Dissection and Culture of Chick Statoacoustic Ganglion and Spinal Cord Explants in Collagen Gels for Neurite Outgrowth Assays

JoVE 3600 12/20/2011

Kristen N. Fantetti, Donna M. Fekete

Department of Biological Sciences, Purdue University

We demonstrate how to dissect and culture chick E4 statoacoustic ganglion and E6 spinal cord explants. Explants are cultured under serum-free conditions in 3D collagen gels for 24 hours. Neurite responsiveness is tested with growth factor-supplemented medium and with protein-coated beads.

A Neuronal and Astrocyte Co-Culture Assay for High Content Analysis of Neurotoxicity

JoVE 1173 5/05/2009

Janet L Anderl, Stella Redpath, Andrew J Ball

Bioscience Division, High Content Analysis Research and Development, Millipore Inc

This article describes a novel protocol and reagent set designed for sensitive measurement of neurotoxic effects of compounds and treatments on co-cultures of neurons and astrocytes using high content analysis. Results demonstrate that high content analysis represents an exciting novel technology for neurotoxicity assessment.

Genetic Modification and Recombination of Salivary Gland Organ Cultures

JoVE 50060 1/28/2013

Sharon J. Sequeira*, Elise M. Gervais*, Shayoni Ray, Melinda Larsen

Department of Biological Sciences, University at Albany, SUNY

A technique to genetically manipulate epithelial cells within whole ex vivo cultured embryonic mouse submandibular glands (SMGs) using viral gene transfer is described. This method takes advantage of the innate ability of SMG epithelium and mesenchyme to spontaneously recombine after separation and infection of epithelial rudiments with adenoviral vectors.

Impulsive Pressurization of Neuronal Cells for Traumatic Brain Injury Study

JoVE 2723 10/12/2011

Matthew Nienaber*, Jeong Soon Lee*, Ruqiang Feng, Jung Yul Lim

Department of Engineering Mechanics, University of Nebraska-Lincoln

A novel impulsive cell pressurization experiment has been developed using a Kolsky bar device to investigate the molecular/cellular mechanisms of blast-induced traumatic brain injury.

Study Glial Cell Heterogeneity Influence on Axon Growth Using a New Coculture Method

JoVE 2111 9/06/2010

Han-peng Xu^1,2, Lin Gou^3,4, Hong-Wei Dong³

¹Department of Neurosurgery, Cedars Sinai Medical Center, UCLA, ²Basic Medicine School, Fourth Military Medical University, ³Department of Neurology, David Geffen School of Medicine, UCLA, ⁴Aerospace Medicine School, Fourth Military Medical Univeristy

In this protocol, we described a new method to study the influence of glial cell heterogeneity on axon growth with an in vitro co-culture system. Rat cortical glial cells were cultured to confluence and cocultured with highly purified rat dorsal root ganglia neurons. Different glial cell influence on neurons adhesion and axon growth was compared directly in the same culture. This method provides a new way to directly study the glial cell heterogeneity influence on neuron adhesion and axon growth.

In utero Electroporation followed by Primary Neuronal Culture for Studying Gene Function in Subset of Cortical Neurons

JoVE 2103 10/08/2010

Heather Rice¹, Seiyam Suth¹, William Cavanaugh¹, Jilin Bai², Tracy L. Young-Pearse¹

¹Center for Neurologic Diseases, Brigham and Woman's Hospital and Harvard Medical School, ²Department of Physiology and Neurobiology, University of Connecticut

In utero electroporation is a valuable method for transfecting neuronal progenitor cells in vivo. Depending upon the placement of the electrodes and the developmental timepoint of electroporation, certain subsets of cortical cells can be targeted. Targeted cells can then be analyzed in vivo or in vitro for effects of genetic alteration.

Preparation of Rat Brain Aggregate Cultures for Neuron and Glia Development Studies

JoVE 1304 9/30/2009

Hisami Koito, Jianrong Li

Department of Veterinary Integrative Biosciences, Texas A&M University (TAMU)

A protocols for an embryonic rat brain aggregate culture system is described. Multipotent progenitors in the aggregates can develop and differentiate into neurons, astrocytes and oligodendrocytes.

Isolation and Culture of Mouse Cortical Astrocytes

JoVE 50079 1/19/2013

Sebastian Schildge¹, Christian Bohrer¹, Kristina Beck², Christian Schachtrup¹

¹Institute of Anatomy and Cell Biology, University of Freiburg, ²Centre of Chronic Immunodeficiency (CCI), University Medical Centre Freiburg, University of Freiburg

Astrocytes have been recognized to be versatile cells participating in fundamental biological processes that are essential for normal brain development and function, and central nervous system repair. Here we present a rapid procedure to obtain pure mouse astrocyte cultures to study the biology of this major class of central nervous system cells.

Methods for Study of Neuronal Morphogenesis: Ex vivo RNAi Electroporation in Embryonic Murine Cerebral Cortex

JoVE 3621 5/18/2012

Sofia B. Lizarraga^1,2,3, Kathryn R. Coser^1,2, Mark Sabbagh^1,2, Eric M. Morrow^1,2,3

¹Department of Molecular, Cellular Biology and Biochemistry, Brown University, ²Institute for Brain Science, Brown University, ³Department of Psychiatry and Human Behavior, Warren Alpert School of Medicine, Brown University

To conduct a rapid assessment of the function of genes in the development of cerebral cortex, we describe methods involving the ex vivo electroporation of plasmids co-expressing inhibitory RNA (RNAi) and GFP in murine embryonic cortex. This protocol is amenable to the study of various aspects of neurodevelopment such as neurogenesis, neuronal migration and neuronal morphogenesis including dendrite and axon outgrowth.

Imaging Analysis of Neuron to Glia Interaction in Microfluidic Culture Platform (MCP)-based Neuronal Axon and Glia Co-culture System

JoVE 4448 10/14/2012

Haruki Higashimori¹, Yongjie Yang^1,2

¹Department of Neuroscience, Tufts University, ²Neuroscience Program, Tufts Sackler School of Graduate Biomedical Sciences

This study describes the procedures of setting up a novel neuronal axon and (astro)glia co-culture platform. In this co-culture system, manipulation of direct interaction between a single axon (and single glial cell) becomes feasible, allowing mechanistic analysis of the mutual neuron to glial signaling.

Mechanical Manipulation of Neurons to Control Axonal Development

JoVE 2509 4/10/2011

Phillip Lamoureux, Steven Heidemann, Kyle E. Miller

Department of Zoology, Michigan State University, East Lansing

Application and direct measurements of forces on neurons in the 2-1000 microdyne range are achieved with high precision using calibrated glass needles. This methodology can be used to control and measure several aspects of axonal development, including axonal initiation, axonal tension, velocity of axonal elongation, and force vectors.

Preparation of Aplysia Sensory-motor Neuronal Cell Cultures

JoVE 1355 6/08/2009

Yali Zhao¹, Dan O. Wang¹, Kelsey C. Martin^1,2,3

¹Dept. of Psychiatry and Biobehavioral Sciences, University of California, Los Angeles, ²Dept. of Biological Chemistry, University of California, Los Angeles, ³Semel Institute for Neuroscience and Human Behavior, University of California, Los Angeles

Primary cultures of Aplysia sensory-motor neurons provide a model preparation for studying synapse formation and synaptic plasticity in vitro. This video demonstrates the identification and microdissection of sensory and motor neurons from Aplysia ganglia as well as the methods for establishing and maintaining sensory-motor neurons in culture.

Growth and Differentiation of Adult Hippocampal Arctic Ground Squirrel Neural Stem Cells

JoVE 2199 1/07/2011

Kelly L. Drew¹, Rebecca C. McGee², Matthew S. Wells³, Judith A. Kelleher-Andersson⁴

¹Alaska Basic Neuroscience Program, Institute of Arctic Biology, University of Alaska at Fairbanks, ²Department Biochemistry, Hood College, ³Department of Cell Biology, Neuronascent, Inc., ⁴Research and Development, Neuronascent, Inc.

Neural stem cells were prepared from the hippocampus of adult non-hibernating yearling Arctic ground squirrels (AGS). These neural stem cells can be expanded through numerous passages, differentiated and maintained as a nearly 50:50 neuron to glial culture.

Tissue Preparation and Immunostaining of Mouse Sensory Nerve Fibers Innervating Skin and Limb Bones

JoVE 3485 1/26/2012

Andrew J. Shepherd¹, Durga P. Mohapatra^1,2

¹Department of Pharmacology, The University of Iowa, ²Department of Anesthesia, Roy J. and Lucille A. Carver College of Medicine, The University of Iowa

Immunocytochemical identification of peripheral sensory nerve fiber subtypes (and detection of protein expression therein) are key to the understanding of molecular mechanisms underlying peripheral sensation. Here we describe methods for preparation of peripheral/visceral tissue samples, such as skin and limb bones, for specific immunostaining of peripheral sensory nerve fibers.

Primary Neuronal Cultures from the Brains of Late Stage Drosophila Pupae

JoVE 200 5/28/2007

Beatriz Sicaeros, Jorge M. Campusano, Diane K. O'Dowd

Department of Development and Cell Biology, Department of Anatomy and Neurobiology, University of California, Irvine (UCI)

This video demonstrates the preparation of primary neuronal cultures from the brains of late stage Drosophila pupae. Views of live cultures show neurite outgrowth and imaging of calcium levels using Fura-2.

Preparation of Neuronal Cultures from Midgastrula Stage Drosophila Embryos

JoVE 226 7/04/2007

Beatriz Sicaeros, Diane K. O'Dowd

Department of Development and Cell Biology, Department of Anatomy and Neurobiology, University of California, Irvine (UCI)

This video demonstrates the preparation of primary neuronal cultures from midgastrula stage Drosophila embryos. Views of live cultures show cells 1 hour after plating and differentiated neurons after 2 days of growth in a bicarbonate-based defined medium. The neurons are electrically excitable and form synaptic connections.

Isolation and Culture of Post-Natal Mouse Cerebellar Granule Neuron Progenitor Cells and Neurons

JoVE 990 1/16/2009

Hae Young Lee¹, Lloyd A. Greene², Carol A. Mason^2,3, M. Chiara Manzini^2,4

¹Department of Genetics and Development, Columbia University, ²Department of Pathology and Cell Biology, Columbia University, ³Department of Neuroscience, Columbia University, ⁴Department of Neurology, Beth Israel Deaconess Medical Center, Harvard Medical School

Here we present a method to isolate and culture cerebellar granule neuron progenitor cells and cerebellar granule neurons from postnatal mouse.

Plasma Lithography Surface Patterning for Creation of Cell Networks

JoVE 3115 6/14/2011

Michael Junkin¹, Siu Ling Leung¹, Yongliang Yang¹, Yi Lu¹, Justin Volmering¹, Pak Kin Wong^1,2

¹Aerospace and Mechanical Engineering, University of Arizona, ²Biomedical Engineering IDP and BIO5 Institute, University of Arizona

A versatile plasma lithography technique has been developed to generate stable surface patterns for guiding cellular attachment. This technique can be applied to create cell networks including those that mimic natural tissues and has been used for studying several, distinct cell types.

Cell-based Calcium Assay for Medium to High Throughput Screening of TRP Channel Functions using FlexStation 3

JoVE 3149 8/17/2011

Jialie Luo, Yingmin Zhu, Michael X. Zhu, Hongzhen Hu

Department of Integrative Biology and Pharmacology, The University of Texas Health Science Center at Houston

This video provides a detailed protocol for studying the pharmacological profile of human TRPA1 channels using FlexStation 3. The protocol covers details of cell preparation, dye loading and operation of the microplate reader, FlexStation 3.

Modified Yeast-Two-Hybrid System to Identify Proteins Interacting with the Growth Factor Progranulin

JoVE 3562 1/17/2012

Qing-Yun Tian¹, Yun-Peng Zhao¹, Chuan-ju Liu^1,2

¹Department of Orthopaedic Surgery, NYU Hospital for Joint Diseases, ²Department of Cell Biology, New York University School of Medicine

We have modified the conventional yeast two-hybrid screening, an effective genetic tool in identifying protein interaction. This modification markedly shortens the process, reduces the workload, and most importantly, reduces the number of false positives. In addition, this approach is reproducible and reliable.

Analyzing Murine Schwann Cell Development Along Growing Axons

JoVE 50016 11/21/2012

Stephan Heermann^1,2, Kerstin Krieglstein^1,3

¹Department of Molecular Embryology, Institute of Anatomy and Cell Biology, University of Freiburg, ²Department of Neuroanatomy, University of Heidelberg, ³FRIAS, University of Freiburg

Here we describe a Schwann cell (SC) migration assay in which SCs are able to develop along extending axons.

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.

Fabrication of Micropatterned Hydrogels for Neural Culture Systems using Dynamic Mask Projection Photolithography

JoVE 2636 2/11/2011

J. Lowry Curley, Scott R. Jennings, Michael J. Moore

Biomedical Engineering, Tulane University

Simple techniques are described for the rapid production of microfabricated neural culture systems using a digital micromirror device for dynamic mask projection lithography on regular cell culture substrates. These culture systems may be more representative of natural biological architecture, and the techniques described could be adapted for numerous applications.

High Content Screening in Neurodegenerative Diseases

JoVE 3452 1/06/2012

Shushant Jain¹, Ronald E. van Kesteren², Peter Heutink¹

¹Department of Clinical Genetics, VU University Medical Center, ²Center for Neurogenomics and Cognitive Research, Neuroscience Campus Amsterdam

We describe a methodology combining automated cell culturing with high-content imaging to visualize and quantify multiple cellular processes and structures, in a high-throughput manner. Such methods can aid in the further functional annotation of genomes as well as identify disease gene networks and potential drug targets.

Inducing Dendritic Growth in Cultured Sympathetic Neurons

JoVE 3546 3/21/2012

Atefeh Ghogha, Donald A. Bruun, Pamela J. Lein

Department of Molecular Biosciences, University of California, Davis

We describe a protocol for using bone morphogenetic protein-7 (BMP-7) or Matrigel to selectively induce dendritic growth in primary sympathetic neurons dissociated from the superior cervical ganglia (SCG) of perinatal rats.

Neural Explant Cultures from Xenopus laevis

JoVE 4232 10/15/2012

Laura Anne Lowery, Anna E.R. Faris, Alina Stout, David Van Vactor

Department of Cell Biology, Harvard Medical School

Culturing neural explants from dissected Xenopus laevis embryos that express fluorescent fusion proteins allows for imaging of growth cone cytoskeletal dynamics.

Dissection and Culture of Mouse Dopaminergic and Striatal Explants in Three-Dimensional Collagen Matrix Assays

JoVE 3691 3/23/2012

Ewoud R.E. Schmidt, Francesca Morello, R. Jeroen Pasterkamp

Department of Neuroscience & Pharmacology, Rudolf Magnus Institute for Neuroscience, University Medical Center Utrecht

Explants from the midbrain dopamine system and striatum are used in a collagen matrix assay for the in vitro analysis of mesostriatal and striatonigral pathway development. In this assay axonal outgrowth and guidance can be manipulated and quantified. It can also be modified for assessing other regions or molecular cues.

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JoVE 1498 5/05/2009

Janet L. Anderl, Stella Redpath, Andrew J Ball

Bioscience Division, High Content Analysis Research and Development, Millipore Inc

Axon Stretch Growth: The Mechanotransduction of Neuronal Growth

JoVE 2753 8/10/2011

Joseph R. Loverde^1,2, Rosa E. Tolentino^1,2, Bryan J. Pfister¹

¹Departments of Biomedical Engineering, New Jersey Institute of Technology, ²Graduate School of Biomedical Sciences, University of Medicine and Dentistry of New Jersey

A unique tissue engineering method was developed to elongate numerous nerve fibers in culture by recapitulating axon stretch growth; a form of nervous system growth whereby nerves elongate in conjunction with growth of the enlarging body.

Chromatin Immunoprecipitation from Dorsal Root Ganglia Tissue following Axonal Injury

JoVE 2803 7/20/2011

Elisa Floriddia*^1,2, Tuan Nguyen*¹, Simone Di Giovanni¹

¹Laboratory for NeuroRegeneration and Repair, Department of Neurology, Hertie Institute for Clinical Brain Research, University of Tuebingen, ²Graduate School for Cellular and Molecular Neuroscience, University of Tuebingen

We present a method for chromatin immunoprecipitation from dorsal root ganglia tissue following axonal injury. The approach can be used to identify specific transcription factor binding sites and epigenetic modification of histone and DNA important for the regeneration of injured axons in both the peripheral and central nervous system.