Preparation of Gene Gun Bullets and Biolistic Transfection of Neurons in Slice Culture

JoVE 675 2/13/2008

Georgia Woods, Karen Zito

Center for Neuroscience, University of California, Davis

We describe a method for preparing DNA coated gold bullets and demonstrate the use of such bullets to biolistically transfect neurons in cultured hippocampal slices.

Post-embedding Immunogold Labeling of Synaptic Proteins in Hippocampal Slice Cultures

JoVE 50273 4/03/2013

Ling Zhong¹, Joshua C. Brown¹, Clive Wells², Nashaat Z. Gerges¹

¹Department of Cell Biology, Neurobiology and Anatomy, Medical College of Wisconsin, ²Department of Microbiology and Molecular Genetics, Medical College of Wisconsin

The localization and distribution of proteins provide important information for understanding their cellular functions. The superior spatial resolution of electron microscopy (EM) can be used to determine the subcellular localization of a given antigen following immunohistochemistry. For tissues of the central nervous system (CNS), preserving structural integrity while maintaining antigenicity has been especially difficult in EM studies. Here, we adopt a procedure that has been used to preserve structures and antigens in the CNS to study and characterize synaptic proteins in rat hippocampal CA1 pyramidal neurons.

Organotypic Collagen I Assay: A Malleable Platform to Assess Cell Behaviour in a 3-Dimensional Context

JoVE 3089 10/13/2011

Paul Timpson¹, Ewan J. Mcghee¹, Zahra Erami¹, Max Nobis¹, Jean A. Quinn², Mike Edward², Kurt I. Anderson¹

¹The Beatson Institute for Cancer Research, University of Glasgow, ²Section of Dermatology, School of Medicine, University of Glasgow

A method is described for the preparation of a 3-dimensional matrix consisting of collagen type I and primary human fibroblasts. This organotypic gel serves as a useful substrate to assess invasive cell migration because it mimics basic features of tissue stroma and is amenable to many forms of microscopy.

Pull-down of Calmodulin-binding Proteins

JoVE 3502 1/23/2012

Kanwardeep S. Kaleka, Amber N. Petersen, Matthew A. Florence, Nashaat Z. Gerges

Department of Cell Biology, Neurobiology and Anatomy, Medical College of Wisconsin

Calmodulin (CaM) pull-down assay is an effective way to investigate the interaction of CaM with various proteins. This method uses CaM-sepharose beads for efficient and specific analysis of CaM-binding proteins. This provides an important tool to explore CaM signaling in cellular function.

Organotypic Culture of Full-thickness Adult Porcine Retina

JoVE 2655 3/20/2011

Jianfeng Wang¹, Anton M. Kolomeyer², Marco A. Zarbin², Ellen Townes-Anderson¹

¹Neurology and Neurosciences, University of Medicine and Dentistry of New Jersey - UMDNJ, ²Institute of Ophthalmology and Visual Science, University of Medicine and Dentistry of New Jersey - UMDNJ

Here we describe a cost-effective technique for organotypic culture of adult porcine retina for seven days. Briefly, a sterile filter paper was used to lift the neural retina off from the RPE and place photoreceptor side up on an insert raised by a custom-made stand.

Generation of Organotypic Raft Cultures from Primary Human Keratinocytes

JoVE 3668 2/22/2012

Daniel Anacker¹, Cary Moody^1,2

¹Department of Microbiology & Immunology, University of North Carolina-Chapel Hill, ²Lineberger Cancer Center, University of North Carolina-Chapel Hill

An in vitro method to mimic in vivo epithelial differentiation is described. Many viruses target epithelial cells as part of their viral life cycle, and this method provides a means of examining virus:host interactions that more closely resembles that which occurs in vivo. This technique can be used with primary keratinocytes, established cell lines, as well as normal or diseased biopsy tissue.

Culturing and Applications of Rotating Wall Vessel Bioreactor Derived 3D Epithelial Cell Models

JoVE 3868 4/03/2012

Andrea L. Radtke, Melissa M. Herbst-Kralovetz

Basic Medical Sciences, University of Arizona College of Medicine - Phoenix

A rotating cell culture system that allows epithelial cells to grow under physiological conditions resulting in 3-D cellular aggregate formation is described. The aggregates generated display in vivo-like characteristics not observed in conventional culture models and serve as a more accurate organotypic model system for a multitude of scientific investigations.

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.

Time-lapse Imaging of Neuroblast Migration in Acute Slices of the Adult Mouse Forebrain

JoVE 4061 9/12/2012

Jivan Khlghatyan, Armen Saghatelyan

The Cellular Neurobiology Unit, Centre de Recherche Université Laval Robert-Giffard

We describe a protocol for real-time videoimaging of neuronal migration in the mouse forebrain. The migration of virally-labeled or grafted neuronal precursors was recorded in acute live slices using wide-field fluorescent imaging with a relatively rapid acquisition interval to study the different phases of cell migration, including the durations of the stationary and migration phases and the speed of migration.

Primary Culture and Plasmid Electroporation of the Murine Organ of Corti.

JoVE 1685 2/04/2010

Mark Parker^1,2,3, Aurore Brugeaud^1,2, Albert S. B. Edge^1,2,4

¹Department of Otology and Laryngology, Harvard Medical School, ²Eaton-Peabody Laboratory, Massachusetts Eye and Ear Infirmary, ³Department of Communication Sciences and Disorders, Emerson College, ⁴Program in Speech and Hearing Bioscience and Technology, Division of Health Science and Technology, Harvard

This procedure describes a method for the isolation and culture of the murine organ of Corti with or without the spiral limbus and spiral ganglion neurons. We also demonstrate a method for the expression of an exogenous reporter gene in the organ of Corti explant by electroporation.

Rotating Cell Culture Systems for Human Cell Culture: Human Trophoblast Cells as a Model

JoVE 3367 1/18/2012

Kevin J. Zwezdaryk*¹, Jessica A. Warner*^1,2, Heather L. Machado³, Cindy A. Morris¹, Kerstin Höner zu Bentrup¹

¹Department of Microbiology and Immunology, Tulane University Medical School, ²Physician/Scientist Program, Tulane University Medical School, ³Department of Molecular and Cellular Biology, Baylor College of Medicine

Traditional, two dimensional cell culture techniques often result in altered characteristics with respect to differentiation markers, cytokines and growth factors. Three-dimensional cell culture in the rotating cell culture system (RCCS) reestablishes expression of many of these factors as shown here with an extravillous trophoblast cell line.

Chicken Embryo Spinal Cord Slice Culture Protocol

JoVE 50295 3/25/2013

Kristina C. Tubby*, Dee Norval*, Stephen R. Price

Research Department of Cell and Developmental Biology, University College London

Slice cultures facilitate the manipulation of embryo development by gene and pharmacological perturbations. However, culture conditions must ensure that normal development can proceed within the reduced environment of the slice. We illustrate a protocol that facilitates normal spinal cord development to proceed for at least 24 hr.

Gene Delivery to Postnatal Rat Brain by Non-ventricular Plasmid Injection and Electroporation

JoVE 2244 9/17/2010

Dmitry A. Molotkov¹, Alexey Y. Yukin^1,2, Ramil A. Afzalov^1,2, Leonard S. Khiroug¹

¹Neuroscience Center, University of Helsinki, ²Faculty of Biological and Enviromental Sciences, University of Helsinki

This protocol describes a non-viral method of delivery of genetic constructs to a certain area of living rodent brain. The method consists of plasmid preparation, micropipette fabrication, neonatal rat pup surgery, microinjection of the construct, and in vivo electroporation.

Intact Histological Characterization of Brain-implanted Microdevices and Surrounding Tissue

JoVE 50126 2/11/2013

Andrew J. Woolley¹, Himanshi A. Desai¹, Janak Gaire², Andrew L. Ready¹, Kevin J. Otto^1,2

¹Weldon School of Biomedical Engineering, Purdue University, ²Department of Biological Sciences, Purdue University

Here we present a histological method for capturing, labeling, optically clearing, and imaging the intact brain tissue interface around chronically implanted microdevices in rodent brain tissue. Results from the techniques comprising this method are useful for understanding the impact of various penetrating brain-implants on their surrounding tissue.

Brain Slice Stimulation Using a Microfluidic Network and Standard Perfusion Chamber

JoVE 302 10/01/2007

Javeed Shaikh Mohammed¹, Hugo Caicedo¹, Christopher P. Fall², David T. Eddington¹

¹Dept. of Bioengineering, University of Illinois, Chicago, ²Department of Anatomy and Cell Biology, University of Illinois, Chicago

We demonstrate fabrication of a simple microfluidic device that can be integrated with standard electrophysiology setups to expose microscale surfaces of a brain slice in a well controlled manner to different neurotransmitters.

Dissecting the Non-human Primate Brain in Stereotaxic Space

JoVE 1259 7/16/2009

Mark W. Burke¹, Shahin Zangenehpour², Denis Boire³, Maurice Ptito²

¹Department of Physiology, University of Montreal, ²School of Optometry, University of Montreal, ³Département de chimie-biologie
, Université du Québes à Trois-Rivières

The non-human primate is an important translational species for our understanding of the normal processing of the brain. The anatomical organization of the primate brain can provide important insights into normal and pathological conditions in humans.

Dopamine Release at Individual Presynaptic Terminals Visualized with FFNs

JoVE 1562 8/31/2009

Hui Zhang^1,2, Niko G. Gubernator^3,4, Minerva Yue¹, Roland G. W. Staal¹, Eugene V. Mosharov¹, Daniela Pereira¹, Vojtech Balsanek³, Paul A. Vadola³, Bipasha Mukherjee⁵, Robert H. Edwards⁵, David Sulzer^1,2,6, Dalibor Sames³

¹Departments of Neurology, Columbia University, ²Departments of Psychiatry and Pharmacology, Columbia University, ³Department of Chemistry, Columbia University, ⁴eMolecules, Inc., ⁵Departments of Neurology and Physiology, University of California School of Medicine, San Francisco, ⁶Division of Molecular Therapeutics, New York Psychiatric Institute

A new means to measure neurotransmission optically using fluorescent dopamine analogs.

4D Imaging of Protein Aggregation in Live Cells

JoVE 50083 4/05/2013

Rachel Spokoini*, Maya Shamir*, Alma Keness*, Daniel Kaganovich

Department of Cell and Developmental Biology, Alexander Silberman Institute of Life Sciences, Hebrew University of Jerusalem

Cellular viability depends on timely and efficient management of protein misfolding. Here we describe a method for visualizing the different potential fates of a misfolded protein: refolding, degradation, or sequestration in inclusions. We demonstrate the use of a folding sensor, Ubc9^ts, for monitoring proteostasis and aggregation quality control in live cells using 4D microscopy.

Introducing an Angle Adjustable Cutting Box for Analyzing Slice Shear Force in Meat

JoVE 50255 4/26/2013

Tom Whitesell¹, Carmen Avilés², Jennifer L. Aalhus¹, Chris R. Calkins³, Ivy L. Larsen¹, Manuel Juárez¹

¹Lacombe Research Centre, Agriculture and Agri-Food Canada, ²Grupo de investigación MERAGEM, Universidad de Córdoba, ³Department of Animal Science, University of Nebraska

Slice shear force is a reference method for beef texture analysis. Using an angle adjustable cutting box could increase its accuracy for research purposes. The results from different locations within the longissimus muscle show a high correlation with Warner-Bratzler shear force methodology and high potential adaptability for different muscles.

Ex Vivo Culture of Patient Tissue & Examination of Gene Delivery

JoVE 2378 12/20/2010

Simon Rajendran¹, Slawomir Salwa¹, Xuefeng Gao², Sabin Tabirca², Deirdre O'Hanlon², Gerald C. O'Sullivan¹, Mark Tangney¹

¹Cork Cancer Research Centre, Mercy University Hospital and Leslie C. Quick Jnr. Laboratory, University College Cork, ²Department of Computer Science, University College Cork

This article describes the culture of patient tissue slices for gene delivery studies and subsequent analysis of gene expression using IVIS bioluminescence imaging.

Chip-based Three-dimensional Cell Culture in Perfused Micro-bioreactors

JoVE 564 5/21/2008

Eric Gottwald, Brigitte Lahni, David Thiele, Stefan Giselbrecht, Alexander Welle, Karl-Friedrich Weibezahn

Institute for Biological Interfaces, Forschungszentrum Karlsruhe

We describe a chip-based platform for the three-dimensional cultivation of cells in micro-bioreactors. One chip can house up to 10 Mio. cells that can be cultivated under precisely defined conditions with regard to fluid flow, oxygen tension etc. in a sterile, closed circulation loop.

August 2011: This Month in JoVE

JoVE 3776 8/01/2011

Aaron Kolski-Andreaco

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

Bimolecular Fluorescence Complementation (BiFC) Assay for Protein-Protein Interaction in Onion Cells Using the Helios Gene Gun

JoVE 1963 6/12/2010

Courtney A. Hollender, Zhongchi Liu

Dept. Of Cell Biology and Molecular Genetics, University of Maryland

This article illustrates how to properly use the BioRad Helios Gene Gun to introduce plasmid DNA into onion epidermal cells and how to test for protein-protein interactions in onion cells based on the principle of Bimolecular Fluorescence Complementation (BiFC)

Vibrodissociation of Neurons from Rodent Brain Slices to Study Synaptic Transmission and Image Presynaptic Terminals

JoVE 2752 5/25/2011

Sang Beom Jun^1,2, Verginia Cuzon Carlson¹, Stephen Ikeda³, David Lovinger¹

¹Section on Synaptic Pharmacology/Laboratory for Integrative Neuroscience, National Institutes of Health/National Institute on Alcohol Abuse and Alcoholism, ²Department of Electronics Engineering, Ewha Womans University, ³Section on Transmitter Signaling/Laboratory of Molecular Physiology, National Institutes of Health/National Institute on Alcohol Abuse and Alcoholism

This report demonstrates a technique for mechanical isolation of individual viable neurons retaining attached presynaptic boutons. Vibrodissociated neurons have the advantages of rapid production, excellent pharmacological control and improved space-clamp without influence from neighboring cells. This method can be used for imaging of synaptic elements and patch-clamp recording.

An Optic Nerve Crush Injury Murine Model to Study Retinal Ganglion Cell Survival

JoVE 2685 4/25/2011

Zhongshu Tang¹, Shuihua Zhang^1,2, Chunsik Lee¹, Anil Kumar¹, Pachiappan Arjunan¹, Yang Li¹, Fan Zhang¹, Xuri Li¹

¹National Eye Institute, NIH, ²Ophthalmology Department, The Second Hospital of Harbin Medical University

This protocol shows how to retrogradely label retinal ganglion cells, and how to subsequently make an optic nerve crush injury in order to analyze retinal ganglion cell survival and apoptosis. It is an experimental disease model for different types of optic neuropathy, including glaucoma.

Whole-cell Recordings of Light Evoked Excitatory Synaptic Currents in the Retinal Slice

JoVE 771 7/02/2008

Birgit Werner¹, Paul B. Cook^1,2, Christopher L. Passaglia^1,3

¹Program in Neuroscience, Boston University, ²Department of Biology, Boston University, ³Department of Biomedical Engineering, Boston University

This video shows the process of whole-cell voltage clamp recordings in the retinal slice of the aquatic tiger salamander. We demonstrate the preparation of the slice as well as how to perform patch clamp recordings during visual stimulation of the retina.

Patch-clamp Capacitance Measurements and Ca²⁺ Imaging at Single Nerve Terminals in Retinal Slices

JoVE 3345 1/19/2012

Mean-Hwan Kim, Evan Vickers, Henrique von Gersdorff

The Vollum Institute, Oregon Health and Science University

Here we describe a protocol for the preparation of agar-embedded retinal slices that are suitable for electrophysiology and Ca²⁺ imaging. This method allows one to study ribbon-type synapses in retinal microcircuits using direct patch-clamp recordings of single presynaptic nerve terminals.

Preparation of Parasagittal Slices for the Investigation of Dorsal-ventral Organization of the Rodent Medial Entorhinal Cortex

JoVE 3802 3/28/2012

Hugh Pastoll¹, Melanie White², Matthew Nolan²

¹Neuroinformatics DTC, University of Edinburgh, ²Centre for Integrative Physiology, University of Edinburgh

We describe procedures for preparation and electrophysiological recording from brain slices that maintain the dorsal-ventral axis of the medial entorhinal cortex (MEC). Because neural encoding of location follows a dorsal-ventral organization within the MEC, these procedures facilitate investigation of cellular mechanisms important for navigation and memory.