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Gene therapy was conceived during the early and mid part of the 20th century. At first, it was considered a revolutionary biomedical procedure, which could potentially cure any disease for which the molecular bases were understood. Since then, gene therapy has gone through many stages and has evolved from a nearly unrealistic perspective to a real life application. Clinical efficacy in humans was demonstrated at the beginning of this century after its successful application in small-scale clinical trials to cure severe immunodeficiency in children. However, their successes were overshadowed some time later by the occurrence of vector-related leukaemia in a number of treated children. It is in this context that lentiviral vectors have appeared, with improved efficiency and, possibly, increased biosafety. Very recently, the first clinical trials with lentivectors have been carried out with some success. This Brief firstly defines gene therapy, and places lentivectors within this fascinating therapeutic strategy. Then follows a comprehensive description of the development of retroviral and lentiviral vectors and how to specifically target distinct cell types and tissues. The authors also discuss the application of lentivector gene therapy for the treatment of cancer and autoimmune diseases, ending with the application of lentivectors in human gene therapy clinical trials.
For the first time a compilation of chapters that depict the biological bases underlying the development of lentiviral vectors, the techniques involved in the manufacture of this new gene delivery tool, and its most promising applications.
For the first time a compilation of chapters that depict the biological bases underlying the development of lentiviral vectors, the techniques involved in the manufacture of this new gene delivery tool, and its most promising applications.
Cell gene engineering is emerging as a field with outstanding impact, not only in medicine/biology, but also, and perhaps most importantly, in agriculture and in all those food sciences involved in the fight against world hunger. Lentivirus vector-based technologies represent the last frontier in the development of powerful and reliable methods for both in vitro and in vivo gene transfer in eukaryotic animal cells. Although the design of lentivirus vectors is closely reminiscent of those already successfully applied to the construction of oncoretroviral vectors, some unique features, e.g., the ef- ciency in transducing both postmitotic and stem cells, render the use of lentivirus vectors invaluable. It has been a great pleasure to edit Lentivirus Gene Engineering Pro- cols, owing in part to the high level of enthusiasm that the authors dem- strated in contributing to this book. The fact that so many outstanding scientists engaged in lentivirus vector research have provided articles renders it so- thing more than a technical handbook. In addition to detailed descriptions of the most innovative methodologies, the reader may find very informative ov- views concerning both theoretical and practical aspects of the origin and the development of diverse lentivirus vector types. This, in my opinion, rep- sents a unique added value of this volume, which should help our work resist the passage of time, to which books such as this are particularly sensitive.
Gene therapy was conceived during the early and mid part of the 20th century. At first, it was considered a revolutionary biomedical procedure, which could potentially cure any disease for which the molecular bases were understood. Since then, gene therapy has gone through many stages and has evolved from a nearly unrealistic perspective to a real life application. Clinical efficacy in humans was demonstrated at the beginning of this century after its successful application in small-scale clinical trials to cure severe immunodeficiency in children. However, their successes were overshadowed some time later by the occurrence of vector-related leukaemia in a number of treated children. It is in this context that lentiviral vectors have appeared, with improved efficiency and, possibly, increased biosafety. Very recently, the first clinical trials with lentivectors have been carried out with some success. This Brief firstly defines gene therapy, and places lentivectors within this fascinating therapeutic strategy. Then follows a comprehensive description of the development of retroviral and lentiviral vectors and how to specifically target distinct cell types and tissues. The authors also discuss the application of lentivector gene therapy for the treatment of cancer and autoimmune diseases, ending with the application of lentivectors in human gene therapy clinical trials.
Delivery of therapeutic proteomics and genomics represent an important area of drug delivery research. Genomics and proteomics approaches could be used to direct drug development processes by unearthing pathways involved in disease pathogenesis where intervention may be most successful. This book describes the basics of genomics and proteomics and highlights the various chemical, physical and biological approaches to protein and gene delivery. - Covers a diverse array of topics from basic sciences to therapeutic applications of proteomics and genomics delivery - Of interest to researchers in both academia and industry - Highlights what's currently known and where further research is needed
The human immunodeficiency viruses (HIVs), in particular HIV-1, are the causative agent responsible for the current worldwide epidemic of acquired immunodeficiency syndrome (AIDS). A major effort has thus been underway over the past two decades to understand and control this pathogen. During this time, an enormous knowledge base has accumulated regarding the role of viral factors in the HIV-1 life cycle, and the interaction of HIV-1 with the host cell is becoming increasingly understood. Certain features of HIV, for example its ability to infect non-dividing cells, are being exploited in the development of novel gene therapy vehicles. This volume provides an overview of the current information regarding the HIV replication cycle and will serve as an introduction to subsequent chapters that address specific aspects of lentiviral-based gene therapy.
This volume discusses protocols, ranging from vector production to delivery methods, used to execute gene therapy applications. Chapters are divided into four parts, and cover topics such as design, construction, and application of transcription activation-like effectors; multi-modal production of adeno-associated virus; construction of oncolytic herpes simplex virus; AAV-mediated gene delivery to the mouse liver; and intrathecal delivery of gene therapeutics by direct lumbar puncture in mice. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Comprehensive and authoritative, Viral Vectors for Gene Therapy: Methods and Protocols is a valuable resource for researchers, clinicians, and students looking to utilize viral vectors in gene therapy experiments.
This volume provides comprehensive methods from expert scientists working in the Chimeric Antigen Receptor T Cell (CAR-T Cell) field. Chapters guide readers through the state-of-art of CAR-T cell technology, CAR design and vector production, CAR-T cell generation and manufacturing, CAR-T cell characterization, and quality control. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and cutting-edge, Chimeric Antigen Receptor T Cells: Development and Production aims to be useful in the production of CAR-T cells, especially for therapeutic purposes.
The Second Edition of Gene Therapy of Cancer provides crucial updates on the basic science and ongoing research in this field, examining the state of the art technology in gene therapy and its therapeutic applications to the treatment of cancer. The clinical chapters are improved to include new areas of research and more successful trials. Chapters emphasize the scientific basis of gene therapy using immune, oncogene, antisense, pro-drug activating, and drug resistance gene targets, while other chapters discuss therapeutic approaches and clinical applications. This book is a valuable reference for anyone needing to stay abreast of the latest advances in gene therapy treatment for cancer. - Provides in-depth description of targeted systems and treatment strategies - Explains the underlying cancer biology necessary for understanding a given therapeutic approach - Extensively covers immune therapeutics of vaccines, cytokines, and peptide-induced responses - Presents translational focus with emphasis on requirements for clinical implementation - Incorporates detailed illustrations of vectors and therapeutic approaches ideal for classroom presentations and general reference