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University of Oklahoma Health Sciences Center

13 ARTICLES PUBLISHED IN JoVE

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Immunology and Infection

Concurrent Quantification of Cellular and Extracellular Components of Biofilms
Sharukh S. Khajotia 1, Kristin H. Smart 1, Mpala Pilula 1,3, David M. Thompson 2
1Department of Dental Materials, College of Dentistry, University of Oklahoma Health Sciences Center, 2Department of Biostatistics and Epidemiology, College of Public Health, University of Oklahoma Health Sciences Center, 3Department of Biological Sciences, School of Mathematics and Natural Sciences, The Copperbelt University

A protocol for the concurrent quantification and comparison of three cellular and extracellular components within biofilms is presented. The methodology involves the use of confocal laser scanning microscopy, biofilm structural analysis and visualization software, and statistical analysis software.

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Developmental Biology

Corneal Tissue Engineering: An In Vitro Model of the Stromal-nerve Interactions of the Human Cornea
Rabab Sharif 1, Shrestha Priyadarsini 2, Tyler G. Rowsey 2, Jian-Xing Ma 3, Dimitrios Karamichos 1,2
1Department of Cell Biology, University of Oklahoma Health Sciences Center, 2Department of Ophthalmology/Dean McGee Eye Institute, University of Oklahoma Health Sciences Center, 3Department of Physiology, Harold Hamm Diabetes Center, University of Oklahoma Health Sciences Center

This protocol describes a novel three-dimensional in vitro model, where corneal stromal cells and differentiated neuronal cells are cultured together to assist in the examination and understanding of the interactions of the two cell types.

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Genetics

Profiling DNA Replication Timing Using Zebrafish as an In Vivo Model System
Joseph C. Siefert 1,2, Emily A. Clowdus 1,2, Duane Goins 1, Amnon Koren 3, Christopher L. Sansam 1,2
1Cell Cycle and Cancer Biology Research Program, Oklahoma Medical Research Foundation, 2Department of Cell Biology, University of Oklahoma Health Sciences Center, 3Department of Molecular Biology and Genetics, Cornell University

Zebrafish were recently used as an in vivo model system to study DNA replication timing during development. Here is detailed the protocols for using zebrafish embryos to profile replication timing. This protocol can be easily adapted to study replication timing in mutants, individual cell types, disease models, and other species.

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Medicine

Creation of Colonic Anastomosis in Mice
Cullen K McCarthy 1, Paul K McGaha 1, Noah S Rozich 1, Nathaniel A Yokell 1, Jason S Lees 1, William L Berry 1
1Department of Surgery, University of Oklahoma Health Sciences Center

Anastomotic leak or breakdown after surgery is a major cause of postoperative morbidity and mortality. Our surgery for creating a colonic anastomosis is a reliable and reproducible method for studying the healing mechanisms of anastomoses.

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Medicine

Isolating Malignant and Non-Malignant B Cells from lck:eGFP Zebrafish
Jessica Burroughs-Garcia 1, Ameera Hasan *1, Gilseung Park *1, Chiara Borga 1, J. Kimble Frazer 1
1Section of Pediatric Hematology-Oncology, Department of Pediatrics, University of Oklahoma Health Sciences Center

Transgenic lck:eGFP zebrafish express GFP highly in T lymphocytes, and have been used to study T cell development and acute lymphoblastic leukemia. This line can be used to study B cells, which express lck at lower levels. This protocol describes purification of malignant and non-malignant B cells from lck:eGFP zebrafish.

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Immunology and Infection

Separation of the Cell Envelope for Gram-negative Bacteria into Inner and Outer Membrane Fractions with Technical Adjustments for Acinetobacter baumannii
Melina B. Cian *1, Nicole P. Giordano *1, Joshua A. Mettlach *1, Keaton E. Minor *1, Zachary D. Dalebroux 1
1Department of Microbiology and Immunology, University of Oklahoma Health Sciences Center

Gram-negative bacteria produce two spatially segregated membranes. The outer membrane is partitioned from the inner membrane by a periplasm and a peptidoglycan layer. The ability to isolate the dual bilayers of these microbes has been critical for understanding their physiology and pathogenesis.

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Immunology and Infection

Intravitreal Injection and Quantitation of Infection Parameters in a Mouse Model of Bacterial Endophthalmitis
Md Huzzatul Mursalin *1,2, Erin Livingston *1, Phillip S. Coburn 2,3, Frederick C. Miller 4, Roger Astley 2,3, Michelle C. Callegan 1,2,3
1Department of Microbiology and Immunology, University of Oklahoma Health Sciences Center, 2Department of Ophthalmology, Dean McGee Eye Institute, 3Dean McGee Eye Institute, 4Department of Cell Biology and Department of Family and Preventive Medicine, University of Oklahoma Health Sciences Center

We describe here a method of intravitreal injection and subsequent bacterial quantitation in mouse model of bacterial endophthalmitis. This protocol can be extended for measuring host immune responses and bacterial and host gene expression.

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Medicine

Effect of Hyaluronic Acid 35 kDa on an In Vitro Model of Preterm Small Intestinal Injury and Healing Using Enteroid-Derived Monolayers
Adam Wilson *1, Kathryn Burge *1, Jeffrey Eckert 1, Hala Chaaban 1
1Department of Pediatrics, Division of Neonatal-Perinatal Medicine, University of Oklahoma Health Sciences Center

This protocol describes a method to establish and perform a scratch wound assay on two-dimensional (2D) monolayers derived from three-dimensional (3D) enteroids isolated from non-human primate ileum.

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Medicine

In Vitro Apical-Out Enteroid Model of Necrotizing Enterocolitis
Kathryn Burge 1, Adam Wilson 1, Hala Chaaban 1
1Department of Pediatrics, Division of Neonatal-Perinatal Medicine, University of Oklahoma Health Sciences Center and Center for Pregnancy and Newborn Health

This protocol describes an apical-out necrotizing enterocolitis (NEC)-in-a-dish model utilizing small intestinal enteroids with reversed polarity, allowing access to the apical surface. We provide an immunofluorescent staining protocol to detect NEC-related epithelial disruption and a method to determine the viability of apical-out enteroids subjected to the NEC-in-a-dish protocol.

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Medicine

Early Pathological and Magnetic Resonance Detection of Cerebral Injury Using a Rat Model of Neonatal Hypoxic Ischemic Encephalopathy
Michael G. Melek 1, Rheal Towner 2,3, Johannes Kung 1, Debra Saunders 4, Michelle Zales 3,4, Faizah Bhatti 1,3
1Department of Pediatrics, University of Oklahoma Health Sciences Center, 2Department of Chemistry, University of Prince Edward Island, 3Center for Neuroscience, University of Oklahoma Health Sciences Center, 4Oklahoma Medical Research Foundation

The present protocol describes a rodent model of newborn hypoxic-ischemic injury for identifying early changes in cerebral tissue by gross morphology and magnetic resonance imaging. This has benefits over existing models, which can be used to study late injury but do not allow the evaluation of reproducible early changes.

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Immunology and Infection

Determining Intestinal Permeability Using Lucifer Yellow in an Apical-Out Enteroid Model
Heather Liebe 1, Camille Schlegel 2, Xue Cai 2, Alena Golubkova 1, Tyler Leiva 1, William L. Berry 3, Catherine J. Hunter 1
1Division of Pediatric Surgery, Oklahoma Children's Hospital, 2Oklahoma University Health Sciences Center, 3Department of Surgery, University of Oklahoma Health Sciences Center

The present protocol outlines a method that utilizes lucifer yellow in an apical-out enteroid model to determine intestinal permeability. This method can be used to determine paracellular permeability in enteroids that model inflammatory bowel diseases such as necrotizing enterocolitis.

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Medicine

Hemodynamic Precision in the Neonatal Intensive Care Unit using Targeted Neonatal Echocardiography
Marjorie Makoni *1, Trassanee Chatmethakul *1,2, Regan Giesinger 2, Patrick J. McNamara 2
1Department of Pediatrics, Division of Neonatal-Perinatal Medicine, University of Oklahoma Health Sciences Center, 2University of Iowa Department of Pediatrics, Division of Neonatology, University of Iowa

Presented here is a protocol to perform comprehensive neonatal echocardiography by trained neonatologists in the neonatal intensive care unit. The trained individuals provide longitudinal assessments of heart function, systemic and pulmonary hemodynamics in a consultative role. The manuscript also describes the requirements to become a fully trained neonatal hemodynamics specialist.

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Developmental Biology

Translational 3D-Cell Culture Model to Assess Hyperoxia Effects on Human Neonatal Airway Epithelial Cells
Cynthia M. Carter 1, Maxwell M. Mathias 1, Lora Bailey-Downs 1, Trent E. Tipple 1, Peter F. Vitiello 1, Matthew S. Walters 2, Abhrajit Ganguly 1
1Department of Pediatrics, Section of Neonatal-Perinatal Medicine, Center for Pregnancy and Newborn Health, University of Oklahoma Health Sciences Center, 2Department of Medicine, Section of Pulmonary, Critical Care & Sleep Medicine, University of Oklahoma Health Sciences Center

We describe a protocol to establish an air-liquid interface (ALI) culture model utilizing neonatal tracheal airway epithelial cells (nTAEC) and perform physiologically relevant hyperoxia exposure to study the effect of atmospheric-induced oxidative stress on cells derived from the developing neonatal airway surface epithelium.

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