The Pennsylvania State University The Graduate School Department of Comparative Medicine THE EFFECTS OF GENERAL ANESTHESIA ON URINARY BIOMARKERS OF KIDNEY INJURY: HEPATITIS A VIRUS CELLULAR RECEPTOR-1 (HAVCR1) AND LIPOCALIN-2 (LCN2) A Thesis in Laboratory Animal Medicine by Krista M. Hernon 2016 Krista M. Hernon Submitted in Partial Fulfillment of the Requirements for the Degree of Master of Science August 2016 The thesis of Krista M. Hernon was reviewed and approved* by the following: Ronald P. Wilson Professor, Department of Comparative and Laboratory Animal Medicine Professor and Chair, Department of Comparative Medicine Timothy K. Cooper Associate Professor, Department of Comparative Medicine Jenelle M. Izer Assistant Professor, Department of Comparative Medicine W. Brian Reeves Professor, Department of Medicine Thesis Advisor *Signatures are on file in the Graduate School iii ABSTRACT The continued development and ongoing use of urinary biomarkers for sensitive prediction of kidney injury in both preclinical and clinical studies is an active area of research. As new markers are identified and validated, it is important to utilize them in an effort to reevaluate the safety of medications delivered to animals during research. Given the frequent use of anesthesia in various animal models of disease, including in the evaluation of kidney injury, information regarding the effects of anesthesia alone is important in both guiding the appropriate selection of anesthetic agents, as well as in the interpretation of data. For this purpose, a prospective study utilizing male C57BL/6J (n=45) mice exposed to a single anesthetic episode of one of several commonly used anesthetics was developed. Three injectable agents (ketamine/xylazine, tiletamine-zolazepam, and pentobarbital) and two inhalational agents (isoflurane and sevoflurane) were evaluated, and urine was collected at various time points (0, 6, 12, 24, 36, 48, and 72 hr) following anesthesia. Expression of hepatitis A virus cellular receptor 1 (HAVCR1, AKA KIM-1) and lipocalin 2 (LCN2, AKA NGAL) were measured in the collected urine samples by ELISA. HAVCR1 levels were significantly elevated over baseline in the ketamine/xylazine group at 6 hr following recovery from anesthesia. The remaining groups did not increase over baseline during the first 24 hr following anesthesia. Conversely, LCN2 levels were significantly decreased from baseline at 6 hr following ketamine/xylazine anesthesia. Surprisingly, LCN2 levels steadily increased over the first 24 hrs following both isoflurane and sevoflurane anesthesia, with significant elevations present at 24 hr after sevoflurane. These results suggest an immediate effect of injectable anesthesia on HAVCR1 and LCN2, while the inhalational effect on these biomarkers increases with time. iv TABLE OF CONTENTS List of Figures .......................................................................................................................... vi List of Tables ........................................................................................................................... vii List of Abbreviations ............................................................................................................... viii Acknowledgements .................................................................................................................. x Chapter 1 Introduction ............................................................................................................. 1 Chapter 2 Materials and Methods ............................................................................................ 5 Animals ............................................................................................................................ 5 Equipment and Housing ................................................................................................... 6 Anesthesia Preparation, Administration, and Monitoring ................................................ 7 Ischemia-Reperfusion Injury Surgery .............................................................................. 9 Urine Collection and Storage ........................................................................................... 11 Euthanasia, Tissue Collection and Processing ................................................................. 11 Biomarker Quantification................................................................................................. 13 Renal Scoring ................................................................................................................... 13 Statistical Analysis ........................................................................................................... 14 Chapter 3 Results ..................................................................................................................... 16 Clinical Condition for Duration of Study ......................................................................... 16 Anesthetic Induction and Duration .................................................................................. 18 Serum Chemistry .............................................................................................................. 19 Urinary Biomarkers .......................................................................................................... 21 HAVCR1 .................................................................................................................. 21 LCN2 ........................................................................................................................ 23 Renal Histology ................................................................................................................ 25 Chapter 4 Discussion ............................................................................................................... 28 Chapter 5 Future Directions ..................................................................................................... 36 References ................................................................................................................................ 37 Appendix A Supplemental Information .................................................................................. 42 Acute Kidney Injury ......................................................................................................... 42 Biomarkers of Kidney Injury ........................................................................................... 44 Serum Creatinine ...................................................................................................... 44 Blood Urea Nitrogen ................................................................................................ 44 HAVCR1 .................................................................................................................. 45 v LCN2 ........................................................................................................................ 46 Anesthesia ........................................................................................................................ 48 Ketamine/Xylazine ................................................................................................... 48 Pentobarbital ............................................................................................................ 49 Tiletamine-zolazepam .............................................................................................. 49 Volatile Anesthetics: Isoflurane and Sevoflurane .................................................... 50 Appendix B Raw Data ............................................................................................................ 52 Urinary Biomarkers – Individual Mice ............................................................................ 52 HAVCR1 Group Averages .............................................................................................. 57 LCN2 Group Averages .................................................................................................... 58 vi LIST OF FIGURES Figure 1. Change in body weight over duration of the study. .................................................. 17 Figure 2. Serum BUN at endpoint ........................................................................................... 20 Figure 3. Serum Creatinine at endpoint. .................................................................................. 20 Figure 4. Urinary HAVCR1 expressed as a fold change from baseline. ................................. 22 Figure 5. Urinary LCN2 expressed as a fold change from baseline. ....................................... 24 Figure 6. Renal histology scores of individual mice at endpoint. ............................................ 26 Figure 7. Representative renal histology of postive control mice at endpoint. ........................ 27 vii LIST OF TABLES Table 1. Drug dilution and dosing scheme .............................................................................. 8 Table 2. Criteria for grading the severity of nephropathy ........................................................ 14 Table 3. Average time of induction and duration of injectable anesthesia .............................. 18 Table 4. Serum BUN and creatinine levels at endpoint ........................................................... 19 Table 5. Average urinary HAVCR1 fold change from baseline .............................................. 23 Table 6. Average urinary LCN2 fold change from baseline .................................................... 25 Table 7. Average renal histology scores at endpoint ............................................................... 26 viii LIST OF ABBREVIATIONS AAALAC Association for Assessment and Accreditation of Laboratory Animal Care, International AKI Acute Kidney Injury BUN Blood Urea Nitrogen Cis Cisplatin, control group name g Grams GFR Glomerular Filtration Rate HAVCR1 Hepatitis A Virus Cellular Receptor 1 hr Hour IACUC Institutional Animal Care and Use Committee IP Intraperitoneal Iso Isoflurane, experimental group name kg Kilogram KIM-1 Kidney Injury Molecule 1 KX Ketamine/Xylazine, experimental group name LCN2 Lipocalin 2 LORR Loss of Righting Reflex MBC Metabolic Cage min Minutes ml Milliliter NC Negative Control Group Name NGAL Neutrophil Gelatinase Associated Lipocalin Pent Pentobarbital, experimental group name ix RORR Return of Righting Reflex SEM Standard Error of the Mean Sevo Sevoflurane, experimental group name Sx Renal Ischemia-Reperfusion Surgery, positive control group name Tel Tiletamine/Zolazepam (Telazol®), experimental group name x ACKNOWLEDGEMENTS First I would like to thank my committee members Drs. Ronald Wilson, Timothy Cooper, Jenelle Izer and W. Brian Reeves for their patience, support, guidance, and expertise throughout the development and completion of this project. Your probing questions have sculpted the way I think about science, and have empowered me to ask deeper questions about research. Next, I would like to thank Allen Kunselman (Senior Instructor and Director of Biostatistical Consulting) and Emily Wasserman (Biostatistics Intern) of the Penn State Hershey College of Medicine, Public Health Sciences Department for their assistance in helping me to select the most appropriate statistical tests, and in understanding the interpretation of their results. I would also like to thank the Department of Comparative Medicine at Penn State Hershey for the facilities and financial support for this project. Our animal caretakers and technicians are irreplaceable in the care they provide to the animals within our institution. In addition, I am indebted to my resident-mates Drs. John Knouse, Rebecca LaFleur, and Regina Munden not only for your willingness to cover for me when I was performing research, but mostly for your friendship. I have learned so much from each of you, and am lucky to have you each in my life. A special thank you goes out to our laboratory support staff Ellen Mullady, Gretchen Snavely, Sherry Cooper, Nancy Harner, and Laura Cos. Your assistance and patience regarding blood sample and histologic processing was priceless. In addition, thank you to Lisa Willing for your laboratory support, technical expertise, and encouragement during long days. All of you ladies made every day a little brighter with your humor, kindness, and chocolate breaks. Finally, I could not have accomplished any of this without the ongoing love and support of my family. To my husband, Chris, thank you for your unrelenting support in allowing me to accomplish my goals. To my parents for raising me to believe I can do anything, and for making
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