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This unique volume in our Drugs and Pharmaceutical Sciences series covers the development of gene therapy today, the technology involved, clinical applications of siRNA, non-viral vector-based mRNA delivery using nanotechnology, and RNA based vaccines for treating the infectious diseases. It also presents the current application of the CRISPR/Cas9 gene-editing technique which has revolutionized genome editing and which was awarded the 2020 Nobel Prize in Chemistry. Several new drug delivery systems are explored for the applications of gene therapy. These are found to be useful in treating chronic illnesses, including cancer and infectious diseases. Key Features: Overview of the development of gene therapy Provides the most up to date information on the development of gene therapy, from the technology involved to gene correction and genome editing Presents CRISPR gene therapy recent trends and applications Discusses siRNA, mRNA, and DNA plasmids
Adenoviral Vectors for Gene Therapy, Second Edition provides detailed, comprehensive coverage of the gene delivery vehicles that are based on the adenovirus that is emerging as an important tool in gene therapy. These exciting new therapeutic agents have great potential for the treatment of disease, making gene therapy a fast-growing field for research. This book presents topics ranging from the basic biology of adenoviruses, through the construction and purification of adenoviral vectors, cutting-edge vectorology, and the use of adenoviral vectors in preclinical animal models, with final consideration of the regulatory issues surrounding human clinical gene therapy trials. This broad scope of information provides a solid overview of the field, allowing the reader to gain a complete understanding of the development and use of adenoviral vectors. - Provides complete coverage of the basic biology of adenoviruses, as well as their construction, propagation, and purification of adenoviral vectors - Introduces common strategies for the development of adenoviral vectors, along with cutting-edge methods for their improvement - Demonstrates noninvasive imaging of adenovirus-mediated gene transfer - Discusses utility of adenoviral vectors in animal disease models - Considers Federal Drug Administration regulations for human clinical trials
Presents information on non-viral gene-delivery techniques, covering a spectrum of disciplines that include chemistry, molecular biology, cell biology, and pharmacokinetics. This work is useful to researchers and engineers in genetic engineering, molecular medicine, biochemical engineering, and biotechnology.
Polymers and Nanomaterials for Gene Therapy provides the latest information on gene therapy, a topic that has attracted significant attention over the past two decades for the treatment of inherited and acquired genetic diseases. Major research efforts are currently focused on designing suitable carrier vectors that compact and protect oligonucleotides for gene therapy. The book explores the most recent developments in the field of polymer science and nanotechnology, and how these advancements have helped in the design of advanced materials. Non-viral vector systems, including cationic lipids, polymers, dendrimers, peptides and nanoparticles, are potential routes for compacting DNA for systemic delivery. However, unlike viral analogues that have no difficulty in overcoming cellular barriers and immune defense mechanisms, non-viral gene carriers consistently exhibit significant reduced transfection efficiency due to numerous extra- and intracellular obstacles. Therefore, biocompatibility and potential for large-scale production make these compounds increasingly attractive for gene therapy. This book contains chapters on the engineering of polymers and nanomaterials for gene therapy, and how they can form complexes with DNA and avoid both in vitro and in vivo barriers. Other chapters describe in vitro, ex vivo, in vivo gene therapy studies, and the current issues affecting non-viral gene therapy. - Explores current challenges in the research of genetic diseases - Discusses polymers for gene therapy and their function in designing advanced materials - Provides examples of organic and inorganic nanomaterials for gene therapy - Includes labeling, targeting, and assays - Looks at characterization, physico-(bio)chemical properties, and applications
During the past decades, with the introduction of the recombinant DNA, hybridoma and transgenic technologies there has been an exponential evolution in understanding the pathogenesis, diagnosis and treatment of a large number of human diseases. The technologies are evident with the development of cytokines and monoclonal antibodies as therapeutic agents and the techniques used in gene therapy. Immunopharmacology is that area of biomedical sciences where immunology, pharmacology and pathology overlap. It concerns the pharmacological approach to the immune response in physiological as well as pathological events. This goals and objectives of this textbook are to emphasize the developments in immunology and pharmacology as they relate to the modulation of immune response. The information includes the pharmacology of cytokines, monoclonal antibodies, mechanism of action of immune-suppressive agents and their relevance in tissue transplantation, therapeutic strategies for the treatment of AIDS and the techniques employed in gene therapy. The book is intended for health care professional students and graduate students in pharmacology and immunology.
Translating Gene Therapy to the Clinic, edited by Dr. Jeffrey Laurence and Michael Franklin, follows the recent, much-lauded special issue of Translational Research in emphasizing clinical milestones and critical barriers to further progress in the clinic. This comprehensive text provides a background for understanding the techniques involved in human gene therapy trials, and expands upon the disease-specific situations in which these new approaches currently have the greatest therapeutic application or potential, and those areas most in need of future research. It emphasizes methods, tools, and experimental approaches used by leaders in the field of translational gene therapy. The book promotes cross-disciplinary communication between the sub-specialties of medicine, and remains unified in theme. - Presents impactful and widely supported research across the spectrum of science, method, implementation and clinical application - Offers disease-based coverage from expert clinician-scientists, covering everything from arthritis to congestive heart failure, as it details specific progress and barriers for current translational use - Provides key background information from immune response through genome engineering and gene transfer, relevant information for practicing clinicians contemplating enrolling patients in gene therapy trials
I entered the gene therapy field in the mid-1990s, being fascinated by the immense potential of genes as drugs for the treatment of human disease. Since then, I have experienced the ups and downs of this discipline, and tried to contribute with my work and that of my laboratory to the development of innovative approaches to the treatment of cardiovascular disorders. During these years, I have had several opp- tunities to speak on gene therapy at lectures and academic lessons, and have often noticed that the field is very attractive to scientists of all disciplines. However, as yet no comprehensive book on the subject has been published. Indeed, most books in the field are either a collection of gene transfer laboratory protocols or deal with the subject in a rather superficial manner. Hence the idea to write a gene therapy textbook that is broad and comprehensive, but at the same time provides sufficient molecular and clinical detail to be of interest to students, professors, and specialists in the various disciplines that contribute to gene therapy. I have tried to keep the language plain and, whenever possible, non-technical. Since the book is intended to be a textbook in the field of gene therapy in both the basic science and clinical areas, whenever technical descriptions are required, they are provided.
Thirty protocols by leading researchers describe in detail all the essential molecular methods for working with gene transfer systems, along with the methods for gene transfer to specific tissue types either in vivo or ex vivo. The easily reproducible methods range from those for specific viral and nonviral for both genetic and acquired diseases, to those concerned with gene delivery to particular tissues. Methods for applying specific therapeutic systems, such as ribozymes and tumor supressor genes for the treatment of AIDS and cancer, are also included in this authoritative collection.
Many specialists are not familiar with both drug delivery and the molecular biology of DNA vectors. Liposomes in Gene Delivery covers both-molecular biologists will gain a basic knowledge of lipids, liposomes, and other gene delivery vehicles; lipid and drug delivery scientists will better understand DNA, molecular biology, and DNA manipulation. Topics include an introduction to nucleic acids, a theoretical description of DNA, recombinant technology, lipids and liposomes, stability and interaction properties of lipids and liposomes, complexation of lipids and liposomes with DNA plasmids, gene expression of genosomes in various models, structure-activity relationships, and transfection models. This is an excellent introductory text for graduate students, scientists, and researchers in molecular and cell biology, genetics, biochemistry, physical chemistry, colloid science, pharmacology, molecular science, and medicine.
Gene transfer within humans has been an obstacle until about 10 years ago. At that time, it was found that viral vectors were effective carriers of "healthy genes" into patients' cells. The problem, however, was that viral vectors proved unnecessarily harmful to humans: subjects experienced inflamatory activity and negative immunological responses to the genes. Viral vectors were also unable to meet the needs of the pharmaceutical community: they were not reproducible in large-scale proportions in cost-effective ways.Thus, research was undertaken to find a safer way to transfer genes to patients without jeopardizing the safety of the patient. And so non-viral vectors were discovered. This volume presents the various non-viral vectors currently under development. Although not methodologically oriented, it will provide the necessary details behind the development of the vectors. This information will prove useful to both researchers and clinicians.Key Features* Presents state-of-the art developments of nonviral vectors as tools for modern molecular medicine* Covers all types of nonviral vectors, from molecular structure to therapeutic applicationProvides a comprehensive review of synthetic vectors* Includes contributions from major investigators and leading experts in the field