Sequential Photo-bleaching to Delineate Single Schwann Cells at the Neuromuscular Junction

JoVE 4460 1/11/2013

Monika S. Brill¹, Petar Marinković¹, Thomas Misgeld^1,2,3,4

¹Lehrstuhl für Biomolekulare Sensoren, Technische Universität München, ²Center for Integrated Protein Science (Munich) at the Institute of Neuroscience, Technische Universität München, ³TUM Institute for Advanced Study and German Center for Neurodegenerative Diseases, Technische Universität München, ⁴Munich Cluster for Systems Neurology (SyNergy), Technische Universität München

Visualizing individual cells in densely packed tissues, such as terminal Schwann cells (SCs) at neuromuscular junctions (NMJs), is challenging. "Sequential photo-bleaching" allows delineating single terminal SCs, for instance in the triangularis sterni muscle explant, a convenient nerve-muscle preparation, where sequential bleaching can be combined with time-lapse imaging and post-hoc immunostainings.

Paired Patch Clamp Recordings from Motor-neuron and Target Skeletal Muscle in Zebrafish

JoVE 2351 11/20/2010

Hua Wen, Paul Brehm

Vollum Institute, Oregon Health and Sciences University

Larval zebrafish represent the first vertebrate model system to allow simultaneous patch clamp recording from a spinal motor-neuron and target skeletal muscle. This video demonstrates the microscopic methods used to identify a segmental CaP motor-neuron and target muscle cells as well as the methodologies for recording from each cell type.

Reproducible Mouse Sciatic Nerve Crush and Subsequent Assessment of Regeneration by Whole Mount Muscle Analysis

JoVE 3606 2/22/2012

Andrew R. Bauder, Toby A. Ferguson

Center for Neural Repair and Rehabilitation, Temple University

In this report we describe a method to crush mouse sciatic nerve. This method uses readily available hemostatic forceps and easily and reproducibly produces complete sciatic nerve crush. In addition, we describe a method to prepare muscle whole mounts suitable for analysis of nerve regeneration after sciatic nerve crush.

Electrophysiological Methods for Recording Synaptic Potentials from the NMJ of Drosophila Larvae

JoVE 1109 2/06/2009

Wendy Imlach, Brian D. McCabe

Department of Physiology and Cellular Biophysics, Columbia University College of Physicians and Surgeons

Here we describe electrophysiological methods for measuring synaptic transmission at the neuromuscular junction of Drosophila larva. Evoked release is initiated artificially by stimulating the motor neuron axons, and transmission through the NMJ can be measured by the postsynaptic response evoked in the muscle.

Imaging Pheromone Sensing in a Mouse Vomeronasal Acute Tissue Slice Preparation

JoVE 3311 12/06/2011

Julien Brechbühl¹, Gaëlle Luyet¹, Fabian Moine¹, Ivan Rodriguez², Marie-Christine Broillet¹

¹Department of Pharmacology and Toxicology, University of Lausanne, ²Department of Genetics and Evolution, University of Geneva

In mice, the ability to detect pheromones is principally mediated by the vomeronasal organ (VNO). Here, an acute tissue slice preparation of VNO for performing calcium imaging is described. This physiological approach allows observations of subpopulations and/or individual neurons in a living tissue and is convenient for receptor-ligand identification.

Anterior Cervical Discectomy and Fusion in the Ovine Model

JoVE 1548 10/05/2009

Tony Goldschlager^1,2, Jeffrey V. Rosenfeld², Ian R. Young¹, Graham Jenkin¹

¹Monash Immunology and Stem Cell Laboratories (MISCL), Monash University, ²Department of Surgery, Monash University

This video demonstrates the technique of anterior cervical discectomy and fusion in the ovine model.

Electroporation of Craniofacial Mesenchyme

JoVE 3381 11/28/2011

Jacqueline M. Tabler, Karen J. Liu

Department of Craniofacial Development, King's College London

Craniofacial cartilages develop in close contact with other tissues and are difficult to manipulate in live animals. We are using electroporation to deliver molecular tools during growth of the craniofacial skeleton while bypassing early embryonic effects. This approach will allow us to efficiently test candidate molecules in vivo.

Design of a Biaxial Mechanical Loading Bioreactor for Tissue Engineering

JoVE 50387 4/25/2013

Bahar Bilgen^1,2, Danielle Chu³, Robert Stefani¹, Roy K. Aaron^1,2

¹Department of Orthopaedics, The Warren Alpert Brown Medical School of Brown University and the Rhode Island Hospital, ²Center for Restorative and Regenerative Medicine, VA Medical Center, Providence, RI, ³University of Texas Southwestern Medical Center

We designed a novel mechanical loading bioreactor that can apply uniaxial or biaxial mechanical strain to a cartilage biocomposite prior to transplantation into an articular cartilage defect.

Selective Tracing of Auditory Fibers in the Avian Embryonic Vestibulocochlear Nerve

JoVE 50305 3/18/2013

Michelle R. Allen-Sharpley, Michelle Tjia, Karina S. Cramer

Department of Neurobiology and Behavior, University of California, Irvine

Here we describe a microdissection technique followed by fluorescent dye injection into the acoustic ganglion of early chick embryos for selective tracing of auditory axon fibers in the nerve and hindbrain.

Controlled Cervical Laceration Injury in Mice

JoVE 50030 5/09/2013

Yi Ping Zhang¹, Melissa J. Walker², Lisa B. E. Shields¹, Xiaofei Wang², Chandler L. Walker², Xiao-Ming Xu², Christopher B. Shields¹

¹Norton Neuroscience Institute, Norton Healthcare, ²Spinal Cord and Brain Injury Research Group, Stark Neurosciences Research Institute, Department of Neurological Surgery and Goodman and Campbell Brain and Spine, Medical Neuroscience Graduate Program, and Department of Anatomy and Cell Biology, Indiana University School of Medicine

A novel technique to create a reproducible in vivo model of cervical spinal cord laceration injury in the mouse is described. This technique is based on spine stabilization by fixation of the cervical facets and laceration of the spinal cord using an oscillating blade with an accuracy of ±0.01 mm.

Extraction of the EPP Component from the Surface EMG

JoVE 1653 12/16/2009

Toshifumi Kumai

Graduate School of Oral Medicine, Matsumoto Dental University

The endplate potential (EPP) component can be extracted from the surface EMG using a digital filter. The extracted EPP shows oscillation with a frequency of about 30 Hz.

Simultaneous Pre- and Post-synaptic Electrophysiological Recording from Xenopus Nerve-muscle Co-cultures

JoVE 50253 3/11/2013

Bruce Yazejian¹, Rita M. Yazejian¹, Rachel Einarsson², Alan D. Grinnell¹

¹Department of Physiology, David Geffen School of Medicine at UCLA, ²Natural Science Division, Pepperdine University

This video demonstrates the procedures used to grow primary cultures of embryonic Xenopus nerve and muscle cells and the usefulness of this preparation for making simultaneous pre- and post-synaptic patch clamp recordings.

Mechanical Stimulation of Chondrocyte-agarose Hydrogels

JoVE 4229 10/27/2012

James A. Kaupp¹, Joanna F. Weber¹, Stephen D. Waldman^1,2

¹Department of Mechanical and Materials Engineering, Queen's University, ²Department of Chemical Engineering, Queen's University

The biosynthesis of cartilaginous extracellular matrix by chondrocytes can be affected by application of mechanical stimuli. This method describes the technique of applying dynamic compressive strains to chondrocytes encapsulated in 3D constructs and the evaluation of induced changes in chondrocyte metabolism.

Ex utero Electroporation and Whole Hemisphere Explants: A Simple Experimental Method for Studies of Early Cortical Development

JoVE 50271 4/03/2013

Anna J. Nichols*, Ryan S. O'Dell*, Teresa A. Powrozek*, Eric C. Olson

Department of Neuroscience and Physiology, SUNY Upstate Medical University

This protocol describes an improved explant procedure that involves ex utero electroporation, dissection and culture of entire cerebral hemispheres from the embryonic mouse. The preparation facilitates pharmacological studies and assays of gene function during early cortical development.

Isolation of Functional Cardiac Immune Cells

JoVE 3020 12/05/2011

Jennifer L. McLarty, Giselle C. Meléndez, William J. Spencer, Scott P. Levick, Gregory L. Brower, Joseph S. Janicki

Department of Cell Biology and Anatomy, University of South Carolina- School of Medicine

This method for isolating functional immune cells from the heart provides an alternative to the conventional methods of collagenase digestion, which causes unwanted immune cell activation, resulting in a decreased responsiveness of these cells. Our method of isolation yields functional cardiac immune cells by avoiding problems associated with enzymatic digestion.

DiI-Labeling of DRG Neurons to Study Axonal Branching in a Whole Mount Preparation of Mouse Embryonic Spinal Cord

JoVE 3667 12/13/2011

Hannes Schmidt, Fritz G. Rathjen

Developmental Neurobiology, Max Delbrück Center for Molecular Medicine

The stereotyped projections of sensory afferents into the rodent spinal cord offer an easily accessible experimental system to study axonal branching through the tracing of single axons.

Subcutaneous Administration of Muscarinic Antagonists and Triple-Immunostaining of the Levator Auris Longus Muscle in Mice

JoVE 3124 9/08/2011

Megan Wright¹, Amy Kim², Young-Jin Son³

¹Biology Department, Arcadia University, ²Shriners Hospitals Pediatric Research Center, Temple University School of Medicine, ³Shriners Hospitals Pediatric Research Center and Department of Anatomy and Cell Biology, Temple University School of Medicine

We describe procedures for repeated administration of inhibitors of muscarinic signaling to the levator auris longus (LAL) muscle of young adult mice and for subsequent immunostaining of its neuromuscular junctions (NMJs) in wholemounts. The LAL muscle has unique advantages for revealing in vivo pharmacological effects on NMJs.

Simultaneous Intracellular Recording of a Lumbar Motoneuron and the Force Produced by its Motor Unit in the Adult Mouse In vivo

JoVE 4312 12/05/2012

Marin Manuel, C.J. Heckman

Department of Physiology, Northwestern University Feinberg School of Medicine

This new method permits the simultaneous intracellular recording of a single adult mouse motoneuron and the measurement of the force produced by its muscle fibers. The combined investigation of the electrical and mechanical properties of motor units in normal and genetically modified animals is a breakthrough for the study of the neuromuscular system.

Isolation of Basal Cells and Submucosal Gland Duct Cells from Mouse Trachea

JoVE 3731 9/14/2012

Ahmed E. Hegab, Vi Luan Ha, Yasser S. Attiga, Derek W. Nickerson, Brigitte N. Gomperts

Department of Pediatrics, David Geffen School of Medicine at UCLA

Here we demonstrate our protocol for isolation of basal and submucosal gland duct cells from mouse tracheas. We also demonstrate the method of injecting stem cells into the dorsal mouse fat pad to create an in vivo model of submucosal gland regeneration.

In vivo-like Organotypic Murine Retinal Wholemount Culture

JoVE 1634 1/11/2010

Sebastian Gustmann, Nicole Dünker

Institute for Anatomy, Department of Neuroanatomy, University of Duisburg-Essen

This video article demonstrates the establishment of organotypic retinal wholemount cultures and a cytospin procedure for analysis of exogenously induced effects. Organotypic retinal wholemount cultures mimic the in vivo situation and significantly facilitate the accessibility of murine retinas for experimental manipulations while circumventing the disadvantages of classical murine animal models.

Multiple-mouse Neuroanatomical Magnetic Resonance Imaging

JoVE 2497 2/27/2011

Jun Dazai*¹, Shoshana Spring*¹, Lindsay S. Cahill¹, R. Mark Henkelman^1,2

¹Mouse Imaging Centre, Hospital for Sick Children, ²Department of Medical Biophysics and Medical Imaging, University of Toronto

Magnetic resonance imaging (MRI) has become an increasingly popular tool for examining the phenotype of genetically altered mice. This article illustrates the methods necessary to achieve high-throughput phenotyping of genetically altered mice using multiple-mouse MRI.

A 3D System for Culturing Human Articular Chondrocytes in Synovial Fluid

JoVE 3587 1/31/2012

Joshua A. Brand¹, Timothy E. McAlindon², Li Zeng¹

¹Department of Anatomy and Cellular Biology, Tufts University School of Medicine, ²Department of Rheumatology, Tufts Medical Center

A 3D system of culturing human articular chondrocytes in high levels of synovial fluid is described. Synovial fluid reflects the most natural microenvironment for articular cartilage, and can be easily obtained and stored. This system thus can be used for studying cartilage regeneration and for screening therapeutics for treating arthritis.

Harvesting Murine Alveolar Macrophages and Evaluating Cellular Activation Induced by Polyanhydride Nanoparticles

JoVE 3883 6/08/2012

Ana V. Chavez-Santoscoy¹, Lucas M. Huntimer², Amanda E. Ramer-Tait², Michael Wannemuehler², Balaji Narasimhan¹

¹Department of Chemical and Biological Engineering, Iowa State University, ²Department of Veterinary Microbiology and Preventive Medicine, Iowa State University

Herein, we describe protocols for harvesting murine alveolar macrophages, which are resident innate immune cells in the lung, and examining their activation in response to co-culture with polyanhydride nanoparticles.

November 2011: This Month in JoVE

JoVE 4025 11/01/2011

Aaron Kolski-Andreaco

Here are some highlights from the November 2011 Issue of Journal of Visualized Experiments (JoVE).

Electrophysiological Recording in the Drosophila Embryo

JoVE 1348 5/21/2009

Kaiyun Chen¹, David E. Featherstone¹, Kendal Broadie²

¹Department of Biological Sciences, University of Illinois, ²Department of Biological Sciences, Vanderbilt University

Electrophysiological recordings from Drosophila embryos allow analyses of developing muscle and neuron electrical properties, as well as characterization of functional synaptogenesis at the glutamatergic neuromuscular junction and central cholinergic and GABAergic synapses.

Harvesting and Preparing Drosophila Embryos for Electrophysiological Recording and Other Procedures

JoVE 1347 5/20/2009

David E. Featherstone¹, Kaiyun Chen¹, Kendal Broadie²

¹Department of Biological Sciences, University of Illinois, ²Department of Biological Sciences, Vanderbilt University

This technique exposes the Drosophila embryonic neuromusculature for immunohistochemistry or electrophysiological recording. It is useful for studying early events in neuromuscular development or performing electrophysiology in mutants that cannot hatch.

Historical View and Physiology Demonstration at the NMJ of the Crayfish Opener Muscle

JoVE 1595 11/09/2009

Ann S. Cooper, Robin L. Cooper

Department of Biology, University of Kentucky

The opener muscle of the crayfish leg is presented for its historical importance and experimental versatility in muscle phenotype, synaptic physiology and plasticity.