Epidermal Cells - Methods and Protocols

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In recent years, our ability to understand and manipulate epidermal cells has increased tremendously, opening significant new possibilities in both basic science research and in regenerative medicine, including would healing and transplantation. Epidermal Cells: Methods and Protocols, Second Edition expands upon the popular first edition by bringing together a panel of experienced basic and clinical researchers to describe in step-by-step detail the powerful methods they have developed and optimized to analyze and manipulate epidermal cell precursors and mature epidermal cells. These protocols cover different methods and models for culturing epidermal cells, for enriching very early epidermal progenitors, as well as for studying epidermal cell commitment and differentiation both in vitro and in vivo. Topics of special interest include the derivation, characterization, and utility of epidermal stem cells, mature epidermal cells and their characterization, and applications inregenerative medicine. The protocols follow the successful Methods in Molecular Biology(TM) series format, providing introductions to their respective topics, lists of the necessary materials and reagents, and notes on troubleshooting and avoiding known pitfalls.
State-of-the-art and highly practical, Epidermal Cells: Methods and Protocols, Second Edition offers experienced and novice investigators alike an invaluable collection of readily reproducible techniques designed to broaden not only our understanding of the biology of epidermal cells, but also their utility in normal tissue homeostasis and regenerative medicine applications.

List of contents

Isolation of Adult Mouse Stem Keratinocytes Using Magnetic Cell Sorting (MACS).- Functional Investigations of Keratinocyte Stem Cells and Progenitors at a Single-Cell Level Using Multiparallel Clonal Microcultures.- Growth and Stratification of Epithelial Cells in Minimal Culture Conditions.- Matched Cultures of Keratinocytes and Fibroblasts Derived from Normal and NER-Deficient Mouse Models.- Establishment of Spontaneously Immortalized Keratinocyte Lines from Wild-Type and Mutant Mice.- Study of Epidermal Differentiation in Human Keratinocytes Cultured in Autocrine Conditions.- Directed Differentiation of Human Embryonic Stem Cells to Epidermal Progenitors.- Expression and Analysis of Exogenous Proteins in Epidermal Cells.- Using siRNA Knockdown in HaCaT Cells to Study Transcriptional Control of Epidermal Proliferation Potential.- RNA Interference in Keratinocytes and an Organotypic Model of Human Epidermis.- Scanning for Transcription Factor Binding by a Variant EMSA.- Chromatin Immunoprecipitation for Identifying Transcription Factor Targets in Keratinocytes.- Gene Expression Profiling of Mouse Epidermal Keratinocytes.- Analysis of Tissue-Specific Gene Expression Using Laser Capture Microdissection.- Comprehensive Transcriptional Profiling of Human Epidermis, Reconstituted Epidermal Equivalents, and Cultured Keratinocytes Using DNA Microarray Chips.- Molecular Profiling of the Epidermis: A Proteomics Approach.- Detection of Gene Expression in Embryonic Tissues and Stratified Epidermis by In Situ Hybridization.- Embryonic Mammary Anlagen Analysis Using Immunolabelling of Whole Mounts.- Whole-Mount Assays for Gene Induction and Barrier Formation in the Developing Epidermis.- Tetracycline-Regulated Gene Expression in Transgenic Mouse Epidermis.- A Versatile Murine 3D Organotypic Model to Evaluate Aspects of Wound Healing and Epidermal Organization.- Optical and Biochemical Dissection of Connexin and Disease-Linked Connexin Mutants in 3D Organotypic Epidermis.- Cytokine Release in Tissue-Engineered Epidermal Equivalents After Prolonged Mechanical Loading.- Three-Dimensional Human Tissue Models of Wounded Skin.- In Vivo Transplantation of Genetically Modified Mouse Embryonic Epidermis.- A Transplant Model for Human Epidermal Skin Regeneration.- Identification of Epithelial Stem Cells In Vivo and In Vitro Using Keratin 19 and BrdU.- Isolation and Culture of Hair Follicle Pluripotent Stem (hfPS) Cells and Their Use for Nerve and Spinal Cord Regeneration.- Limiting Dilution Analysis of Murine Epidermal Stem Cells Using an In Vivo Regeneration Assay.

Summary

In recent years, our ability to understand and manipulate epidermal cells has increased tremendously, opening significant new possibilities in both basic science research and in regenerative medicine, including would healing and transplantation. Epidermal Cells: Methods and Protocols, Second Edition expands upon the popular first edition by bringing together a panel of experienced basic and clinical researchers to describe in step-by-step detail the powerful methods they have developed and optimized to analyze and manipulate epidermal cell precursors and mature epidermal cells. These protocols cover different methods and models for culturing epidermal cells, for enriching very early epidermal progenitors, as well as for studying epidermal cell commitment and differentiation both in vitro and in vivo. Topics of special interest include the derivation, characterization, and utility of epidermal stem cells, mature epidermal cells and their characterization, and applications inregenerative medicine. The protocols follow the successful Methods in Molecular Biology™ series format, providing introductions to their respective topics, lists of the necessary materials and reagents, and notes on troubleshooting and avoiding known pitfalls.

State-of-the-art and highly practical, Epidermal Cells: Methods and Protocols, Second Edition offers experienced and novice investigators alike an invaluable collection of readily reproducible techniques designed to broaden not only our understanding of the biology of epidermal cells, but also their utility in normal tissue homeostasis and regenerative medicine applications.

Additional text

From the reviews of the second edition:
“This book introduces a wide variety of laboratory protocols for isolating and analyzing the differentiation potential of mammalian epidermal cells. … The book is written for basic science investigators … . will also be appreciated by clinicians interested in experimental dermatology and dermatopathology. … This is an important contribution to the literature in adult stem cell biology. … the theoretical and practical importance of this research and the diversity of topics will help this volume capture the attention of a wide audience of readers.” (Bruce A. Fenderson, Doody’s Review Service, July, 2010)

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From the reviews of the second edition:
"This book introduces a wide variety of laboratory protocols for isolating and analyzing the differentiation potential of mammalian epidermal cells. ... The book is written for basic science investigators ... . will also be appreciated by clinicians interested in experimental dermatology and dermatopathology. ... This is an important contribution to the literature in adult stem cell biology. ... the theoretical and practical importance of this research and the diversity of topics will help this volume capture the attention of a wide audience of readers." (Bruce A. Fenderson, Doody's Review Service, July, 2010)