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15. Corrigendum to An overview of the safety pharmacology society strategic plan [Journal of Pharmacological and Toxicological Methods 93 (2018) 35–45]

Author

Pugsley, M.K., primary, Authier, S., additional, Koerner, J.E., additional, Redfern, W.S., additional, Markgraf, C.G., additional, Brabham, T., additional, Correll, K., additional, Soloviev, M.V., additional, Botchway, A., additional, Engwall, M., additional, Traebert, M., additional, Valentin, J.-P., additional, Mow, T.J., additional, Greiter-Wilke, A., additional, Leishman, D.J., additional, and Vargas, H.M., additional

Published
2019
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16. Discussion

Author

Noble, D, Brown, A, Sanguinetti, M, Traebert, M, Gosling, M, Hondeghem, L, Shah, R, Hoffmann, P, January, C, Hancox, J, and Rosenbaum, D

Published
2016

17. Discussion

Author

Robertson, G, Sanguinetti, M, Noble, D, Traebert, M, Recanatini, M, Sanchez-Chapula, J, Hondeghem, L, Hancox, J, Netzer, R, January, C, and Ficker, E

Published
2016

18. Internalization of proximal tubular type II Na-[P.sub.i] cotransporter by PTH: immunogold electron microscopy

Author

TRAEBERT, M., ROTH, J., BIBER, J., MURER, H., and KAISSLING, B.

Subjects
Brush border membrane -- Research, Renal tubular transport -- Research, Parathyroid hormone -- Usage, Clathrin -- Physiological aspects, Biological sciences
Abstract

Traebert, M., J. Roth, J. Biber, H. Murer, and B. Kaissling. Internalization of proximal tubular type II Na-[P.sub.i] cotransporter by PTH: immunogold electron microscopy. Am. J. Physiol. Renal Physiol. 278: F148-F154, 2000.--Physiological/pathophysiological alterations in proximal tubular [P.sub.i] reabsorption are associated with an altered brush-border membrane (BBM) expression of type II Na-[P.sub.i] cotransporter molecules. Reduction is achieved by an internalization and lysosomal degradation and an increase in [P.sub.i] reabsorption by new synthesis and BBM insertion of type II Na-[P.sub.i] cotransporters. In the present study, we investigated by immunohistochemistry and immunogold electron microscopy the routing of internalized rat type II Na-[P.sub.i] cotransporters (NaPi-2). In kidney of rats on a chronic low-[P.sub.i] diet, NaPi-2 is mainly localized in the BBM, in cisterns of the Golgi apparatus and sparsely also in large endocytotic vacuoles and lysosomes. Fifteen minutes after the injection of the 1-34 analog of parathyroid hormone (PTH), the amount of NaPi-2 was decreased in the BBM and increased in endocytotic vesicles. NaPi-2 molecules colocalized with horseradish peroxidase injected prior to the injection of PTH. Vesicles labeled for NaPi-2 were occasionally also labeled for clathrin or the adaptor protein AP2. We conclude that NaPi-2 molecules enter the subapical compartment from where NaPi-2-containing vesicles are segregated off and directed to the lysosomes. A clathrin-mediated pathway may contribute to the PTH-induced internalization of NaPi-2. NaPi-2; horseradish peroxidase; endocytosis; immunohistochemistry

Published
2000

19. Discussion

Author

Sanguinetti, MC, Nicklin, P, Recanatini, M, Gosling, M, Brown, AM, Hoffmann, P, Shah, R, Netzer, R, Noble, D, and Traebert, M

Published
2005

20. Discussion

Author

Robertson, GA, Sanguinetti, MC, Noble, D, Traebert, M, Recanatini, M, Sanchez-Chapula, JA, Hondeghem, L, Hancox, JC, Netzer, R, January, CT, and Ficker, E

Published
2005

24. Interaction of the type IIa Na/Pi cotransporter with PDZ proteins.

Author

Gisler, S M, Stagljar, I, Traebert, M, Bacic, D, Biber, J, Murer, H, Gisler, S M, Stagljar, I, Traebert, M, Bacic, D, Biber, J, and Murer, H

Abstract

The type IIa Na(+)-dependent inorganic phosphate (Na/P(i)) cotransporter is localized in the apical membrane of proximal tubular cells and is regulated by an endocytotic pathway. Because molecular processes such as apical sorting, internalization, or subsequent degradation might be assisted by associated proteins, a yeast two-hybrid screen against the C-terminal, cytosolic tail of type IIa cotransporter was designed. Most of the potential proteins found belonged to proteins with multiple PDZ modules and were either identical/related to PDZK1 or identical to NHERF-1. Yeast trap truncation assays confined the peptide-protein association to the C-terminal amino acid residues TRL of type IIa cotransporter and to single PDZ domains of each identified protein, respectively. The specificity of these interactions were confirmed in yeast by testing other apical localized transmembraneous proteins. Moreover, the type IIa protein was recovered in vitro by glutathione S-transferase-fused PDZ proteins from isolated renal brush border membranes or from type IIa-expressing oocytes. Further, these PDZ proteins are immunohistochemically detected either in the microvilli or in the subapical compartment of proximal tubular cells. Our results suggest that the type IIa Na/P(i) cotransporter interacts with various PDZ proteins that might be responsible for the apical sorting, parathyroid hormone controlled endocytosis or the lysosomal sorting of internalized type IIa cotransporter.

Published
2001

29. Investigating the surface expression of the renal type IIa Na+/Pi-cotransporter in Xenopus laevis oocytes.

Author

Traebert, M., Köhler, K., Lambert, G., Biber, J., Forster, I., Murer, H., and Köhler, K

Subjects
XENOPUS laevis, VITAMIN B complex, BACTERIAL proteins, IMMUNOFLUORESCENCE, MEMBRANE proteins, BIOLOGICAL membranes, ZONA pellucida
Abstract

We have combined a functional assay, surface labeling and immunocytochemical methods to compare total and surface-exposed renal type IIa Na+/Pi cotransporter protein. The wild-type type cotransporter (NaPi-IIa) and its functionally comparable cysteine mutant S460C were expressed in Xenopus oocytes. S460C contains a novel cysteine residue that, when modified by preincubation with methanethiosulfonate reagents, leads to complete suppression of cotransport function. This allowed surface labeling of the S460C using MTSEA-Biotin and confirmation by electrophysiology on the same cell. Protein was analyzed by Western blotting before and after streptavidin precipitation and by immunocytochemistry and immunogold electronmicroscopy. MTSEA-Biotin treatment resulted in a complete inhibition of S460C-mediated Na+/Pi-cotransport activity, which indicated that all transporters at the surface were biotinylated. After biotinylation, only a small fraction of total S460C protein was precipitated by streptavidin compared with the total amount of S460C protein detected in the lysate. Light- and electron-microscopy analysis of oocytes showed a large amount of WT and S460C transporter protein beneath the oocyte membrane. These data indicate that the apparent weak labeling efficiencies of surface-biotinylation-based assays of membrane proteins heterologously expressed in oocytes can be related to diminished incorporation of the protein in the oolemma. [ABSTRACT FROM AUTHOR]

Published
2001
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30. Effect of two tyrosine mutations on the activity and regulation of the renal type II Na/Pi-cotransporter expressed in oocytes.

Author

Hernando, N., Traebert, M., Forster, I., Biber, J., and Murer, H.

Subjects
SODIUM metabolism, PHOSPHATE metabolism, AMINO acids, ANIMAL experimentation, BIOLOGICAL transport, CARRIER proteins, COMPARATIVE studies, GLYCERIDES, INJECTIONS, RESEARCH methodology, MEDICAL cooperation, MOLECULAR structure, GENETIC mutation, NURSE anesthetists, OVUM, RATS, RESEARCH, TRANSFERASES, TYROSINE, VERTEBRATES, EVALUATION research, ION transport (Biology)
Abstract

The rat renal type II Na/Pi-cotransporter (NaPi2), which is regulated by mechanisms involving endocytosis and lysosomal degradation, contains two sequences that show high homology with two tyrosine (Y)-based consensus motifs previously reported to be involved in such intracellular trafficking: GY402FAM matching the consensus sequence GYXXZ, and Y509RWF matching the motif YXXO. Mutations of any of these two Y nearly abolished the NaPi2 mediated 32Pi-uptake after cRNA-injection into oocytes. The mechanisms underlying these defects are however different. Mutation of the Y402 results in a lack of glycosylation and reduced surface expression of the cotransporter, that are specific for the Y402 mutation since substitution of the neighboring F403 did not have any effect. The inhibitory effect of the Y509 mutation is related to a functional inactivation of the protein expressed in the plasma membrane; mutation of the neighboring R510 also led to a decrease in the cotransporter activity. Pharmacological activation of the protein kinase C cascade by DOG induced the retrieval of both wild-type (WT) as well as Y509 cotransporters from the oocyte plasma membrane. These data suggest that the Y402 is important for the surface expression whereas Y509 for the function of the type II Na/Pi-cotransporter expressed in oocytes. Y509 seems not to be involved in the membrane retrieval of the cotransporter. [ABSTRACT FROM AUTHOR]

Published
1999
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31. Internalization of proximal tubular type II Na-Picotransporter by PTH: immunogold electron microscopy

Author

Traebert, M., Roth, J., Biber, J., Murer, H., and Kaissling, B.

Abstract

Physiological/pathophysiological alterations in proximal tubular Pireabsorption are associated with an altered brush-border membrane (BBM) expression of type II Na-Picotransporter molecules. Reduction is achieved by an internalization and lysosomal degradation and an increase in Pireabsorption by new synthesis and BBM insertion of type II Na-Picotransporters. In the present study, we investigated by immunohistochemistry and immunogold electron microscopy the routing of internalized rat type II Na-Picotransporters (NaPi-2). In kidney of rats on a chronic low-Pidiet, NaPi-2 is mainly localized in the BBM, in cisterns of the Golgi apparatus and sparsely also in large endocytotic vacuoles and lysosomes. Fifteen minutes after the injection of the 1–34 analog of parathyroid hormone (PTH), the amount of NaPi-2 was decreased in the BBM and increased in endocytotic vesicles. NaPi-2 molecules colocalized with horseradish peroxidase injected prior to the injection of PTH. Vesicles labeled for NaPi-2 were occasionally also labeled for clathrin or the adaptor protein AP2. We conclude that NaPi-2 molecules enter the subapical compartment from where NaPi-2-containing vesicles are segregated off and directed to the lysosomes. A clathrin-mediated pathway may contribute to the PTH-induced internalization of NaPi-2.

Published
2000
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32. Effect of Two Tyrosine Mutations on the Activity and Regulation of the Renal Type II Na/P i -Cotransporter Expressed in Oocytes

Author

Hernando, N., Traebert, M., Forster, I., Biber, J., and Murer, H.

Abstract

Abstract.: The rat renal type II Na/Pi-cotransporter (NaPi2), which is regulated by mechanisms involving endocytosis and lysosomal degradation, contains two sequences that show high homology with two tyrosine (Y)-based consensus motifs previously reported to be involved in such intracellular trafficking: GY402FAM matching the consensus sequence GYXXZ, and Y509RWF matching the motif YXXO. Mutations of any of these two Y nearly abolished the NaPi2 mediated 32P i -uptake after cRNA-injection into oocytes. The mechanisms underlying these defects are however different. Mutation of the Y402 results in a lack of glycosylation and reduced surface expression of the cotransporter, that are specific for the Y402 mutation since substitution of the neighboring F403 did not have any effect. The inhibitory effect of the Y509 mutation is related to a functional inactivation of the protein expressed in the plasma membrane; mutation of the neighboring R510 also led to a decrease in the cotransporter activity. Pharmacological activation of the protein kinase C cascade by DOG induced the retrieval of both wild-type (WT) as well as Y509 cotransporters from the oocyte plasma membrane. These data suggest that the Y402 is important for the surface expression whereas Y509 for the function of the type II Na/P i -cotransporter expressed in oocytes. Y509 seems not to be involved in the membrane retrieval of the cotransporter.

Published
1999
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34. An overview of the safety pharmacology society strategic plan.

Author

Pugsley, M.K., Authier, S., Koerner, J.E., Redfern, W.S., Markgraf, C.G., Brabham, T., Correll, K., Soloviev, M.V., Botchway, A., Engwall, M., Traebert, M., Valentin, J.-P., Mow, T.J., Greiter-Wilke, A., Leishman, D.J., and Vargas, H.M.

Subjects
*STRATEGIC planning, *PHARMACOLOGY, *PRIMARY education, *MEDICAL technology, *SCIENTIFIC community, *SAFETY
Abstract

Safety Pharmacology studies are conducted to characterize the confidence by which biologically active new chemical entities (NCE) may be anticipated as safe. Non-clinical safety pharmacology studies aim to detect and characterize potentially undesirable pharmacodynamic activities using an array of in silico, in vitro and in vivo animal models. While a broad spectrum of methodological innovation and advancement of the science occurs within the Safety Pharmacology Society, the society also focuses on partnerships with health authorities and technology providers and facilitates interaction with organizations of common interest such as pharmacology, physiology, neuroscience, cardiology and toxicology. Education remains a primary emphasis for the society through content derived from regional and annual meetings, webinars and publication of its works it seeks to inform the general scientific and regulatory community. In considering the future of safety pharmacology the society has developed a strategy to successfully navigate forward and not be mired in stagnation of the discipline. Strategy can be defined in numerous ways but generally involves establishing and setting goals, determining what actions are needed to achieve those goals, and mobilizing resources within the society to accomplish the actions. The discipline remains in rapid evolution and its coverage is certain to expand to provide better guidance for more systems in the next few years. This overview from the Safety Pharmacology Society will outline the strategic plan from 2016 to 2018 and beyond and provide insight into the future of the discipline which builds upon a previous strategic plan established in 2009. [ABSTRACT FROM AUTHOR]

Published
2019
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35. Morphological and morphometric analysis of paclitaxel and docetaxel-induced peripheral neuropathy in rats

Author

Martin Traebert, Alessandra Gilardini, Arianna Scuteri, Elke Persohn, G Giussani, Annalisa Canta, Lutz Mueller, S. Schoepfer, S Galbiati, Gabriella Nicolini, Guido Cavaletti, Francesca Lanzani, Persohn, E, Canta, A, Schoepfer, S, Traebert, M, Mueller, L, Gilardini, A, Galbiati, S, Nicolini, G, Scuteri, A, Lanzani, F, Giussani, G, and Cavaletti, G

Subjects
Cancer Research, Pathology, medicine.medical_specialty, Microtubules, Nerve Fibers, Myelinated, Nerve conduction velocity, paclitaxel, chemistry.chemical_compound, Nerve Growth Factor, neurotoxicity, medicine, Animals, docetaxel, Rats, Wistar, Pathological, Analysis of Variance, business.industry, Neurotoxicity, Peripheral Nervous System Diseases, Anatomical pathology, medicine.disease, Antineoplastic Agents, Phytogenic, Rats, Peripheral, Peripheral neuropathy, Oncology, Paclitaxel, chemistry, Docetaxel, Female, Taxoids, business, medicine.drug
Abstract

The experimentally induced neurotoxic effects of paclitaxel and docetaxel have never been compared, since no animal models of docetaxel peripheral neurotoxicity have yet been reported. In this experiment, we examined the effect of the chronic administration of these two taxanes in the Wistar rat using neurophysiological, neuropathological and morphometrical methods. Our results showed that both paclitaxel and docetaxel induced a significant, equally severe and dose-dependent reduction in nerve conduction velocity. On the contrary, the morphometric examination demonstrated that the effect on the nerve fibres was more severe after paclitaxel administration when the same schedule was used. However, the overall severity of the pathological changes was milder than expected on the basis of the neurophysiological results. Our results support the hypothesis that taxanes (and particularly docetaxel) may exert their neurotoxic effect not only on the microtubular system of the peripheral nerves, but also on other less obvious targets. © 2005 Elsevier Ltd. All rights reserved.

Published
2005
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36. Electrophysiological Changes in the Rabbit Ventricular Wedge and Human-Induced Pluripotent Stem-Cell Derived (IPSC) Cardiomyocytes Translate to Severe Arrhythmia Observed in a Canine Toxicology Study, Not Predicted by Standard In Vitro Ion Channel Assays.

Author

Brown AP, Friedrichs GS, Tang HM, Traebert M, Weber V, Yao N, and Yan GX

Subjects
Animals, Dogs, Humans, Rabbits, Male, Heart Ventricles drug effects, Ion Channels metabolism, Female, Myocytes, Cardiac drug effects, Induced Pluripotent Stem Cells drug effects, Arrhythmias, Cardiac chemically induced
Abstract

During drug discovery, small molecules are typically assayed in vitro for secondary pharmacology effects, which include ion channels relevant to cardiac electrophysiology. Compound A was an irreversible inhibitor of myeloperoxidase investigated for the treatment of peripheral artery disease. Oral doses in dogs at ≥5 mg/kg resulted in cardiac arrhythmias in a dose-dependent manner (at Cmax, free ≥1.53 μM) that progressed in severity with time. Nevertheless, a panel of 13 different cardiac ion channel (K, Na, and Ca) assays, including hERG, failed to identify pharmacologic risks of the molecule. Compound A and a related Compound B were evaluated for electrophysiological effects in the isolated rabbit ventricular wedge assay. Compounds A and B prolonged QT and Tp-e intervals at ≥1 and ≥.3 μM, respectively, and both prolonged QRS at ≥5 μM. Compound A produced early after depolarizations and premature ventricular complexes at ≥5 μM. These data indicate both compounds may be modulating hERG (I kr ) and Nav1.5 ion channels. In human IPSC cardiomyocytes, Compounds A and B prolonged field potential duration at ≥3 μM and induced cellular dysrhythmia at ≥10 and ≥3 μM, respectively. In a rat toxicology study, heart tissue: plasma concentration ratios for Compound A were ≥19X at 24 hours post-dose, indicating significant tissue distribution. In conclusion, in vitro ion channel assays may not always identify cardiovascular electrophysiological risks observed in vivo, which can be affected by tissue drug distribution. Risk for arrhythmia may increase with a "trappable" ion channel inhibitor, particularly if cardiac tissue drug levels achieve a critical threshold for pharmacologic effects., Competing Interests: Declaration of Conflicting InterestsThe author(s) declared the following potential conflicts of interest with respect to the research, authorship, and/or publication of this article: The authors Alan P. Brown, Greg Friedrichs, Hai-Ming Tang, Martin Traebert, Valerie Weber, and Nancy Yao declared the following potential conflicts of interest with respect to the research, authorship, and/or publication of this article: When these data were generated, these authors were employed by the Novartis Institutes for Biomedical Research. Gan-Xin Yan is employed by the Lankenau Institute and received funding from the Novartis Institutes for Biomedical Research to conduct the rabbit ventricular wedge assay.

Published
2024
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37. GABA A receptor-mediated seizure liabilities: a mixed-methods screening approach.

Author

Bampali K, Koniuszewski F, Vogel FD, Fabjan J, Andronis C, Lekka E, Virvillis V, Seidel T, Delaunois A, Royer L, Rolf MG, Giuliano C, Traebert M, Roussignol G, Fric-Bordat M, Mazelin-Winum L, Bryant SD, Langer T, and Ernst M

Subjects
Animals, Seizures chemically induced, Binding Sites, gamma-Aminobutyric Acid, Receptors, GABA-A chemistry, Receptors, GABA-A metabolism, Zebrafish
Abstract

GABA A receptors, members of the pentameric ligand-gated ion channel superfamily, are widely expressed in the central nervous system and mediate a broad range of pharmaco-toxicological effects including bidirectional changes to seizure threshold. Thus, detection of GABA A receptor-mediated seizure liabilities is a big, partly unmet need in early preclinical drug development. This is in part due to the plethora of allosteric binding sites that are present on different subtypes of GABA A receptors and the critical lack of screening methods that detect interactions with any of these sites. To improve in silico screening methods, we assembled an inventory of allosteric binding sites based on structural data. Pharmacophore models representing several of the binding sites were constructed. These models from the NeuroDeRisk IL Profiler were used for in silico screening of a compiled collection of drugs with known GABA A receptor interactions to generate testable hypotheses. Amoxapine was one of the hits identified and subjected to an array of in vitro assays to examine molecular and cellular effects on neuronal excitability and in vivo locomotor pattern changes in zebrafish larvae. An additional level of analysis for our compound collection is provided by pharmacovigilance alerts using FAERS data. Inspired by the Adverse Outcome Pathway framework, we postulate several candidate pathways leading from specific binding sites to acute seizure induction. The whole workflow can be utilized for any compound collection and should inform about GABA A receptor-mediated seizure risks more comprehensively compared to standard displacement screens, as it rests chiefly on functional data., (© 2023. The Author(s).)

Published
2023
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38. Comparative study for the IMI2-NeuroDeRisk project on microelectrode arrays to derisk drug-induced seizure liability.

Author

Zhai J, Traebert M, Zimmermann K, Delaunois A, Royer L, Salvagiotto G, Carlson C, and Lagrutta A

Subjects
Rats, Humans, Animals, Microelectrodes, Cells, Cultured, Seizures chemically induced, Neurons, Induced Pluripotent Stem Cells
Abstract

Introduction: In the framework of the IMI2-NeuroDeRisk consortium, three in vitro electrophysiology assays were compared to improve preclinical prediction of seizure-inducing liabilities., Methods: Two cell models, primary rat cortical neurons and human induced pluripotent stem cell (hiPSC)-derived glutamatergic neurons co-cultured with hiPSC-derived astrocytes were tested on two different microelectrode array (MEA) platforms, Maestro Pro (Axion Biosystems) and Multiwell-MEA-System (Multi Channel Systems), in three separate laboratories. Pentylenetetrazole (PTZ) and/or picrotoxin (PTX) were included in each plate as positive (n = 3-6 wells) and ≤0.2% DMSO was used as negative controls (n = 3-12 wells). In general, concentrations in a range of 0.1-30 μM were tested, anchored, when possible, on clinically relevant exposures (unbound C max ) were tested. Activity thresholds for drug-induced changes were set at 20%. To evaluate sensitivity, specificity and predictivity of the cell models, seizurogenic responses were defined as changes in 4 or more endpoints. Concentration dependence trends were also considered., Results: Neuronal activity of 33 compounds categorized as positive tool drugs, seizure-positive or seizure-negative compounds was evaluated. Acute drug effects (<60 min) were compared to baseline recordings. Time points < 15 min exhibited stronger, less variable responses to many of the test agents. For many compounds a reduction and cessation of neuronal activity was detected at higher test concentrations. There was not a single pattern of seizurogenic activity detected, even among tool compounds, likely due to different mechanisms of actions and/or off-target profiles. A post-hoc analysis focusing on changes indicative of neuronal excitation is presented., Conclusion: All cell models showed good sensitivity, ranging from 70 to 86%. Specificity ranged from 40 to 70%. Compared to more conventional measurements of evoked activity in hippocampal slices, these plate-based models provide higher throughput and the potential to study subacute responses. Yet, they may be limited by the random, spontaneous nature of their network activity., Competing Interests: Declaration of Competing Interest The authors declare no conflicts of interest. All co-authors are employed by pharmaceuticals or biotechnology companies interested in developing novel in vitro assays to improve human health and in assessing methodological improvements to this end, without bias. This research was conducted in the context of the IMI2: NeuroDeRisk non-competitive industry-academic consortium funded by the European Medicines Agency. Mention of trade names or commercial products does not constitute endorsement or recommendation for use., (Copyright © 2023 Merck Sharp & Dohme LLC., a subsidiary of Merck & Co., Inc., Rahway, NJ, USA, The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2023
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39. Optimization of a Class of Dihydrobenzofurane Analogs toward Orally Efficacious YAP-TEAD Protein-Protein Interaction Inhibitors.

Author

Sellner H, Chapeau E, Furet P, Voegtle M, Salem B, Le Douget M, Bordas V, Groell JM, Le Goff AL, Rouzet C, Wietlisbach T, Zimmermann T, McKenna J, Brocklehurst CE, Chène P, Wartmann M, Scheufler C, Kallen J, Williams G, Harlfinger S, Traebert M, Dumotier BM, Schmelzle T, and Soldermann N

Subjects
Animals, Mice, YAP-Signaling Proteins, Transcription Factors metabolism, Neoplasms
Abstract

The inhibition of the YAP-TEAD protein-protein interaction constitutes a promising therapeutic approach for the treatment of cancers linked to the dysregulation of the Hippo signaling pathway. The identification of a class of small molecules which potently inhibit the YAP-TEAD interaction by binding tightly to the Ω-loop pocket of TEAD has previously been communicated. This report details the further multi-parameter optimization of this class of compounds resulting in advanced analogs combining nanomolar cellular potency with a balanced ADME and off-target profile, and efficacy of these compounds in tumor bearing mice is demonstrated for the first time., (© 2023 Wiley-VCH GmbH.)

Published
2023
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40. Cardiotoxic Potential of Hydroxychloroquine, Chloroquine and Azithromycin in Adult Human Primary Cardiomyocytes.

Author

Jordaan P, Dumotier B, Traebert M, Miller PE, Ghetti A, Urban L, and Abi-Gerges N

Subjects
Adult, Aged, Aged, 80 and over, Antiviral Agents administration & dosage, Azithromycin administration & dosage, Azithromycin adverse effects, Chloroquine administration & dosage, Female, Humans, Hydroxychloroquine administration & dosage, Male, Middle Aged, Risk Assessment, SARS-CoV-2, United States, Antiviral Agents adverse effects, Cardiotoxicity, Chloroquine adverse effects, Hydroxychloroquine adverse effects, Myocytes, Cardiac drug effects, COVID-19 Drug Treatment
Abstract

Substantial efforts have been recently committed to develop coronavirus disease-2019 (COVID-19) medications, and Hydroxychloroquine alone or in combination with Azithromycin has been promoted as a repurposed treatment. Although these drugs may increase cardiac toxicity risk, cardiomyocyte mechanisms underlying this risk remain poorly understood in humans. Therefore, we evaluated the proarrhythmia risk and inotropic effects of these drugs in the cardiomyocyte contractility-based model of the human heart. We found Hydroxychloroquine to have a low proarrhythmia risk, whereas Chloroquine and Azithromycin were associated with high risk. Hydroxychloroquine proarrhythmia risk changed to high with low level of K+, whereas high level of Mg2+ protected against proarrhythmic effect of high Hydroxychloroquine concentrations. Moreover, therapeutic concentration of Hydroxychloroquine caused no enhancement of elevated temperature-induced proarrhythmia. Polytherapy of Hydroxychloroquine plus Azithromycin and sequential application of these drugs were also found to influence proarrhythmia risk categorization. Hydroxychloroquine proarrhythmia risk changed to high when combined with Azithromycin at therapeutic concentration. However, Hydroxychloroquine at therapeutic concentration impacted the cardiac safety profile of Azithromycin and its proarrhythmia risk only at concentrations above therapeutic level. We also report that Hydroxychloroquine and Chloroquine, but not Azithromycin, decreased contractility while exhibiting multi-ion channel block features, and Hydroxychloroquine's contractility effect was abolished by Azithromycin. Thus, this study has the potential to inform clinical studies evaluating repurposed therapies, including those in the COVID-19 context. Additionally, it demonstrates the translational value of the human cardiomyocyte contractility-based model as a key early discovery path to inform decisions on novel therapies for COVID-19, malaria, and inflammatory diseases., (© The Author(s) 2021. Published by Oxford University Press on behalf of the Society of Toxicology. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2021
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41. Time for a Fully Integrated Nonclinical-Clinical Risk Assessment to Streamline QT Prolongation Liability Determinations: A Pharma Industry Perspective.

Author

Vargas HM, Rolf MG, Wisialowski TA, Achanzar W, Bahinski A, Bass A, Benson CT, Chaudhary KW, Couvreur N, Dota C, Engwall MJ, Michael Foley C, Gallacher D, Greiter-Wilke A, Guillon JM, Guth B, Himmel HM, Hegele-Hartung C, Ito M, Jenkinson S, Chiba K, Lagrutta A, Levesque P, Martel E, Okai Y, Peri R, Pointon A, Qu Y, Teisman A, Traebert M, Yoshinaga T, Gintant GA, Leishman DJ, and Valentin JP

Subjects
Animals, Arrhythmias, Cardiac chemically induced, Drug Development methods, Drug Industry methods, Electrocardiography methods, Humans, Risk Assessment, Torsades de Pointes chemically induced, Drugs, Investigational adverse effects, Long QT Syndrome chemically induced
Abstract

Defining an appropriate and efficient assessment of drug-induced corrected QT interval (QTc) prolongation (a surrogate marker of torsades de pointes arrhythmia) remains a concern of drug developers and regulators worldwide. In use for over 15 years, the nonclinical International Council for Harmonization of Technical Requirements for Pharmaceuticals for Human Use (ICH) S7B and clinical ICH E14 guidances describe three core assays (S7B: in vitro hERG current & in vivo QTc studies; E14: thorough QT study) that are used to assess the potential of drugs to cause delayed ventricular repolarization. Incorporating these assays during nonclinical or human testing of novel compounds has led to a low prevalence of QTc-prolonging drugs in clinical trials and no new drugs having been removed from the marketplace due to unexpected QTc prolongation. Despite this success, nonclinical evaluations of delayed repolarization still minimally influence ICH E14-based strategies for assessing clinical QTc prolongation and defining proarrhythmic risk. In particular, the value of ICH S7B-based "double-negative" nonclinical findings (low risk for hERG block and in vivo QTc prolongation at relevant clinical exposures) is underappreciated. These nonclinical data have additional value in assessing the risk of clinical QTc prolongation when clinical evaluations are limited by heart rate changes, low drug exposures, or high-dose safety considerations. The time has come to meaningfully merge nonclinical and clinical data to enable a more comprehensive, but flexible, clinical risk assessment strategy for QTc monitoring discussed in updated ICH E14 Questions and Answers. Implementing a fully integrated nonclinical/clinical risk assessment for compounds with double-negative nonclinical findings in the context of a low prevalence of clinical QTc prolongation would relieve the burden of unnecessary clinical QTc studies and streamline drug development., (© 2020 Amgen, Inc.; Pfizer, Inc.; Takeda Inc.; Bayer; Novartis; Merck; Bristol-Myers Squibb; and Janssen. Clinical Pharmacology & Therapeutics published by Wiley Periodicals LLC on behalf of American Society for Clinical Pharmacology and Therapeutics.)

Published
2021
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42. Repolarization studies using human stem cell-derived cardiomyocytes: Validation studies and best practice recommendations.

Author

Gintant G, Kaushik EP, Feaster T, Stoelzle-Feix S, Kanda Y, Osada T, Smith G, Czysz K, Kettenhofen R, Lu HR, Cai B, Shi H, Herron TJ, Dang Q, Burton F, Pang L, Traebert M, Abassi Y, Pierson JB, and Blinova K

Subjects
Adult Stem Cells pathology, Adult Stem Cells physiology, Arrhythmias, Cardiac pathology, Arrhythmias, Cardiac physiopathology, Humans, Membrane Potentials drug effects, Membrane Potentials physiology, Myocytes, Cardiac pathology, Adult Stem Cells drug effects, Arrhythmias, Cardiac chemically induced, Cardiotoxins toxicity, Myocytes, Cardiac drug effects, Practice Guidelines as Topic standards, Validation Studies as Topic
Abstract

Human stem cell-derived cardiomyocytes (hSC-CMs) hold great promise as in vitro models to study the electrophysiological effects of novel drug candidates on human ventricular repolarization. Two recent large validation studies have demonstrated the ability of hSC-CMs to detect drug-induced delayed repolarization and "cellrhythmias" (interrupted repolarization or irregular spontaneous beating of myocytes) linked to Torsade-de-Pointes proarrhythmic risk. These (and other) studies have also revealed variability of electrophysiological responses attributable to differences in experimental approaches and experimenter, protocols, technology platforms used, and pharmacologic sensitivity of different human-derived models. Thus, when evaluating drug-induced repolarization effects, there is a need to consider 1) the advantages and disadvantages of different approaches, 2) the need for robust functional characterization of hSC-CM preparations to define "fit for purpose" applications, and 3) adopting standardized best practices to guide future studies with evolving hSC-CM preparations. Examples provided and suggested best practices are instructional in defining consistent, reproducible, and interpretable "fit for purpose" hSC-CM-based applications. Implementation of best practices should enhance the clinical translation of hSC-CM-based cell and tissue preparations in drug safety evaluations and support their growing role in regulatory filings., (Copyright © 2020 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2020
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43. Reprint of: Nonclinical species sensitivity to convulsions: An IQ DruSafe consortium working group initiative.

Author

DaSilva JK, Breidenbach L, Deats T, Li D, Treinen K, Dinklo T, Kervyn S, Teuns G, Traebert M, and Hempel K

Subjects
Animals, Drug Development methods, Drug Evaluation, Preclinical methods, Electroencephalography methods, Humans, Mice, Rats, Sensitivity and Specificity, Drug-Related Side Effects and Adverse Reactions etiology, Pharmaceutical Preparations administration & dosage, Seizures chemically induced
Abstract

Clinical development of compounds that carry a convulsion liability is typically limited by safety margins based on the most sensitive nonclinical species. To better understand differences in sensitivity to drug-induced convulsion of commonly used preclinical species, a survey was distributed amongst pharmaceutical companies through an IQ consortium (International Consortium for Innovation and Quality in Pharmaceutical Development) resulting in convulsion-related data on 80 unique compounds from 11 companies. The lowest free drug plasma concentration at which convulsions were observed and the no observed effect level for convulsions were compared between species to determine their relative sensitivity. Additionally, data were collected on other endpoints including use of electroencephalography, premonitory signs, convulsion type, the reason why development was stopped, and the highest development phase reached. The key outcomes were: (1) the dog was most often determined to be the most sensitive species by both non-exposure and exposure-based analyses, (2) there was not a clear sensitivity ranking of other species (NHP, rat and mouse), (3) CNS symptoms were frequently present at exposures that were not associated with convulsions, but no single reliable premonitory indicator of convulsion was identified, and (4) the lack of convulsions in the compounds that were tested in humans in this dataset may suggest that convulsion liability is well mitigated via current drug development strategies., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published
2020
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44. Is there a role for the no observed adverse effect level in safety pharmacology?

Author

Mow T, Andersen NK, Dragsted N, Lassen AB, Laursen M, Bass AS, Valentin JP, Markgraf C, Authier S, Baird TJ, Bhatt S, Traebert M, Leishman DJ, Jones D, and Curtis MJ

Subjects
Animals, Drug-Related Side Effects and Adverse Reactions, Humans, No-Observed-Adverse-Effect Level, Risk Assessment methods, Drugs, Investigational adverse effects, Pharmacology methods, Toxicity Tests methods
Abstract

In nonclinical toxicology the highest dose or exposure without test article-related adverse effects, known as the No Observed Adverse Effect Level (NOAEL), is a variable that may be determined. In safety pharmacology the vast majority of the endpoints measured are quantitative numeric functional endpoints such as changes in heart rate, blood pressure or respiratory frequency, endpoints that are usually not assessed using a defined framework of adversity. Therefore, we asked the question: is there a role for the NOAEL in safety pharmacology? To help answer this question, we conducted a survey via the Safety Pharmacology Society. We found that within safety pharmacology there is no formal definition of adversity and no guidance on defining NOAEL. We also found, perhaps unsurprisingly, there is no agreed rubric for using a NOAEL in safety pharmacology and we learned that the NOAEL is not a requirement in order to progress a new investigational drug through the regulatory process. Thus, a summary label such as NOAEL lacks nuance and disregards context in relation to the nature and the severity of the safety pharmacology findings. Consequently, defining 'adversity' and determining a NOAEL in safety pharmacology studies are not recommended since the range of functional endpoints investigated do not conform to a binary 'toxic/non-toxic' rubric. Focusing on describing test article-related effects on safety pharmacology endpoints, using reasoned arguments as part of an integrated risk assessment, will ensure that the clinical pharmacologists and regulatory bodies see a clear description of relevant findings at each dose or exposure level., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2020
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45. Topoisomerase Inhibitors Addressing Fluoroquinolone Resistance in Gram-Negative Bacteria.

Author

Skepper CK, Armstrong D, Balibar CJ, Bauer D, Bellamacina C, Benton BM, Bussiere D, De Pascale G, De Vicente J, Dean CR, Dhumale B, Fisher LM, Fuller J, Fulsunder M, Holder LM, Hu C, Kantariya B, Lapointe G, Leeds JA, Li X, Lu P, Lvov A, Ma S, Madhavan S, Malekar S, McKenney D, Mergo W, Metzger L, Moser HE, Mutnick D, Noeske J, Osborne C, Patel A, Patel D, Patel T, Prajapati K, Prosen KR, Reck F, Richie DL, Rico A, Sanderson MR, Satasia S, Sawyer WS, Selvarajah J, Shah N, Shanghavi K, Shu W, Thompson KV, Traebert M, Vala A, Vala L, Veselkov DA, Vo J, Wang M, Widya M, Williams SL, Xu Y, Yue Q, Zang R, Zhou B, and Rivkin A

Subjects
Anti-Bacterial Agents chemical synthesis, Anti-Bacterial Agents metabolism, Anti-Bacterial Agents toxicity, Binding Sites, Cell Line, Tumor, DNA Gyrase metabolism, DNA Topoisomerase IV antagonists & inhibitors, DNA Topoisomerase IV chemistry, Fluoroquinolones chemical synthesis, Fluoroquinolones metabolism, Fluoroquinolones toxicity, Gram-Negative Bacteria enzymology, Humans, Microbial Sensitivity Tests, Molecular Structure, Structure-Activity Relationship, Topoisomerase II Inhibitors chemical synthesis, Topoisomerase II Inhibitors metabolism, Topoisomerase II Inhibitors toxicity, Anti-Bacterial Agents pharmacology, Drug Resistance, Bacterial drug effects, Fluoroquinolones pharmacology, Gram-Negative Bacteria drug effects, Topoisomerase II Inhibitors pharmacology
Abstract

Since their discovery over 5 decades ago, quinolone antibiotics have found enormous success as broad spectrum agents that exert their activity through dual inhibition of bacterial DNA gyrase and topoisomerase IV. Increasing rates of resistance, driven largely by target-based mutations in the GyrA/ParC quinolone resistance determining region, have eroded the utility and threaten the future use of this vital class of antibiotics. Herein we describe the discovery and optimization of a series of 4-(aminomethyl)quinolin-2(1 H )-ones, exemplified by 34 , that inhibit bacterial DNA gyrase and topoisomerase IV and display potent activity against ciprofloxacin-resistant Gram-negative pathogens. X-ray crystallography reveals that 34 occupies the classical quinolone binding site in the topoisomerase IV-DNA cleavage complex but does not form significant contacts with residues in the quinolone resistance determining region.

Published
2020
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46. The roles of human induced pluripotent stem cell-derived cardiomyocytes in drug discovery: managing in vitro safety study expectations.

Author

Gintant G and Traebert M

Subjects
Adult, Animals, Cardiotoxicity etiology, Drug Discovery methods, Humans, Induced Pluripotent Stem Cells cytology, Myocytes, Cardiac pathology, Reproducibility of Results, Cardiotoxicity physiopathology, Drug Development methods, Myocytes, Cardiac drug effects
Abstract

Introduction: Human induced pluripotent stem cell-derived cardiomyocyte (hiPSC-CM) preparations are increasingly employed in in vitro cardiac safety studies to support candidate drug selection and regulatory submissions. The value of hiPSC-CM-based approaches depends on their ability to recapitulate the cellular mechanisms responsible for cardiotoxicity as well as overall assay characteristics (thus defining model performance). Different expectations at different drug development stages define the utility of these human-derived models., Areas Covered: Herein, the authors review the importance of understanding the functional characteristics of the evolving spectrum of simpler (2D) and more complex (co-cultures, 3D constructs, and engineered tissues) human-derived cardiac preparations, and how their performance may be evaluated based on analytical sensitivity, variability, and reproducibility in order to correctly match preparations with expectations of different safety assays. The need for consensus clinical examples of electrophysiologic, contractile, and structural cardiotoxicities essential for benchmarking human-derived models is also discussed., Expert Opinion: It is helpful (but not essential) that hiPSC-CMs preparations fully recapitulate pharmacological responses of native adult human ventricular myocytes when evaluating cardiotoxicity in vitro . Further calibration and model standardization (aligning concordance with clinical findings) are necessary to understand the role of hiPSC-CMs in guiding cardiotoxicity assessments in early drug discovery efforts.

Published
2020
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47. Nonclinical species sensitivity to convulsions: An IQ DruSafe consortium working group initiative.

Author

DaSilva JK, Breidenbach L, Deats T, Li D, Treinen K, Dinklo T, Kervyn S, Teuns G, Traebert M, and Hempel K

Subjects
Animals, Dogs, Drug Development, Electroencephalography, Haplorhini, Humans, Mice, Rats, Species Specificity, Surveys and Questionnaires, Drug Evaluation, Preclinical methods, Seizures chemically induced
Abstract

Clinical development of compounds that carry a convulsion liability is typically limited by safety margins based on the most sensitive nonclinical species. To better understand differences in sensitivity to drug-induced convulsion of commonly used nonclinical species, a survey was distributed amongst pharmaceutical companies through an IQ consortium (International Consortium for Innovation and Quality in Pharmaceutical Development) resulting in convulsion-related data on 80 unique compounds from 11 companies. The lowest free drug plasma concentration at which convulsions were observed and the no observed effect level for convulsions were compared between species to determine their relative sensitivity. Additionally, data were collected on other endpoints including use of electroencephalography, premonitory signs, convulsion type, the reason why development was stopped, and the highest development phase reached. The key outcomes were: (1) the dog was most often determined to be the most sensitive species by both non-exposure and exposure-based analyses, (2) there was not a clear sensitivity ranking of other species (NHP, rat and mouse), (3) CNS symptoms were frequently present at exposures that were not associated with convulsions, but no single reliable premonitory indicator of convulsion was identified, and (4) the lack of convulsions when compounds were tested in humans in this dataset may suggest that convulsion liability is well mitigated via current drug development strategies., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published
2020
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48. Neurofunctional test batteries in safety pharmacology - Current and emerging considerations for the drug development process.

Author

Jackson SJ, Authier S, Brohmann H, Goody SMG, Jones D, Prior H, Rosch A, Traebert M, Tse K, Valentin JP, and Milne A

Subjects
Animals, Central Nervous System drug effects, Drug Development legislation & jurisprudence, Drug Development statistics & numerical data, Drug Evaluation, Preclinical statistics & numerical data, Drug-Related Side Effects and Adverse Reactions prevention & control, Humans, Pharmacology legislation & jurisprudence, Research Design legislation & jurisprudence, Research Design statistics & numerical data, Surveys and Questionnaires, Drug Development methods, Drug Evaluation, Preclinical methods, Models, Animal, Pharmacology methods
Abstract

Regulatory guidelines recommend specialised safety pharmacology assessments in animals to characterise drug-induced effects on the central nervous system (CNS) prior to first-in-human trials, including the functional observational battery or Irwin test (here collectively termed neurofunctional assessments). These assessments effectively detect overtly neurotoxic drugs; however, the suitability of the in vivo assessments to readily detect more subtle drug effects on the nervous system has been questioned. A survey was formulated by an international expert working group convened by the (NC3Rs) to capture practice in CNS neurofunctional assessment tests and opinions on the perceived impact of in vivo test battery endpoints. Impact was defined as "the impact of measures alone/in combination on decision making in drug development or candidate selection when using the neurofunctional assessment". The results demonstrate that rodents are predominantly used for small molecule assessments, whereas non-rodents are frequently used to test biotherapeutics. Practice varied between respondents in terms of experimental design. Subsets of test battery endpoints were consistently considered highly impactful (e.g. convulsions, stereotypic behaviors); however, the perceived impact level of other endpoints varied depending whether drugs were designed for CNS targets. Many endpoints were considered to have no or minimal impact, whereas a subset of endpoints in CNS test batteries appears more impactful than others. A critical evaluation is required to assess whether the translational value of CNS in vivo safety pharmacology assessments could be increased by modifying or augmenting standard CNS test batteries. A revised approach to CNS safety assessment has the potential to reduce animal numbers without compromising patient safety., (Copyright © 2019 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2019
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49. Cross - site comparison of excitation-contraction coupling using impedance and field potential recordings in hiPSC cardiomyocytes.

Author

Bot CT, Juhasz K, Haeusermann F, Polonchuk L, Traebert M, and Stoelzle-Feix S

Subjects
Action Potentials drug effects, Action Potentials physiology, Cell Line, Cells, Cultured, Disopyramide pharmacology, Drug Evaluation, Preclinical methods, Drug Evaluation, Preclinical standards, Excitation Contraction Coupling physiology, Humans, Induced Pluripotent Stem Cells physiology, Myocytes, Cardiac physiology, Phenethylamines pharmacology, Potassium Channel Blockers pharmacology, Sulfonamides pharmacology, Anti-Arrhythmia Agents pharmacology, Electric Impedance, Excitation Contraction Coupling drug effects, Induced Pluripotent Stem Cells drug effects, Myocytes, Cardiac drug effects
Abstract

Introduction: Since 2005 the S7B and E14 guidances from ICH and FDA have been in place to assess a potential drug candidate's ability to cause long QT syndrome. To refine these guidelines, the FDA proposed the Comprehensive in vitro Proarrhythmia Assay (CiPA) initiative, where the assessment of drug effects on cardiac repolarization was one subject of investigation. Within the myocyte validation study, effects of pharmaceutical compounds on human induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CMs) were assessed and this article will focus on the evaluation of the proarrhythmic potential of 23 blinded drugs in four hiPSC-CM cell lines., Methods: Experiments were performed on the CardioExcyte 96 at different sites. A combined readout of contractility (via impedance) and electrophysiology endpoints (field potentials) was performed., Results: Our data demonstrates that hERG blockers such as dofetilide and further high risk categorized compounds prolong the field potential duration. Arrhythmia were detected in both impedance as well as field potential recordings. Intermediate risk compounds induced arrhythmia in almost all cases at the highest dose. In the case of low risk compounds, either a decrease in FPD max was observed, or not a significant change from pre-addition control values., Discussion: With exceptions, hiPSC-CMs are sensitive and exhibit at least 10% delayed or shortened repolarization from pre-addition values and arrhythmia after drug application and thus can provide predictive cardiac electrophysiology data. The baseline electrophysiological parameters vary between iPS cells from different sources, therefore positive and negative control recordings are recommended., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published
2018
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50. The Safety Pharmacology Society salary survey.

Author

Pugsley MK, Authier S, Brabham T, Soloviev M, Markgraf CG, Correll K, Traebert M, Greiter-Wilke A, Valentin JP, Vargas H, Botchway A, Leishman DJ, and Curtis MJ

Subjects
Adult, Female, Humans, Male, Middle Aged, Surveys and Questionnaires, Pharmacology economics, Salaries and Fringe Benefits statistics & numerical data, Societies economics, Toxicology economics
Abstract

Introduction: Safety pharmacology is a growing discipline with scientists broadly distributed across international geographical regions. This electronic salary survey is the first to be distributed amongst the entire Safety Pharmacology Society (SPS) membership. An electronic survey was sent to all members of the Society. Categorical survey questions assessed membership employment types, annual incomes, and professional certifications, along with other associated career attributes., Methods: This survey was distributed to the SPS membership that is comprised of safety pharmacologists, toxicologists and pharmacologists working globally in the pharmaceutical industry, at contract research organizations (CRO), regulatory agencies, and academia or within the technology provider industry. The survey was open for responses from December 2015 to March 2016., Results: The survey response rate was 28% (129/453). North America (68%) was the region with the largest number of respondents followed by Europe (28%). A preponderance of respondents (77%) had 12years of industry experience or more. 52% of responders earned annually between $40,000 and $120,000. As expected, salary was generally positively correlated with the number of years of experience in the industry or the educational background but there was no correlation between salary and the number of employee's directly supervised. The median salary was higher for male vs female respondents, but so was median age, indicative of no gender 'salary gap'., Discussion: Our 2016 SPS salary survey results showcased significant diversity regarding factors that can influence salary compensation within this discipline. These data provided insights into the complex global job market trends. They also revealed the level of scientific specialization embedded within the organization, presently uniquely positioned to support the dynamic career paths of current and future safety pharmacologists., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published
2017
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