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Berridge BR, Schultze AE, Heyen JR, Searfoss GH, Sarazan RD. Technological Advances in Cardiovascular Safety Assessment Decrease Preclinical Animal Use and Improve Clinical Relevance. ILAR J 2017; 57:120-132. [PMID: 28053066 DOI: 10.1093/ilar/ilw028] [Citation(s) in RCA: 8] [Impact Index Per Article: 1.1] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 03/11/2016] [Revised: 10/09/2016] [Indexed: 12/11/2022] Open
Abstract
Cardiovascular (CV) safety liabilities are significant concerns for drug developers and preclinical animal studies are predominately where those liabilities are characterized before patient exposures. Steady progress in technology and laboratory capabilities is enabling a more refined and informative use of animals in those studies. The application of surgically implantable and telemetered instrumentation in the acute assessment of drug effects on CV function has significantly improved historical approaches that involved anesthetized or restrained animals. More chronically instrumented animals and application of common clinical imaging assessments like echocardiography and MRI extend functional and in-life structural assessments into the repeat-dose setting. A growing portfolio of circulating CV biomarkers is allowing longitudinal and repeated measures of cardiac and vascular injury and dysfunction better informing an understanding of temporal pathogenesis and allowing earlier detection of undesirable effects. In vitro modeling systems of the past were limited by their lack of biological relevance to the in vivo human condition. Advances in stem cell technology and more complex in vitro modeling platforms are quickly creating more opportunity to supplant animals in our earliest assessments for liabilities. Continuing improvement in our capabilities in both animal and nonanimal modeling should support a steady decrease in animal use for primary liability identification and optimize the translational relevance of the animal studies we continue to do.
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Affiliation(s)
- Brian R Berridge
- Brian R. Berridge, DVM, PhD, is a Senior GSK Fellow and Head of Worldwide Animal Research Strategy at GlaxoSmithKline in King of Prussia, Pennsylvania. A. Eric Schultze, DVM, PhD, is a Senior Research Advisor-Pathologist at Lilly Research Laboratories in Indianapolis, Indiana. Jon R. Heyen, MS, is a Senior Principal Scientist at Pfizer in La Jolla, California. George H. Searfoss, MS, is a Consultant Toxicologist at Lilly Research Laboratories in Indianapolis, Indiana. R. Dustan Sarazan, DVM, PhD, is a cardiovascular consultant currently residing in Rhinelander, Wisconsin
| | - A Eric Schultze
- Brian R. Berridge, DVM, PhD, is a Senior GSK Fellow and Head of Worldwide Animal Research Strategy at GlaxoSmithKline in King of Prussia, Pennsylvania. A. Eric Schultze, DVM, PhD, is a Senior Research Advisor-Pathologist at Lilly Research Laboratories in Indianapolis, Indiana. Jon R. Heyen, MS, is a Senior Principal Scientist at Pfizer in La Jolla, California. George H. Searfoss, MS, is a Consultant Toxicologist at Lilly Research Laboratories in Indianapolis, Indiana. R. Dustan Sarazan, DVM, PhD, is a cardiovascular consultant currently residing in Rhinelander, Wisconsin
| | - Jon R Heyen
- Brian R. Berridge, DVM, PhD, is a Senior GSK Fellow and Head of Worldwide Animal Research Strategy at GlaxoSmithKline in King of Prussia, Pennsylvania. A. Eric Schultze, DVM, PhD, is a Senior Research Advisor-Pathologist at Lilly Research Laboratories in Indianapolis, Indiana. Jon R. Heyen, MS, is a Senior Principal Scientist at Pfizer in La Jolla, California. George H. Searfoss, MS, is a Consultant Toxicologist at Lilly Research Laboratories in Indianapolis, Indiana. R. Dustan Sarazan, DVM, PhD, is a cardiovascular consultant currently residing in Rhinelander, Wisconsin
| | - George H Searfoss
- Brian R. Berridge, DVM, PhD, is a Senior GSK Fellow and Head of Worldwide Animal Research Strategy at GlaxoSmithKline in King of Prussia, Pennsylvania. A. Eric Schultze, DVM, PhD, is a Senior Research Advisor-Pathologist at Lilly Research Laboratories in Indianapolis, Indiana. Jon R. Heyen, MS, is a Senior Principal Scientist at Pfizer in La Jolla, California. George H. Searfoss, MS, is a Consultant Toxicologist at Lilly Research Laboratories in Indianapolis, Indiana. R. Dustan Sarazan, DVM, PhD, is a cardiovascular consultant currently residing in Rhinelander, Wisconsin
| | - R Dustan Sarazan
- Brian R. Berridge, DVM, PhD, is a Senior GSK Fellow and Head of Worldwide Animal Research Strategy at GlaxoSmithKline in King of Prussia, Pennsylvania. A. Eric Schultze, DVM, PhD, is a Senior Research Advisor-Pathologist at Lilly Research Laboratories in Indianapolis, Indiana. Jon R. Heyen, MS, is a Senior Principal Scientist at Pfizer in La Jolla, California. George H. Searfoss, MS, is a Consultant Toxicologist at Lilly Research Laboratories in Indianapolis, Indiana. R. Dustan Sarazan, DVM, PhD, is a cardiovascular consultant currently residing in Rhinelander, Wisconsin
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Verschuren L, Wielinga PY, Kelder T, Radonjic M, Salic K, Kleemann R, van Ommen B, Kooistra T. A systems biology approach to understand the pathophysiological mechanisms of cardiac pathological hypertrophy associated with rosiglitazone. BMC Med Genomics 2014; 7:35. [PMID: 24938300 PMCID: PMC4072889 DOI: 10.1186/1755-8794-7-35] [Citation(s) in RCA: 17] [Impact Index Per Article: 1.7] [Reference Citation Analysis] [Abstract] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 11/05/2013] [Accepted: 05/16/2014] [Indexed: 01/01/2023] Open
Abstract
Background Cardiac pathological hypertrophy is associated with a significantly increased risk of coronary heart disease and has been observed in diabetic patients treated with rosiglitazone whereas most published studies do not suggest a similar increase in risk of cardiovascular events in pioglitazone-treated diabetic subjects. This study sought to understand the pathophysiological and molecular mechanisms underlying the disparate cardiovascular effects of rosiglitazone and pioglitazone and yield knowledge as to the causative nature of rosiglitazone-associated cardiac hypertrophy. Methods We used a high-fat diet-induced pre-diabetic mouse model to allow bioinformatics analysis of the transcriptome of the heart of mice treated with rosiglitazone or pioglitazone. Results Our data show that rosiglitazone and pioglitazone both markedly improved systemic markers for glucose homeostasis, fasting plasma glucose and insulin, and the urinary excretion of albumin. Only rosiglitazone, but not pioglitazone, tended to increase atherosclerosis and induced pathological cardiac hypertrophy, based on a significant increase in heart weight and increased expression of the validated markers, ANP and BNP. Functional enrichment analysis of the rosiglitazone-specific cardiac gene expression suggests that a shift in cardiac energy metabolism, in particular decreased fatty acid oxidation toward increased glucose utilization as indicated by down regulation of relevant PPARα and PGC1α target genes. This underlies the rosiglitazone-associated pathological hypertrophic cardiac phenotype in the current study. Conclusion Application of a systems biology approach uncovered a shift in energy metabolism by rosiglitazone that may impact cardiac pathological hypertrophy.
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Affiliation(s)
- Lars Verschuren
- TNO, Department Microbiology and Systems Biology, P,O, Box 360, 3704 AJ Zeist, The Netherlands.
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Mikaelian I, Dunn ME, Mould DR, Hirkaler G, Geng W, Coluccio D, Nicklaus R, Singer T, Reddy M. Differential analysis of transient increases of serum cTnI in response to handling in rats. Pharmacol Res Perspect 2013; 1:e00011. [PMID: 25505566 PMCID: PMC4186429 DOI: 10.1002/prp2.11] [Citation(s) in RCA: 4] [Impact Index Per Article: 0.4] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 06/07/2013] [Revised: 08/25/2013] [Accepted: 09/05/2013] [Indexed: 11/17/2022] Open
Abstract
Serum cardiac troponins are the key biomarkers of myocardial necrosis in humans and in preclinical species. The use of ultrasensitive assays for serum cardiac troponin I (cTnI) as a biomarker in safety studies is hampered by interindividual differences. In this study, we investigated the effect of handling procedures on serum cTnI and explored modeling and simulation approaches to mitigate the impact of these interindividual differences. Femoral-catheterized male Crl:WI(Han) rats (n = 16/group) were left undisturbed in their cages with no handling; subjected to 5 min of isoflurane/O2 anesthesia (A); or placed into a rodent restrainer followed by simulated tail vein injection (RR). Serum cTnI concentrations were assessed over a 24-h period using an ultrasensitive assay, and the study was repeated for confirmation. The mean serum cTnI concentration pre-procedure was 4.2 pg/mL, and remained stable throughout the duration of the study in the rats submitted to the A procedure. Serum cTnI concentrations increased transiently after the RR procedure with a median time to maximum concentration (Tmax), of 1 and 2 h and a mean maximum value concentration (Cmax), of 53.0 and 7.2 pg/mL in the initial and repeat studies, respectively. A population pharmacodynamic model identified interindividual, procedure- and study-specific effects on serum cTnI concentrations in rats. It is concluded that a modeling and simulation approach more appropriately describes and statistically analyzes the data obtained with this ultrasensitive assays.
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Affiliation(s)
| | | | - Diane R Mould
- Projections Research Inc. Phoenixville, Pennsylvania, 19460
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Dunn ME, Coluccio D, Zabka TS, Gopalakrishnan G, Hirkaler G, Geng W, Nicklaus R, Lipshultz SE, Doessegger L, Saladino BH, Singer T, Mikaelian I. Myocardial mononuclear cell infiltrates are not associated with increased serum cardiac troponin I in cynomolgus monkeys. Toxicol Pathol 2012; 40:647-50. [PMID: 22298795 DOI: 10.1177/0192623311436176] [Citation(s) in RCA: 9] [Impact Index Per Article: 0.8] [Reference Citation Analysis] [Abstract] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/17/2022]
Abstract
Myocardial mononuclear cell infiltrate is a spontaneous cardiac finding commonly identified in laboratory cynomolgus monkeys. The infiltrates are predominantly composed of macrophages with lesser lymphocytes and are not typically associated with histologically detectable cardiomyocyte degeneration. These infiltrates are of concern because they confound interpretation of test article-related histopathology findings in nonclinical safety toxicology studies. The interpretation of safety studies would be simplified by a biomarker that could identify myocardial infiltrates prior to animal placement on study. We hypothesized that monkeys with myocardial mononuclear cell infiltrates could be identified before necropsy using an ultrasensitive immunoassay for cardiac troponin I (cTnI). Serum cTnI concentrations in monkeys with myocardial infiltrates were not higher than those in monkeys without infiltrates at any of the sampling times before and on the day of necropsy. Increased serum cTnI levels are not suitable for screening monkeys with myocardial mononuclear cell infiltrates before placement in the study.
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Affiliation(s)
- Michael E Dunn
- Department of Non-Clinical Safety, Hoffmann-La Roche, Inc., Nutley, New Jersey 07110, USA.
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Dunn ME, Coluccio D, Hirkaler G, Mikaelian I, Nicklaus R, Lipshultz SE, Doessegger L, Reddy M, Singer T, Geng W. The Complete Pharmacokinetic Profile of Serum Cardiac Troponin I in the Rat and the Dog. Toxicol Sci 2011; 123:368-73. [DOI: 10.1093/toxsci/kfr190] [Citation(s) in RCA: 34] [Impact Index Per Article: 2.6] [Reference Citation Analysis] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/13/2022] Open
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