQUAL, to solve a complex and multifaceted problem of assessing and improving the quality of academic services in higher education institutions. [The dissertation citations contained here are published with the permission of ProQuest LLC. Further reproduction is prohibited without permission. Copies of dissertations may be obtained by Telephone (800) 1-800-521-0600. Web page: http://www.proquest.com/en-US/products/dissertations/individuals.shtml.]

Published
2022

18. Chemical contaminant levels in edible seaweeds of the Salish Sea and implications for their consumption.

Author

Jennifer L Hahn, Kathryn L Van Alstyne, Joseph K Gaydos, Lindsay K Wallis, James E West, Steven J Hollenhorst, Gina M Ylitalo, Robert H Poppenga, Jennie L Bolton, David E McBride, and Ruth M Sofield

Subjects
Medicine, Science
Abstract

Despite growing interest in edible seaweeds, there is limited information on seaweed chemical contaminant levels in the Salish Sea. Without this knowledge, health-based consumption advisories can not be determined for consumers that include Tribes and First Nations, Asian and Pacific Islander community members, and recreational harvesters. We measured contaminant concentrations in edible seaweeds (Fucus distichus, F. spiralis, and Nereocystis luetkeana) from 43 locations in the Salish Sea. Metals were analyzed in all samples, and 94 persistent organic pollutants (POPs) (i.e. 40 PCBs, 15 PBDEs, 17 PCDD/Fs, and 22 organochlorine pesticides) and 51 PAHs were analyzed in Fucus spp. We compared concentrations of contaminants to human health-based screening levels calculated from the USEPA and to international limits. We then worked with six focal contaminants that either exceeded screening levels or international limits (Cd, total Hg, Pb, benzo[a]pyrene [BaP], and PCBs) or are of regional interest (total As). USEPA cancer-based screening levels were exceeded in 30 samples for the PCBs and two samples for BaP. Cadmium concentrations did not exceed the USEPA noncancer-based screening level but did exceed international limits at all sites. Lead exceeded international limits at three sites. Because there are no screening levels for total Hg and total As, and to be conservative, we made comparisons to methyl Hg and inorganic As screening levels. All samples were below the methyl Hg and above the inorganic As screening levels. Without knowledge of the As speciation, we cannot assess the health risk associated with the As. While seaweed was the focus, we did not consider contaminant exposure from consuming other foods. Other chemicals, such as contaminants of emerging concern (e.g., PFAS, pharmaceuticals and personal care products), should also be considered. Additionally, although we focused on toxicological aspects, there are cultural and health benefits of seaweed use that may affect consumer choice.

Published
2022
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19. β-hydroxybutyrate accumulates in the rat heart during low-flow ischaemia with implications for functional recovery

Author

Ross T Lindsay, Sophie Dieckmann, Dominika Krzyzanska, Dominic Manetta-Jones, James A West, Cecilia Castro, Julian L Griffin, and Andrew J Murray

Subjects
Heart, Langendorff, cardiomyocyte, Ischaemia, Medicine, Science, Biology (General), QH301-705.5
Abstract

Extrahepatic tissues which oxidise ketone bodies also have the capacity to accumulate them under particular conditions. We hypothesised that acetyl-coenzyme A (acetyl-CoA) accumulation and altered redox status during low-flow ischaemia would support ketone body production in the heart. Combining a Langendorff heart model of low-flow ischaemia/reperfusion with liquid chromatography coupled tandem mass spectrometry (LC-MS/MS), we show that β-hydroxybutyrate (β-OHB) accumulated in the ischaemic heart to 23.9 nmol/gww and was secreted into the coronary effluent. Sodium oxamate, a lactate dehydrogenase (LDH) inhibitor, increased ischaemic β-OHB levels 5.3-fold and slowed contractile recovery. Inhibition of β-hydroxy-β-methylglutaryl (HMG)-CoA synthase (HMGCS2) with hymeglusin lowered ischaemic β-OHB accumulation by 40%, despite increased flux through succinyl-CoA-3-oxaloacid CoA transferase (SCOT), resulting in greater contractile recovery. Hymeglusin also protected cardiac mitochondrial respiratory capacity during ischaemia/reperfusion. In conclusion, net ketone generation occurs in the heart under conditions of low-flow ischaemia. The process is driven by flux through both HMGCS2 and SCOT, and impacts on cardiac functional recovery from ischaemia/reperfusion.

Published
2021
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20. Soft CNT-Polymer Composites for High Pressure Sensors

Author

Adebayo Eisape, Valerie Rennoll, Tessa Van Volkenburg, Zhiyong Xia, James E. West, and Sung Hoon Kang

Subjects
composite, thermoplastic polyurethane (TPU), multiwalled carbon nanotube (MWCNT), piezoresistive, high pressure sensor, Chemical technology, TP1-1185
Abstract

Carbon–polymer composite-based pressure sensors have many attractive features, including low cost, easy integration, and facile fabrication. Previous studies on carbon–polymer composite sensors focused on very high sensitivities for low pressure ranges (10 s of kPa), which saturate quickly at higher pressures and thus are ill-suited to measure the high pressure ranges found in various applications, including those in underwater (>1 atm, 101 kPa) and industrial environments. Current sensors designed for high pressure environments are often difficult to fabricate, expensive, and, similarly to their low-pressure counterparts, have a narrow sensing range. To address these issues, this work reports the design, synthesis, characterization, and analysis of high-pressure TPU-MWCNT based composite sensors, which detect pressures from 0.5 MPa (4.9 atm) to over 10 MPa (98.7 atm). In this study, the typical approach to improve sensitivity by increasing conductive additive concentration was found to decrease sensor performance at elevated pressures. It is shown that a better approach to elevated pressure sensitivity is to increase sensor response range by decreasing the MWCNT weight percentage, which improves sensing range and resolution. Such sensors can be useful for measuring high pressures in many industrial (e.g., manipulator feedback), automotive (e.g., damping elements, bushings), and underwater (e.g., depth sensors) applications.

Published
2022
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21. Molecular Function and Contribution of TBX4 in Development and Disease

Author

Justyna A. Karolak, Carrie L. Welch, Christian Mosimann, Katarzyna Bzdęga, James D. West, David Montani, Mélanie Eyries, Mary P. Mullen, Steven H. Abman, Matina Prapa, Stefan Gräf, Nicholas W. Morrell, Anna R. Hemnes, Frédéric Perros, Rizwan Hamid, Malcolm P. O. Logan, Jeffrey Whitsett, Csaba Galambos, Paweł Stankiewicz, Wendy K. Chung, and Eric D. Austin

Subjects
Pulmonary and Respiratory Medicine, Critical Care and Intensive Care Medicine
Published
2023
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26. HOME TO INDIANA, 1919

Author

Theodore Dreiser, Thomas P. Riggio, and James L.W. West III

Published
2015

27. INTRODUCTION

Author

Theodore Dreiser, Thomas P. Riggio, and James L.W. West III

Published
2015

31. Textual Apparatus

Author

Theodore Dreiser, Thomas P. Riggio, and James L.W. West III

Published
2015

35. EDITORIAL PRINCIPLES

Author

Theodore Dreiser, Thomas P. Riggio, and James L.W. West III

Published
2015

36. Preface

Author

Theodore Dreiser, Thomas P. Riggio, and James L.W. West III

Published
2015

37. Contents

Author

Theodore Dreiser, Thomas P. Riggio, and James L.W. West III

Published
2015

39. DIARIES

Author

Theodore Dreiser, Thomas P. Riggio, and James L.W. West III

Published
2015

40. Title Page, Copyright

Author

Theodore Dreiser, Thomas P. Riggio, and James L.W. West III

Published
2015

41. Acknowledgments

Author

Theodore Dreiser, Thomas P. Riggio, and James L.W. West III

Published
2015

45. 1 July 2023: What is changing in the workplace environment?

Author

James, Kirryn West

Subjects
Work environment -- Forecasts and trends, Family leave -- Laws, regulations and rules, Employee dismissals -- Laws, regulations and rules, Employee vacations -- Laws, regulations and rules, Pensions -- Laws, regulations and rules, Wages -- Minimum wage, Government regulation, Market trend/market analysis, Business, international
Abstract

1 July 2023 is a date for the diary. The first day of the new financial year brings a number of changes for organisations. Many of these changes stem from [...]

Published
2023

46. Your organisation's guide to managing psychosocial hazards

Author

James, Kirryn West

Subjects
Job stress -- Prevention, Work environment -- Laws, regulations and rules, Occupational health and safety -- Laws, regulations and rules, Government regulation, Business, international
Abstract

One mistake often made by employers is overlooking that their duty to control work, health and safety risks also extends to the risks that often cannot be seen. These risks [...]

Published
2023

47. Thromboxane-Prostanoid Receptor Signaling Drives Persistent Fibroblast Activation in Pulmonary Fibrosis

Author

Toshio Suzuki, Jonathan A. Kropski, Jingyuan Chen, Erica J. Carrier, Xinping Chen, Taylor P. Sherrill, Nichelle I. Winters, Jane E. Camarata, Vasiliy V. Polosukhin, Wei Han, Anandharajan Rathinasabapathy, Sergey Gutor, Peter Gulleman, Carleen Sabusap, Nicholas E. Banovich, Harikrishna Tanjore, Michael L. Freeman, Yuji Tada, Lisa R. Young, Jason J. Gokey, Timothy S. Blackwell, and James D. West

Subjects
Pulmonary and Respiratory Medicine, F2-Isoprostanes, Receptors, Thromboxane, Thromboxanes, Fibroblasts, Critical Care and Intensive Care Medicine, Idiopathic Pulmonary Fibrosis, Mice, Inbred C57BL, Bleomycin, Mice, Transforming Growth Factor beta, Prostaglandins, Animals, Humans, Lung
Published
2023

48. Contributors

Author

James L. West and Iurii A. Petrov

Published
2014

50. Introduction

Author

James L. West and Iurii A. Petrov

Published
2014

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