A System for Culturing Iris Pigment Epithelial Cells to Study Lens Regeneration in Newt

JoVE 2713 6/22/2011

Rital B. Bhavsar*¹, Kenta Nakamura*¹, Panagiotis A. Tsonis^1,2

¹Department of Biology, University of Dayton, ²Center for Tissue Regeneration and Engineering, University of Dayton

In newt, the lens regenerates always from the dorsal iris by transdifferentiation of the iris pigmented epithelial cells (IPEs). Here we describe a procedure to culture dorsal and ventral newt IPE cells and their implantation to the newt eye. The implanted cells are then studied by tissue sectioning and immunohistochemistry.

Pharmacological and Functional Genetic Assays to Manipulate Regeneration of the Planarian Dugesia japonica

JoVE 3058 8/31/2011

John D. Chan, Jonathan S. Marchant

Department of Pharmacology and The Stem Cell Institute, University of Minnesota Medical School

An attractive model for studying stem cell differentiation within a live animal is the planarian flatworm. Regeneration is studied by simple amputation experiments that are easily performed in a basic laboratory and are amenable to pharmacological and genetic (in vivo RNAi) manipulation as detailed by protocols in this article.

In vivo Electroporation of Morpholinos into the Regenerating Adult Zebrafish Tail Fin

JoVE 3632 3/29/2012

David R. Hyde¹, Alan R. Godwin², Ryan Thummel³

¹Department of Biological Sciences, Center for Zebrafish Research, University of Notre Dame, ²Department of Microbiology, Immunology, and Pathology, Colorado State University, ³Departments of Anatomy and Cell Biology and Ophthalmology, Wayne State University School of Medicine

We describe a method to conditionally knockdown the expression of a target protein during adult zebrafish fin regeneration. This technique involves micro-injecting and electroporating antisense oligonucleotide morpholinos into fin tissue, which allows testing the protein’s role in various stages of fin regeneration, including wound healing, blastema formation, and regenerative outgrowth.

A Zebrafish Model of Diabetes Mellitus and Metabolic Memory

JoVE 50232 2/28/2013

Robert V. Intine¹, Ansgar S. Olsen¹, Michael P. Sarras Jr.²

¹Dr. William M. Scholl College of Podiatric Medicine, Rosalind Franklin University of Medicine and Science, ²Chicago Medical School, Rosalind Franklin University of Medicine and Science

Metabolic memory is the phenomenon by which diabetic complications persist and progress unimpeded even after euglycemia is achieved pharmaceutically. Here we describe a diabetes mellitus zebrafish model which is unique in that it allows for the examination of the mitotically transmissible epigenetic components of metabolic memory in vivo.

Induction of Myocardial Infarction in Adult Zebrafish Using Cryoinjury

JoVE 3666 4/18/2012

Fabian Chablais, Anna Jaźwińska

Department of Biology, Unit of Zoology, University of Fribourg, Fribourg, Switzerland

Zebrafish represents a valuable model to study the mechanisms of heart regeneration in vertebrates. Here, we present a protocol for induction of a heart infarct in adult zebrafish using cryoinjury. This method results in massive cell death within 20% of the ventricular wall, similar to that observed in mammalian infarcts.

Peptides from Phage Display Library Modulate Gene Expression in Mesenchymal Cells and Potentiate Osteogenesis in Unicortical Bone Defects

JoVE 2362 12/10/2010

Gary Balian¹, Gina Beck¹, Vedavathi Madhu¹, Robert Sikes², Quanjun Cui³, Haixiang Liang¹, Joshua Bush¹

¹Orthopaedics Research, University of Virginia, ²Biological Sciences, University of Delaware, ³Orthopaedic Surgery, University of Virginia

A phage display library was used to identify peptide sequences that target bone. The objective was to investigate the effect of these peptides on mesenchymal cell differentiation and to determine their effect on bone regeneration.

Combining Peripheral Nerve Grafting and Matrix Modulation to Repair the Injured Rat Spinal Cord

JoVE 1324 11/20/2009

John D. Houle, Arthi Amin, Marie-Pascale Cote, Michel Lemay, Kassi Miller, Harra Sandrow, Lauren Santi, Jed Shumsky, Veronica Tom

Department of Neurobiology and Anatomy, Drexel University College of Medicine

Traumatic injury to the spinal cord disrupts communication with the brain. To restore lost connectivity we utilize a peripheral nerve graft to provide a substratum for regenerating fibers in combination with neurotrophic factors and matrix-modulating enzymes to remove inhibitory molecules to promote long distance growth.

In vivo Laser Axotomy in C. elegans

JoVE 2707 5/19/2011

Alexandra B. Byrne*, Tyson J. Edwards*, Marc Hammarlund

Department of Genetics, Program in Cellular Neuroscience, Neurodegeneration and Repair, Yale University School of Medicine

A protocol to cut neurons in C. elegans with a MicroPoint pulsed laser is presented. We describe setting up the system, immobilizing worms, and severing labeled neurons. Advantages include a relatively low-cost system and the ability to sever neuronal processes or ablate cells in vivo.

In vivo Electroporation of Morpholinos into the Adult Zebrafish Retina

JoVE 3603 12/27/2011

Ryan Thummel¹, Travis J. Bailey^2,3, David R. Hyde^2,3

¹Departments of Anatomy and Cell Biology and Ophthalmology, Wayne State University School of Medicine, ²Department of Biological Sciences, University of Notre Dame, ³Center for Zebrafish Research, University of Notre Dame

A method to conditionally knockdown a target protein’s expression in the adult zebrafish retina is described, which involves intravitreally injecting antisense morpholinos and electroporating them into the retina. The resulting protein is knocked down for several days, which allows testing the protein’s role in the regenerating or intact retina.

Genetic Study of Axon Regeneration with Cultured Adult Dorsal Root Ganglion Neurons

JoVE 4141 8/17/2012

Saijilafu¹, Feng-Quan Zhou^1,2

¹Department of Orthopaedic Surgery, Johns Hopkins University School of Medicine, ²Solomon H. Snyder Department of Neuroscience, Johns Hopkins University School of Medicine

An in vitro model for genetic study of axon regeneration using cultured adult mouse dorsal root ganglion neurons is described. The method includes a re-suspension/re-plating step to allow axon re-growth from neurons undergoing genetic manipulation. This approach is especially useful for loss-of-function studies of axon regeneration using RNAi-based protein knockdown.

Planarian Immobilization, Partial Irradiation, and Tissue Transplantation

JoVE 4015 8/06/2012

Otto C. Guedelhoefer IV^1,2, Alejandro Sánchez Alvarado^3,4

¹Department of Neurobiology and Anatomy, University of Utah School of Medicine, ²Department of Molecular, Cellular and Developmental Biology, UCSB, ³Howard Hughes Medical Institute, ⁴Stowers Institute for Medical Research

An effective method for grafting tissue of defined and consistent size between planaria is described. Also included is a description of how the immobilization technique used for transplantation can be adapted, in conjunction with lead shields, for the partial irradiation of live animals.

Multicolor Time-lapse Imaging of Transgenic Zebrafish: Visualizing Retinal Stem Cells Activated by Targeted Neuronal Cell Ablation

JoVE 2093 9/20/2010

Junko Ariga*, Steven L. Walker*, Jeff S. Mumm

Department of Cellular Biology and Anatomy, Medical College of Georgia

In this video, techniques for multicolor confocal time-lapse imaging and targeted cell ablation are provided. Time-lapse imaging is used to monitor the behavior of multiple cell types of interest in vivo. Targeted cell ablation facilitates the study neural circuit function and cell-specific neuronal regeneration paradigms.

Rapid Genetic Analysis of Epithelial-Mesenchymal Signaling During Hair Regeneration

JoVE 4344 2/28/2013

Wei-Meng Woo*, Scott X. Atwood*, Hanson H. Zhen, Anthony E. Oro

Program in Epithelial Biology, Stanford University School of Medicine

Tissue-specific analysis of a hair follicle regeneration model using lentivirus to mediate gain- or loss-of-function.

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.

Isolating Stem Cells from Soft Musculoskeletal Tissues

JoVE 2011 7/05/2010

Yong Li^1,2,3,4, Haiying Pan¹, Johnny Huard^1,2,3,4,5

¹Stem Cell Research Center, Childrens Hospital of Pittsburgh of UPMC, ²Department of Bioengineering, University of Pittsburgh, ³Department of Orthopedic Surgery, University of Pittsburgh, ⁴Department of Pathology, University of Pittsburgh, ⁵Department of Molecular Genetics & Biochemistry, University of Pittsburgh

Isolating adult stem cells from musculoskeletal soft tissues based on the cell's adherence speed to flask.

Purification of Progenitors from Skeletal Muscle

JoVE 2476 3/16/2011

Lin Yi, Fabio Rossi

The Biomedical Research Centre, University of British Columbia

Method for the enzymatic dissociation, surface labeling and purification by flow cytometry of fibro/adipogenic and myogenic progenitors from murine skeletal muscle.

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.

Laser-inflicted Injury of Zebrafish Embryonic Skeletal Muscle

JoVE 4351 1/30/2013

Cécile Otten, Salim Abdelilah-Seyfried

Max Delbrück Center for Molecular Medicine

The method presented here comprises the precise injury of live zebrafish embryos with high-energy laser pulses and the subsequent analysis of these injuries and their recovery with time. We also show how genetically labeled single or groups of skeletal muscle cells can be tracked during and after laser light induced damage.

Methods for the Study of the Zebrafish Maxillary Barbel

JoVE 1558 11/23/2009

Elizabeth E. LeClair¹, Jacek Topczewski²

¹Department of Biological Sciences, DePaul University, ²Children’s Memorial Research Center, Department of Pediatrics, Northwestern University Feinberg School of Medicine

The zebrafish maxillary barbel is an integumentary sense organ containing ectodermal, mesodermal and neural crest derivatives. Importantly, the adult barbel can regenerate after proximal amputation. This video introduces maxillary barbel development and demonstrates a surgical protocol to induce regeneration, followed by collection, embedding and downstream imaging of barbel specimens.

An Injury Paradigm to Investigate Central Nervous System Repair in Drosophila

JoVE 50306 3/28/2013

Kentaro Kato, Alicia Hidalgo

Neurodevelopment Group, School of Biosciences, University of Birmingham

An injury paradigm using the Drosophila larval ventral nerve cord to investigate central nervous system regeneration and repair is described. Stabbing followed by laser scanning confocal microscopy in time-lapse and fixed specimens, combined with quantitative analysis with purposefully developed software and genetics, are used to investigate the molecular mechanisms of CNS regeneration and repair.

Measurement of Bioelectric Current with a Vibrating Probe

JoVE 2358 1/04/2011

Brian Reid, Min Zhao

Dermatology, University of California, Davis

The manufacture, calibration and use of non-invasive vibrating probes to measure bioelectric current in various biological systems is described.

Dissection of Adult Mouse Utricle and Adenovirus-mediated Supporting-cell Infection

JoVE 3734 3/28/2012

Carlene S. Brandon¹, Christina Voelkel-Johnson², Lindsey A. May³, Lisa L. Cunningham³

¹Department of Pathology and Laboratory Medicine, Medical University of South Carolina, ²Department of Microbiology & Immunology, Medical University of South Carolina, ³National Institute on Deafness and Other Communication Disorders, National Institutes of Health

Mechanosensory hair cells are the receptor cells of the inner ear. The best-characterized in vitro model system of mature mammalian hair cells utilizes organ cultures of utricles from adult mice. We present the dissection of the adult mouse utricle, and we demonstrate adenovirus-mediated infection of supporting cells in cultured utricles.

Laser Ablation of the Zebrafish Pronephros to Study Renal Epithelial Regeneration

JoVE 2845 8/29/2011

Corbin S. Johnson*, Nicholas F. Holzemer*, Rebecca A. Wingert

Department of Biological Sciences, University of Notre Dame

Acute kidney injury (AKI) in humans is a common clinical problem caused by damage to the epithelial cells that comprise kidney nephrons, and AKI is associated with high mortality rates of 50-70%¹. Following epithelial cell destruction, nephrons have a limited ability to regenerate, though the mechanisms and limitations that guide this phenomenon remain poorly understood. In this video article, we describe our technique for targeted laser ablation of kidney nephron cells in the zebrafish embryo kidney, or pronephros. Our new method can be used to complement nephrotoxicity-induced models of AKI and gain a high-resolution understanding of the cell and molecular alterations that are associated with epithelial regeneration in the kidney nephron.

June 2011: This Month in JoVE

JoVE 3549 6/01/2011

Aaron Kolski-Andreaco

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

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).

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.

Fabrication of a Microfluidic Device for the Compartmentalization of Neuron Soma and Axons

JoVE 261 8/22/2007

Joseph Harris¹, Hyuna Lee¹, Behrad Vahidi¹, Christina Tu², David Cribbs³, Noo Li Jeon¹, Carl Cotman³

¹Department of Biomedical Engineering, University of California, Irvine (UCI), ²Stem Cell Research Center, University of California, Irvine (UCI), ³Institute for Brain Aging and Dementia, University of California, Irvine (UCI)

In this video we demonstrate the technique of soft lithography with polydimethyl siloxane (PDMS) which we use to farbricate a microfluidic device for culturing neurons.

Non-plasma Bonding of PDMS for Inexpensive Fabrication of Microfluidic Devices

JoVE 410 11/01/2007

Joseph Harris¹, Hyuna Lee¹, Behrad Vahidi¹, Cristina Tu², David Cribbs³, Carl Cotman³, Noo Li Jeon¹

¹Department of Biomedical Engineering, University of California, Irvine (UCI), ²Stem Cell Research Center, University of California, Irvine (UCI), ³Institute for Brain Aging and Dementia, University of California, Irvine (UCI)

In this video we demonstrate how to use the neuron microfluidic device without plasma bonding.

Preparing E18 Cortical Rat Neurons for Compartmentalization in a Microfluidic Device

JoVE 305 10/01/2007

Joseph Harris¹, Hyuna Lee¹, Christina Tu Tu², David Cribbs³, Carl Cotman³, Noo Li Jeon¹

¹Department of Biomedical Engineering, University of California, Irvine (UCI), ²Stem Cell Research Center, University of California, Irvine (UCI), ³Institute for Brain Aging and Dementia, University of California, Irvine (UCI)

In this video we demonstrate the preparation of E18 Cortical Rat Neurons.

Embryonic Stem Cell-Derived Endothelial Cells for Treatment of Hindlimb Ischemia

JoVE 1034 1/23/2009

Ngan F. Huang¹, Hiroshi Niiyama¹, Abhijit De², Sanjiv S. Gambhir², John P. Cooke¹

¹Division of Cardiovascular Medicine, Stanford University, ²Department of Radiology, Stanford University

The surgical procedure for delivery of embryonic stem cell-derived endothelial cells to the ischemic hindlimb is demonstrated, with non-invasive tracking by bioluminescence imaging.

Repair of a Critical-sized Calvarial Defect Model Using Adipose-derived Stromal Cells Harvested from Lipoaspirate

JoVE 4221 10/31/2012

David D. Lo*^1,2, Jeong S. Hyun*^1,3, Michael T. Chung¹, Daniel T. Montoro¹, Andrew Zimmermann¹, Monica M. Grova^1,4, Min Lee⁵, Derrick C. Wan¹, Michael T. Longaker¹

¹Department of Surgery, Stanford University, ²Department of Surgery, Duke University, ³Department of Surgery, Saint Joseph Mercy Hospital, ⁴School of Medicine, University of California, San Francisco, ⁵School of Dentistry, University of California, Los Angeles

This protocol describes the isolation of adipose-derived stromal cells from lipoaspirate and the creation of a 4 mm critical-sized calvarial defect to evaluate skeletal regeneration.

Dissection of the Adult Zebrafish Kidney

JoVE 2839 8/29/2011

Gary F. Gerlach*, Lauran N. Schrader*, Rebecca A. Wingert

Department of Biological Sciences, University of Notre Dame

The zebrafish kidney is home to both renal and hematopoietic adult stem/progenitor cells, and represents an outstanding opportunity to study these cell types and their progeny in a vertebrate model organism. Here, we demonstrate a detailed dissection procedure that enables the researcher to identify and surgically remove the adult zebrafish kidney, which can be used for applications such as cell isolation, transplantation, and expression studies of kidney and/or blood cell populations.

JoVE 3rd Issue

JoVE 178 5/01/2007

This third issue of JoVE draws attention to issues on the intersection of the basic and applied biomedical research. In this context, the interview with Ole Isacson (McLean Hospital/Harvard Medical School) provides an in-depth look at contemporary challenges of Parkinson’s disease research. The candid interview grants insights that reach beyond the pure scientific problems, as it addresses...

Efficient Polyethylene Glycol (PEG) Mediated Transformation of the Moss Physcomitrella patens

JoVE 2560 4/19/2011

Yen-Chun Liu, Luis Vidali

Department of Biology and Biotechnology, Worcester Polytechnic Institute- WPI

A simple and efficient method to transform Physcomitrella pantens protoplasts is described. This method is adapted from protocols for Physocmitrella protonemal protoplast and Arabidopsis mesophyll protoplast transformation¹.

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.

Live Imaging of Dorsal Root Axons after Rhizotomy

JoVE 3126 9/01/2011

Andrew Skuba¹, B. Timothy Himes^2,3, Young-Jin Son⁴

¹Temple University, Shriners Hospitals Pediatric Research Center and Department of Anatomy and Cell Biology, ²Medical Research Service, Department of Veterans Affairs Hospital, ³Department of Neurobiology and Anatomy, Drexel University College of Medicine, ⁴Shriners Hospitals Pediatric Research Center and Department of Anatomy and Cell Biology, Temple University School of Medicine

An in vivo imaging protocol to monitor primary sensory axons following dorsal root crush is described. The procedures utilize wide-field fluorescence microscopy and thy1-YFP transgenic mice, and permit repeated imaging of axon regeneration over 4 cm in the PNS and axon interactions with the interface of the CNS.

Evaluation of Biomaterials for Bladder Augmentation using Cystometric Analyses in Various Rodent Models

JoVE 3981 8/09/2012

Duong D. Tu*¹, Abhishek Seth*¹, Eun Seok Gil², David L. Kaplan², Joshua R. Mauney¹, Carlos R. Estrada Jr.¹

¹Children's Hospital Boston, Harvard Medical School, ²Tufts University

Surgical stages of bladder augmentation are described using 3-D scaffolds in murine and rat models. To test the efficacy of biomaterial configurations for use in bladder augmentation, techniques for both awake and anesthetized cystometry are presented.

Use of Human Perivascular Stem Cells for Bone Regeneration

JoVE 2952 5/25/2012

Aaron W. James*¹, Janette N. Zara*², Mirko Corselli², Michael Chiang¹, Wei Yuan², Virginia Nguyen¹, Asal Askarinam¹, Raghav Goyal¹, Ronald K. Siu³, Victoria Scott¹, Min Lee³, Kang Ting¹, Bruno Péault^2,4, Chia Soo²

¹Dental and Craniofacial Research Institute and Section of Orthodontics, School of Dentistry, UCLA, ²UCLA and Orthopaedic Hospital, Department of Orthopaedic Surgery and the Orthopaedic Hospital Research Center, UCLA, ³Department of Bioengineering, UCLA, ⁴Center for Cardiovascular Science, University of Edinburgh

Human perivascular stem cells (PSCs) are a novel stem cell class for skeletal tissue regeneration similar to mesenchymal stem cells (MSCs). PSCs can be isolated by FACS (fluorescence activated cell sorting) from adipose tissue procured during standard liposuction procedures, then combined with an osteoinductive scaffold to achieve bone formation in vivo.

Heart Dissection in Larval, Juvenile and Adult Zebrafish, Danio rerio

JoVE 3165 9/30/2011

Corinna Singleman, Nathalia G. Holtzman

Department of Biology, Queens College, City University of New York

A clear, standardized method for dissection and isolation of the zebrafish heart at multiple developmental stages are described. Annotation and quantification techniques are also discussed.

Treatment of Osteochondral Defects in the Rabbit's Knee Joint by Implantation of Allogeneic Mesenchymal Stem Cells in Fibrin Clots

JoVE 4423 5/21/2013

Markus T. Berninger^1,2, Gabriele Wexel³, Ernst J. Rummeny², Andreas B. Imhoff¹, Martina Anton³, Tobias D. Henning*^2,4, Stephan Vogt*¹

¹Department of Orthopaedic Sports Medicine, Klinikum rechts der Isar der Technischen Universität München, ²Department of Radiology, Klinikum rechts der Isar der Technischen Universität München, ³Institute of Experimental Oncology and Therapy Research, Klinikum rechts der Isar der Technischen Universität München, ⁴Department of Radiology, Uniklinik Köln

An experimental technique for the treatment of osteochondral defects in the rabbit's knee joint is described. The implantation of allogeneic mesenchymal stem cells into osteochondral defects provides a promising development in the field of tissue engineering. The preparation of fibrin-cell-clots in vitro offers a standardized method for implantation.

Molecular Imaging to Target Transplanted Muscle Progenitor Cells

JoVE 50119 3/27/2013

Kelly Gutpell^1,2, Rebecca McGirr¹, Lisa Hoffman^1,2,3

¹Imaging Program, Lawson Health Research Institute, ²Department of Anatomy and Cell Biology, Western University, ³Department of Medical Biophysics, Western University

A non-invasive means to evaluate the success of myoblast transplantation is described. The method takes advantage of a unified fusion reporter gene composed of genes whose expression can be imaged with different imaging modalities. Here, we make use of a fluc reporter gene sequence to target cells via bioluminescence imaging.

Constructing a Low-budget Laser Axotomy System to Study Axon Regeneration in C. elegans

JoVE 3331 11/15/2011

Wes Williams, Paola Nix, Michael Bastiani

Department of Biology, University of Utah

Laser axotomy followed by time-lapse imaging is a sensitive way to assay the effects of mutations in C. elegans on axon regeneration. A high quality, but inexpensive, laser ablation system can be easily added to most microscopes. Time lapse imaging over 15 hours requires careful immobilization of the worm.

Time-lapse Live Imaging of Clonally Related Neural Progenitor Cells in the Developing Zebrafish Forebrain

JoVE 2594 4/06/2011

Zhiqiang Dong, Mahendra Wagle, Su Guo

Department of Bioengineering and Therapeutic Sciences, Programs in Human Genetics and Biological Sciences , University of California San Francisco

The present video demonstrates a method which takes advantage of the combination of electroporation and confocal microscopy to perform live imaging on individual neural progenitor cells in the developing zebrafish forebrain. In vivo analysis of the development of forebrain neural progenitor cells at a clonal level can be achieved in this way.

Transplantation of Cells Directly into the Kidney of Adult Zebrafish

JoVE 2725 5/18/2011

Cuong Q. Diep, Alan J. Davidson

Center for Regenerative Medicine, Massachusetts General Hospital

Cell transplantation is an essential technique for studying tissue regeneration and for developing cell-based therapies of disease. We demonstrate here a microsurgical technique that permits the transplantation of genetically labeled cells directly into the kidney of adult zebrafish fish.

The Importance of Correct Protein Concentration for Kinetics and Affinity Determination in Structure-function Analysis

JoVE 1746 3/17/2010

Ewa Pol

GE Healthcare Bio-Sciences AB

We apply label-free protein interaction analysis using Biacore X100 for structure-function analysis of the binding of several cystatin B mutants to papain through kinetic characterization. Calibration-free concentration analysis (CFCA) measures the concentration of protein with retained binding activity without the need for a standard curve. We show that confirmation of concentrations using CFCA increases the reliability of the kinetic analysis and that kinetic constants can reliably be determined even if the activity of a recombinant protein is reduced.

Implantation of Ferumoxides Labeled Human Mesenchymal Stem Cells in Cartilage Defects

JoVE 1793 4/05/2010

Alexander J. Nedopil, Lydia G. Mandrussow, Heike E. Daldrup-Link

Department of Radiology and Biomedical Imaging, Medical Center, University of California San Francisco

Goal of the presentation is to demonstrate a highly reproducible method to generate matrix associated stem cell implants in cartilage defects, which can be visualized with MR imaging. Stem cells are labeled with FDA-approved Ferumoxides, mixed with agarose, implanted into cartilage defects and imaged with a 7T MR scanner.

Isolation and Animal Serum Free Expansion of Human Umbilical Cord Derived Mesenchymal Stromal Cells (MSCs) and Endothelial Colony Forming Progenitor Cells (ECFCs)

JoVE 1525 10/08/2009

Andreas Reinisch, Dirk Strunk

Stem Cell Research Unit, Medical University of Graz, Austria

This protocol describes the isolation and subsequent expansion of mesenchymal stromal cells and endothelial colony forming cells without the use of animal serum to generate autologous pairs for experimental transplantation purposes.

Decellularization and Recellularization of Whole Livers

JoVE 2394 2/04/2011

Basak E. Uygun, Gavrielle Price, Nima Saeidi, Maria-Louisa Izamis, Tim Berendsen, Martin Yarmush, Korkut Uygun

Center for Engineering in Medicine, Massachusetts General Hospital, Harvard Medical School, Shriners Hospitals for Children

Perfusion decellularization is a novel technique to produce whole liver scaffolds that retains the organ's extracellular matrix composition and microarchitecture. Herein, the method of preparing whole organ scaffolds using perfusion decellularization and subsequent repopulation with hepatocytes is described. Functional and transplantable liver grafts can be generated using this technique.

Measuring the Strength of Mice

JoVE 2610 6/02/2013

Robert M.J. Deacon

Department of Experimental Psychology, University of Oxford

Deficits in muscular strength occur in many clinical conditions such as motor neuron disease. The inverted screen and weight lifting tests described here measure strength in mice almost exclusively, with minimal influence of factors such as coordination.

Phenotypic and Functional Characterization of Endothelial Colony Forming Cells Derived from Human Umbilical Cord Blood

JoVE 3872 4/13/2012

Nutan Prasain, J. Luke Meador, Mervin C. Yoder

Herman B Wells Center for Pediatric Research, Indiana University School of Medicine

Endothelial colony forming cells (ECFCs) are circulating endothelial cells with robust clonal proliferative potential that display intrinsic in vivo vessel forming ability. Phenotypic and functional characterization of outgrowth endothelial cells derived from CB are important to identify and isolate bona fide ECFCs for potential clinical application in repairing damaged tissues.