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The use of oligonucleotides as therapeutic agents rests upon their ability to interfere, in a sequence-specific manner, with the fundamental machinery of protein synthesis either by binding to the mRNAs transcribed from a gene or by binding directly to a target gene. This approach can be used not only for inhibition of the synthesis of host proteins but also of those required by invading pathogens. Potential therapeutic applications are enormous, ranging over hypertension, cardiovascular disease, autoimmune disease, vital and other parasitic infections (especially HIV), and cancer. This book discusses the chemistry and pharmacokinetics of oligonucleotides and their analogues, and surveys the results of structure-activity studies and current clinical trials. It also critically reviews the problems with antisense therapy, such as the enzymatic destruction of oligonucleotides, the doses required for a therapeutic response, the difficulty in directing oligonucleotides to particular target tissues and cells, the need for parenteral administration, and doubts concerning the mechanism of action (especially problems associated with non-specific binding to proteins) and long-term effects.
A practical, up-to-date treatise on this technology and its potential application in therapeutics. It features critical analyses of the specificity of the agents, and the possibility of antisense oligomers acting through non-antisense mechanisms. The history of early development of antisense oligodeoxynucleotides and their chemical modification to increase their stability is followed by delivery and penetration into cells, non-antisense effects of antisense oligonucleotides, pharmacokinetic properties; in vitro and in vivo model systems, and clinical trials.
Antisense technology may result in dramatic changes in the therapy of many diseases and may provide tools to dissect pharmacological processes and to confirm the roles of various genes. In this volume, progress in the understanding of antisense technology and its use in creating new drugs is discussed. Potential caveats, pitfalls and limitations of the technology are also presented. In the next few years the pace at which new molecular targets will be identified will increase exponentially as the sequencing of the human genome and of other genomes proceeds.
Antisense molecules interact with complementary strands of nucleic acids, modifying expression of genes. Some regions within a double strand of DNA code for genes, which are usually instructions specifying the order of amino acids in a protein along with regulatory sequences, splicing sites, non-coding introns and other complicating details. For a cell to use this information, one strand of the DNA serves as a template for the synthesis of a complementary strand of RNA. The template DNA strand is called the transcribed strand with antisense sequence and the mRNA transcript is said to be sense sequence (the complement of antisense). Because the DNA is double-stranded, the strand complementary to the antisense sequence is called non-transcribed strand and has the same sense sequence as the mRNA transcript (though T bases in DNA are substituted with U bases in RNA). This book presents important new research from around the world in this field.
Antisense technology is the ability to manipulate gene expression within mammalian cells providing powerful experimental approaches for the study of gene function and gene regulation. For example, methods that inhibit gene expression permit studies which probe the normal function of a specific product within a cell. Such methodology can be used in many disciplines such as pharmacology, oncology, genetics, cell biology, developmental biology, molecular biology, biochemistry, and neurosciences. This volume will be a truly important tool in biomedical-oriented research.The critically acclaimed laboratory standard for more than forty years, Methods in Enzymology is one of the most highly respected publications in the field of biochemistry. Since 1955, each volume has been eagerly awaited, frequently consulted, and praised by researchers and reviewers alike. Now with more than 300 volumes (all of them still in print), the series contains much material still relevant today--truly an essential publication for researchers in all fields of life sciences.
While addressing the particular problems associated with several classes of biotechnology products, this book also demonstrates that the principles are the same as in the development of small new chemical entities. It begins by studying FDA regulatory expectations for biotech products, before moving on to discuss general issues common to each class of biotech drug, such as proteins, peptides, and nucleic acids. The text deals with specific biotech drugs that have successfully made it into clinical trials, and each review is written by a renowned expert in the relevant fields.
Extensively revised and updated, Antisense Drug Technology: Principles, Strategies, and Applications, Second Edition reflects the logarithmic progress made in the past four years of oligonucleotide-based therapies, and, in particular, antisense therapeutics and research. Interpreting lessons learned from the clinical trials of first generati
Oligonucleotides diffuse poorly through biological barriers, including cell membranes. They are also rapidly degraded in vivo by nucleuses. Aiming to improve the administration of compounds, the book studies the development of nucleotide chemistry.
Progress in Nucleic Acid Research and Molecular Biology