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.

Live Dissection of Drosophila Embryos: Streamlined Methods for Screening Mutant Collections by Antibody Staining

JoVE 1647 12/29/2009

Hyung-Kook (Peter) Lee, Ashley P. Wright, Kai Zinn

Division of Biology, California Institute of Technology

We describe a streamlined protocol for generating "fillet" preparations of Drosophila embryos of specific genotypes. This protocol allows efficient execution of a variety of genetic screens. It also allows excellent visualization of structures in the late embryo.

In ovo Electroporation of miRNA-based Plasmids in the Developing Neural Tube and Assessment of Phenotypes by DiI Injection in Open-book Preparations

JoVE 4384 10/16/2012

Nicole H. Wilson, Esther T. Stoeckli

Institute of Molecular Life Sciences, University of Zurich

A method by which gene expression in the neural tube can be downregulated in a cell type-specific, traceable manner is described. We demonstrate how in ovo electroporation of microRNA-based plasmids that elicit spatiotemporally controlled RNA interference can be used to investigate commissural axon guidance in the developing neural tube.

Dissection and Culture of Commissural Neurons from Embryonic Spinal Cord

JoVE 1773 5/25/2010

Sébastien D. Langlois*^1,2, Steves Morin*¹, Patricia T. Yam^1,3,4, Frédéric Charron^1,2,5,6,7

¹Molecular Biology of Neural Development, Institut de Recherches Cliniques de Montréal, ²Division of Experimental Medicine and Program in Neuroengineering, McGill University, ³Program in Neuroengineering, McGill University, ⁴Montreal Neurological Institute, ⁵Department of Anatomy and Cell Biology, McGill University, ⁶Department of Biology, McGill University, ⁷Department of Medicine, Universite de Montreal - University of Montreal

This video demonstrates a method to dissect and culture commissural neurons from E13 rat dorsal spinal cord. Dissociated commissural neurons are useful to study the cellular and molecular mechanisms of axon growth and guidance.

Assaying the Ability of Diffusible Signaling Molecules to Reorient Embryonic Spinal Commissural Axons

JoVE 1853 3/08/2010

Virginia M. Hazen*^1,2, Keith Phan*¹, Ken Yamauchi*^1,2, Samantha J. Butler^1,2

¹Department of Biological Sciences, University of Southern California, ²Neuroscience Graduate Program, University of Southern California

This assay assesses the ability of a signaling molecule, here Bone Morphogenetic Protein 7 (BMP7), to reorient commissural axons. An explant of embryonic dorsal spinal cord is cultured adjacent to an aggregate of COS cells secreting the candidate growth factors. Reoriented commissural axons growing within the explant are visualized by immunohistochemistry.

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 Gradient-generating Microfluidic Device for Cell Biology

JoVE 271 8/30/2007

Bong Geun Chung, Amir Manbachi, Wajeeh Saadi, Francis Lin, Noo Li Jeon, Ali Khademhosseini

Harvard-MIT Division of Health Sciences and Technology, Massachusetts Institute of Technology; Center for Biomedical Engineering, Department of Medicine, Brigham and Women's Hospital

We describe a protocol for the microfabrication of the gradient-generating microfluidic device that can generate spatial and temporal gradients in well-defined microenvironment. In this approach, the gradient-generating microfluidic device can be used to study directed cell migration, embryogenesis, wound healing, and cancer metastasis.

In utero and ex vivo Electroporation for Gene Expression in Mouse Retinal Ganglion Cells

JoVE 1333 9/24/2009

Timothy J Petros¹, Alexandra Rebsam¹, Carol A Mason^1,2

¹Departments of Pathology and Cell Biology, and Neuroscience, Columbia University College of Physicians and Surgeons, ²Department of Ophthalmology, Columbia University College of Physicians and Surgeons

Here we present two techniques for manipulating gene expression in murine retinal ganglion cells (RGCs) by in utero and ex vivo electroporation. These techniques enable one to examine how alterations in gene expression affect RGC development, axon guidance, and functional properties.

Labeling F-actin Barbed Ends with Rhodamine-actin in Permeabilized Neuronal Growth Cones

JoVE 2409 3/17/2011

Bonnie M. Marsick, Paul C. Letourneau

Department of Neuroscience, University of Minnesota

A method to visualize and quantify F-actin barbed ends in neuronal growth cones is described. After culturing neurons on glass coverslips, cells are permeabilized with a saponin-containing solution. Then, a short incubation with the saponin buffer containing rhodamine-actin incorporates fluorescent actin onto free actin barbed ends.

Drosophila Larval NMJ Dissection

JoVE 1107 2/04/2009

Jonathan R. Brent, Kristen M. Werner, Brian D. McCabe

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

This protocol demonstrates how to dissect Drosophila larvae in preparation for immunohistochemistry and/or imaging of the neuromuscular junction.

Localized RNAi and Ectopic Gene Expression in the Medicinal Leech

JoVE 697 4/17/2008

Orit Shefi¹, Claire Simonnet², Alex Groisman², Eduardo R Macagno¹

¹Division of Biological Sciences, University of California San Diego - UCSD, ²Department of Physics, University of California San Diego - UCSD

In this video, we show a procedure for an accurate biolistic delivery of reagents into live tissue with a novel miniature gene gun. We are knocking down the expression of the axon guidance molecule Netrin in leech embryos by delivering molecules of dsRNA into the ventral body wall and ganglia of single segments.

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.

Mouse in Utero Electroporation: Controlled Spatiotemporal Gene Transfection

JoVE 3024 8/15/2011

Asuka Matsui, Aya C. Yoshida, Mayumi Kubota, Masaharu Ogawa, Tomomi Shimogori

Lab for Molecular Mechanisms of Thalamus Development, RIKEN Brain Science Institute

A gene transfer method into the developing mouse brain is described by using a unique surgical method and special shape of electrodes. This unique technique allows transfection of plasmid DNA temporally and spatially, which will aid many neuroscientists in studying brain development.

Transfection of Mouse Retinal Ganglion Cells by in vivo Electroporation

JoVE 2678 4/17/2011

Onkar S. Dhande^1,2, Michael C. Crair¹

¹Department of Neurobiology, Yale University, ²Program in Developmental Biology, Baylor College of Medicine

We demonstrate an in vivo electroporation protocol for transfecting single or small clusters of retinal ganglion cells (RGCs) and other retinal cell types in postnatal mice over a wide range of ages. The ability to label and genetically manipulate postnatal RGCs in vivo is a powerful tool for developmental studies.

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.

Tissue Targeted Embryonic Chimeras: Zebrafish Gastrula Cell Transplantation

JoVE 1422 9/11/2009

Elizabeth R. Deschene, Michael J. Barresi

Department of Biological Sciences, Smith College

Zebrafish cell transplantation enables the combination of genetics and embryology to generate tissue specific chimeras. This video demonstrates gastrula staged cell transplantations that have allowed our lab to investigate the roles of astroglial populations and specific guidance cues during commissure formation in the forebrain.

Mosaic Analysis of Gene Function in Postnatal Mouse Brain Development by Using Virus-based Cre Recombination

JoVE 2823 8/01/2011

Daniel A. Gibson^1,2, Le Ma^2,3

¹Neuroscience Graduate Program, Keck School of Medicine, University of Southern California, ²Zilkha Neurogenetic Institute, University of Southern California, ³Department of Cell and Neurobiology, Neuroscience Graduate Program, Keck School of Medicine, University of Southern California

An in vivo method to test gene function in postnatal brain is described. Recombinant AAVs expressing Cre and/or a fluorescent protein are injected into neonatal mouse brain. Mosaic gene inactivation and sparse neuronal labeling are achieved, allowing rapid analysis of gene function in processes critical to neural circuit development.

BioMEMS and Cellular Biology: Perspectives and Applications

JoVE 300 10/01/2007

Albert Folch

Department of Biomedical Engineering, University of Washington

Live Imaging of Cell Motility and Actin Cytoskeleton of Individual Neurons and Neural Crest Cells in Zebrafish Embryos

JoVE 1726 2/03/2010

Erica Andersen^1,2,3, Namrata Asuri^1,2,3, Matthew Clay^2,3,4, Mary Halloran^1,2,3,4

¹Genetics Training Program, University of Wisconsin-Madison, ²Department of Anatomy, University of Wisconsin-Madison, ³Department of Zoology, University of Wisconsin-Madison, ⁴Cell and Molecular Biology Training Program, University of Wisconsin-Madison

This protocol describes imaging of individual neurons or neural crest cells in living zebrafish embryos. This method is used to examine cellular behaviors and actin localization using fluorescence confocal time-lapse microscopy.

Deciphering Axonal Pathways of Genetically Defined Groups of Neurons in the Chick Neural Tube Utilizing in ovo Electroporation

JoVE 1792 5/02/2010

Oshri Avraham*, Sophie Zisman*, Yoav Hadas, Lilach Vald, Avihu Klar

Department of Medical Neurobiology, Institute for Medical Research Israel Canada, Hebrew University-Hadassah Medical School

This video demonstrates how to visualize axonal pathways of genetically defined groups of neurons in the embryonic chick spinal cord utilizing in ovo electroporation of reporter genes under the control of specific enhancer elements.

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.

Stereotaxic Injection of a Viral Vector for Conditional Gene Manipulation in the Mouse Spinal Cord

JoVE 50313 3/18/2013

Perrine Inquimbert¹, Martin Moll², Tatsuro Kohno³, Joachim Scholz²

¹Département Nociception et Douleur, Institut des Neurosciences Cellulaires et Intégratives, Centre National de la Recherche Scientifique (CNRS), ²Departments of Anesthesiology and Pharmacology, Columbia University, ³Department of Anesthesiology, Niigata University Graduate School of Medical and Dental Sciences

Viral vectors allow for targeted gene manipulation. We demonstrate a method for conditional gene expression or ablation in the mouse spinal cord, using stereotaxic injection of a viral vector into the dorsal horn, a prominent site of synaptic contact between primary somatosensory afferents and neurons of the central nervous system.

Dissection and Immunohistochemistry of Larval, Pupal and Adult Drosophila Retinas

JoVE 4347 11/14/2012

Hui-Yi Hsiao*, Robert J. Johnston Jr.*, David Jukam*, Daniel Vasiliauskas*, Claude Desplan, Jens Rister

Department of Biology, New York University

The Drosophila retina is a crystal-like lattice composed of a small number of cell types that are generated in a stereotyped manner ¹. Its amenability to sophisticated genetic analysis allows the study of complex developmental programs. This protocol describes dissections and immunohistochemistry of retinas at three discrete developmental stages, with a focus on photoreceptor differentiation.

Analysis of Trunk Neural Crest Cell Migration using a Modified Zigmond Chamber Assay

JoVE 3330 1/19/2012

Christopher C. Walheim¹, Juan Pablo Zanin², Maria Elena de Bellard¹

¹Department of Biology, California State University, Northridge, ²Centro de Biología Celular y Molecular, Universidad Nacional de Córdoba

An approach to analyze the migration of explanted cells (trunk neural crest cells) is described. This method is inexpensive, gentle, and capable of distinguishing chemotaxis from both chemokinesis and other influences on migratory polarity such as those derived from cell-cell interactions within the primary trunk neural crest cell culture.

Methods for Experimental Manipulations after Optic Nerve Transection in the Mammalian CNS

JoVE 2261 5/12/2011

Philippe M. D'Onofrio*, Mark M. Magharious*, Paulo D. Koeberle

Department of Surgery, University of Toronto

Optic Nerve transection is a widely used model of adult CNS injury. This model is ideal for performing a number of experimental manipulations that target the retina globally or directly target the injured neuronal population of retinal ganglion cells.

Labeling of Single Cells in the Central Nervous System of Drosophila melanogaster

JoVE 50150 3/04/2013

Christof Rickert¹, Thomas Kunz¹, Kerri-Lee Harris², Paul Whitington², Gerhard Technau¹

¹Institute of Genetics, University of Mainz, ²Department of Anatomy and Neuroscience, University of Melbourne

We present a technique for labeling single neurons in the central nervous system (CNS) of Drosophila embryos, which allows the analysis of neuronal morphology by either transmitted light or confocal microscopy.

Visualization and Genetic Manipulation of Dendrites and Spines in the Mouse Cerebral Cortex and Hippocampus using In utero Electroporation

JoVE 4163 7/26/2012

Emilie Pacary¹, Matilda A. Haas¹, Hendrik Wildner¹, Roberta Azzarelli¹, Donald M. Bell², Djoher Nora Abrous³, François Guillemot¹

¹Division of Molecular Neurobiology, MRC National Institute for Medical Research, ²Confocal and Image Analysis Laboratory, National Institute for Medical Research, ³Physiopathologie de la plasticité neuronale, Neurocentre Magendie, Université de Bordeaux

This article describes in detail a protocol to electroporate in utero the cerebral cortex and the hippocampus at E14.5 in mice. We also show that this is a valuable method to study dendrites and spines in these two cerebral regions.

Nucleofection and Primary Culture of Embryonic Mouse Hippocampal and Cortical Neurons

JoVE 2373 1/24/2011

Christopher Viesselmann*, Jason Ballweg*, Derek Lumbard*, Erik W. Dent

Department of Anatomy, University of Wisconsin-Madison

This protocol outlines the steps required to dissect, transfect via electroporation and culture mouse hippocampal and cortical neurons. Short-term cultures may be used for studies of axon outgrowth and guidance, while long-term cultures can be used for studies of synaptogenesis and dendritic spine analysis.

Whole Cell Recording from an Organotypic Slice Preparation of Neocortex

JoVE 2600 6/03/2011

Robert C. Foehring, Dongxu Guan, Tara Toleman, Angela R. Cantrell

Department of Anatomy and Neurobiology, University of Tennessee Health Science Center

This is a protocol to prepare and maintain a neocortical slice preparation in organotypic culture for the purpose of making electrical recordings from pyramidal neurons.