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Histone Modifications in Therapy provides an in-depth analysis of the role of histone mechanisms in major diseases and the promise of targeting histone modifications for disease prevention and treatment. Here, researchers, clinicians and students will discover a thorough, evidence-based discussion of the biology of histones, the diseases engaged by aberrant histone modifications, and pathways with therapeutic potential. Expert chapter addresses the role of histone modifications across a variety of disorders, including cancer, neuropsychiatric, neurodegenerative, cardiac, metabolic, infectious, bacterial, autoimmune and inflammatory disorders, among others. In relation to these disease types, histone modifications are discussed, both as mechanisms of prevention and possible treatment. A concluding chapter brings together future perspectives for targeting histone modifications in therapy and next steps in research. Examines the use of histone modifications in disease prevention and therapy Explores the role of histone modifications in cancer, neuropsychiatric, neurodegenerative, cardiac, metabolic, infectious, bacterial, and inflammatory disease, among others Features chapters from a broad range of international authors and disease specialists
Histone Modifications in Therapy provides an in-depth analysis of the role of histone mechanisms in major diseases and the promise of targeting histone modifications for disease prevention and treatment. Here, researchers, clinicians and students will discover a thorough, evidence-based discussion of the biology of histones, the diseases engaged by aberrant histone modifications, and pathways with therapeutic potential. Expert chapter addresses the role of histone modifications across a variety of disorders, including cancer, neuropsychiatric, neurodegenerative, cardiac, metabolic, infectious, bacterial, autoimmune and inflammatory disorders, among others. In relation to these disease types, histone modifications are discussed, both as mechanisms of prevention and possible treatment. A concluding chapter brings together future perspectives for targeting histone modifications in therapy and next steps in research. - Examines the use of histone modifications in disease prevention and therapy - Explores the role of histone modifications in cancer, neuropsychiatric, neurodegenerative, cardiac, metabolic, infectious, bacterial, and inflammatory disease, among others - Features chapters from a broad range of international authors and disease specialists
Many inheritable changes in gene function are not explained by changes in the DNA sequence. Such epigenetic mechanisms are known to influence gene function in most complex organisms and include effects such as transposon function, chromosome imprinting, yeast mating type switching and telomeric silencing. In recent years, epigenetic effects have become a major focus of research activity. This monograph, edited by three well-known biologists from different specialties, is the first to review and synthesize what is known about these effects across all species, particularly from a molecular perspective, and will be of interest to everyone in the fields of molecular biology and genetics.
Epigenetics and Regeneration compiles the first foundational reference on epigenetic mechanisms governing tissue development, repair, homeostasis, and regeneration, as well as pathways to employ these mechanisms in clinical practice and translational science. In this book, life science researchers, clinicians, and students will discover an interdisciplinary resource bringing together common themes in the field, background overviews, research methods, recent advances, and opportunities for drug discovery. Throughout this volume, special attention is paid to pre-clinical and first clinical studies aimed at increasing the regenerative potential of damaged tissues by epigenetic drugs, as well as innovative, discipline spanning strategies to enhance cell reprogramming. As an all-inclusive, evidence-based volume, Epigenetics and Regeneration will stimulate discussion and boost new research in this fascinating and impactful area of translational epigenetics. - Provides a foundational overview of epigenetics in regenerative medicine - Examines epigenetic components of tissue regeneration for a variety of organ systems and tissue types, as well as current attempts to employ these mechanisms in clinical practice - Offers researchers, students, clinicians, and pharmacologists the tools they need to enhance tissue development, repair, homeostasis, and regeneration and explore new epigenetic therapeutic pathways - Features chapter contributions from leading international researchers and clinicians in the fields of epigenetics and regenerative medicine
The view “It’s all in our genes and we cannot change it” developed in the past 150 years since Gregor Mendel’s experiments with flowering pea plants. However, there is a special form of genetics, referred to as epigenetics, which does not involve any change of our genes but regulates how and when they are used. In the cell nucleus our genes are packed into chromatin, which is a complex of histone proteins and genomic DNA, representing the molecular basis of epigenetics. Our environment and lifestyle decisions influence the epigenetics of our cells and organs, i.e. epigenetics changes dynamically throughout our whole life. Thus, we have the chance to change our epigenetics in a positive as well as negative way and present the onset of diseases, such a type 2 diabetes or cancer. This textbook provides a molecular explanation how our genome is connected with environmental signals. It outlines that epigenetic programming is a learning process that results in epigenetic memory in each of the cells of our body. The central importance of epigenetics during embryogenesis and cellular differentiation as well as in the process of aging and the risk for the development of cancer are discussed. Moreover, the role of the epigenome as a molecular storage of cellular events not only in the brain but also in metabolic organs and in the immune system is described. The book represents an updated but simplified version of our textbook “Human Epigenomics” (ISBN 978-981-10-7614-8). The first five chapters explain the molecular basis of epigenetics, while the following seven chapters provide examples for the impact of epigenetics in human health and disease.
The book highlights work from many different labs that taught us abnormal HDACs potentially contribute to the development or progression of many human diseases including immune dysfunctions, heart disease, cancer, memory impairment, aging, and metabolic disorders.
This open access textbook leads the reader from basic concepts of chromatin structure and function and RNA mechanisms to the understanding of epigenetics, imprinting, regeneration and reprogramming. The textbook treats epigenetic phenomena in animals, as well as plants. Written by four internationally known experts and senior lecturers in this field, it provides a valuable tool for Master- and PhD- students who need to comprehend the principles of epigenetics, or wish to gain a deeper knowledge in this field. After reading this book, the student will: Have an understanding of the basic toolbox of epigenetic regulation Know how genetic and epigenetic information layers are interconnected Be able to explain complex epigenetic phenomena by understanding the structures and principles of the underlying molecular mechanisms Understand how misregulated epigenetic mechanisms can lead to disease
Gliomas, developing in the brain from the transformed glial cells, are a very special kind of tumor, extremely refractory to conventional treatments. Therefore, for the development of new antitumor strategies, a better understanding of molecular mechanisms responsible for their biology, growth and invasion is still needed. This book is a reference on cellular signaling processes regulating gliomas physiology and invasiveness. The work is focused on the mechanism of nucleotide receptor activation by exogenous nucleotides and formation of complex signaling cascades induced by growth factors, cytokines and cannabinoids. The second edition of the book enriched in new chapters provides a framework explaining how signal transduction elements may modulate numerous genetic and epigenetic alterations, describes the role of local microenvironment in cellular growth, progression and invasion and, in the light of extensive new results, presents perspectives concerning potential targets for gliomas therapy.
During the past few decades, it has become increasingly apparent that heredity is not the sole determining factor in disease development, such as cancer. This landmark work covers a wide array of aspects in the relatively new area of epigenetics, ranging from its role in the basic mechanisms of tumorigenesis, to the newest epigenetic drugs being de
Epigenetics is one of the fastest growing fields of sciences, illuminating studies of human diseases by looking beyond genetic make-up and acknowledging that outside factors play a role in gene expression. The goal of this volume is to highlight those diseases or conditions for which we have advanced knowledge of epigenetic factors such as cancer, autoimmune disorders and aging as well as those that are yielding exciting breakthroughs in epigenetics such as diabetes, neurobiological disorders and cardiovascular disease. Where applicable, attempts are made to not only detail the role of epigenetics in the etiology, progression, diagnosis and prognosis of these diseases, but also novel epigenetic approaches to the treatment of these diseases. Chapters are also presented on human imprinting disorders, respiratory diseases, infectious diseases and gynecological and reproductive diseases. Since epigenetics plays a major role in the aging process, advances in the epigenetics of aging are highly relevant to many age-related human diseases. Therefore, this volume closes with chapters on aging epigenetics and breakthroughs that have been made to delay the aging process through epigenetic approaches. With its translational focus, this book will serve as valuable reference for both basic scientists and clinicians alike. Comprehensive coverage of fundamental and emergent science and clinical usage Side-by-side coverage of the basis of epigenetic diseases and their treatments Evaluation of recent epigenetic clinical breakthroughs