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This book series consists of 3 volumes covering the basic science (Volume 1), clinical science (Volume 2) and the technology and methodology (Volume 3) of autophagy. Volume 1 focuses on the biology of autophagy, including the signaling pathways, regulating processes and biological functions. Autophagy is a fundamental physiological process in eukaryotic cells. It not only regulates normal cellular homeostasis, and organ development and function, but also plays an important role in the pathogenesis of a wide range of human diseases. Thanks to the rapid development of molecular biology and omic technologies, research on autophagy has boomed in recent decades, and more and more cellular and animal models and state-of the-art technologies are being used to shed light on the complexity of signaling networks involved in the autophagic process. Further, its involvement in biological functions and the pathogenesis of various diseases has attracted increased attention around the globe. Presenting cutting-edge knowledge, this book series is a useful reference resource for researchers and clinicians who are working on or interested in autophagy.
Intermittent Fasting for Longevity and Performance Your cells are constantly monitoring the nutrient status of the cells to determine whether or not to conserve energy or to promote growth. **One of the few known ways of increasing lifespan in almost all species is caloric restriction and energy deprivation.** This triggers many metabolic pathways and processes that make the organism more adaptable to environmental stressors and thus live longer. **The metabolism has two sub-categories or sub-processes called anabolism and catabolism. ** * Anabolism, meaning 'upward' in Greek, describes the synthesis of biological molecules to build up new physical matter in the body. * Catabolism, meaning 'downward' in Greek, describes the breaking down of biological molecules to release energy. This can apply to the breakdown of bodily tissue as well as the digestion of food that then gets assimilated into the body through anabolic processes. In addition to 'Metabolic', you can also find another word in the title - 'Autophagy', which translates from Ancient Greek into 'self-devouring' or 'eating of self'. This is central to the main practice of this book. By maintaining a balance between anabolism and catabolism, you can effectively extend your lifespan. The process of autophagy entails your healthy cells devouring the old, worn-out, weak ones and converting them back into energy. It's literally your body eating itself and using that to maintain homeostasis. There are many longevity-boosting benefits to this as illustrated in virtually all other species. This book is a collection of guidelines about the principles of the anabolic-catabolic cycles in regards to nutrition and exercise. It's definitely not a panacea - a solution or remedy for all conditions and circumstances. Instead, it's a very specific protocol that's not supposed to apply for all situations. **Metabolic Autophagy will teach you:** * What increases lifespan in humans and other species * Why there's so much disease and obesity in society * How to promote health and longevity with intermittent fasting * What is Autophagy and how it works * How to age slower and be vigorous throughout your life * Which foods make you live longer and build muscle * How the nutrient regulators of mTOR, AMPK, sirtuins, FOXO proteins, hormesis and others affect longevity * What are circadian rhythms and how they affect your health * Metabolic Autophagy Foods list and their anabolic-catabolic score * Supplements that support muscle growth and longevity * Many extras and bonuses in regards to food and exerciseSiim Land is a best-selling author, anthropologist, entrepreneur, high-performance coach and a biohacker who writes about optimizing health and human performance.This book incorporates daily lifestyle and dietary practices that help to cross the chasm between longevity and high performance.
With the explosion of information on autophagy in cancer, this is an opportune time to speed the efforts to translate our current knowledge about autophagy regulation into better understanding of its role in cancer. This book will cover the latest advances in this area from the basics, such as the molecular machinery for autophagy induction and regulation, up to the current areas of interest such as modulation of autophagy and drug discovery for cancer prevention and treatment. The text will include an explanation on how autophagy can function in both oncogenesis and tumor suppression and a description of its function in tumor development and tumor suppression through its roles in cell survival, cell death, cell growth as well as its influences on inflammation, immunity, DNA damage, oxidative stress, tumor microenvironment, etc. The remaining chapters will cover topics on autophagy and cancer therapy. These pages will serve as a description on how the pro-survival function of autophagy may help cancer cells resist chemotherapy and radiation treatment as well as how the pro-death functions of autophagy may enhance cell death in response to cancer therapy, and how to target autophagy for cancer prevention and therapy − what to target and how to target it. ​
''An exciting glance at key issues in contemporary hematopoiesis.'' -The Quarterly Review of Biology
Genetic alterations in cancer, in addition to being the fundamental drivers of tumorigenesis, can give rise to a variety of metabolic adaptations that allow cancer cells to survive and proliferate in diverse tumor microenvironments. This metabolic flexibility is different from normal cellular metabolic processes and leads to heterogeneity in cancer metabolism within the same cancer type or even within the same tumor. In this book, we delve into the complexity and diversity of cancer metabolism, and highlight how understanding the heterogeneity of cancer metabolism is fundamental to the development of effective metabolism-based therapeutic strategies. Deciphering how cancer cells utilize various nutrient resources will enable clinicians and researchers to pair specific chemotherapeutic agents with patients who are most likely to respond with positive outcomes, allowing for more cost-effective and personalized cancer therapeutic strategies.
This book illustrates various aspects of cancer cell metabolism, including metabolic regulation in solid tumours vs. non-solid tumours, the molecular pathways involved in its metabolism, and the role of the tumour microenvironment in the regulation of cancer cell metabolism. It summarizes the complexity of cancer cell metabolism in terms of the switch from anaerobic to aerobic glycolysis and how mitochondrial damage promotes aerobic glycolysis in cancer cells. The respective chapters provide the latest information on the metabolic remodelling of cancer cells and elucidate the important role of the signalling pathways in reprogramming of cancer cell metabolism. In addition, the book highlights the role of autophagy in cancer cell metabolism, and how metabolic crosstalk between cancer cells and cancer-associated fibroblasts promotes cancer cell progression. In closing, it summarizes recent advancements in drug development through targeting cancer metabolism.
Control of Energy Metabolism: A Colloquium of the Johnson Research Foundation focuses on the processes, reactions, and approaches involved in the control of energy metabolism. The selection first offers information on the respiratory chain as a model for metabolic control in multi-enzyme systems, dynamics and control in cellular reactions, and computer-based analysis of biochemical data. The text then explores purification and properties of rabbit skeletal muscle phosphofructokinase; multiple forms of heart phosphofructokinase; and mechanisms of inhibition and activation of phosphofructokinase in Novikoff ascites tumor cells. Discussions focus on the properties of purified phosphofructokinase; effect of heart extracts on reactivation of phosphofructokinase; active and inactive forms of phosphofructokinase; and effect of hexose phosphate and adenylic nucleotides on reactivation of phosphofructokinase. The manuscript takes a look at enzyme and metabolite profiles; coordinated stimulation of hexokinase and phosphofructokinase by phosphate in a reconstituted system of glycolysis; control of hexokinase in ascites tumor glycolysis; and cation flux across the mitochondrial membrane as a possible pacemaker of tissue metabolism. The selection is a vital reference for biochemists and researchers interested in the control of energy metabolism.
This book series consists of 3 volumes covering the basic science (Volume 1), clinical science (Volume 2) and the technology and methodology (Volume 3) of autophagy. Volume 3 focuses on the technical aspects of autophagy research. It is comprised of two parts. The first part discusses the basic process of autophagy, including its overall classification and individual stages in the life cycle of autophagosomes. The second part discusses the tools, strategies, and model systems in current autophagy research, including cell and animal models, detection and manipulation methods, as well as screening, genomic, proteomic and bioinformatic approaches. The book is written and edited by a team of active scientists. It is intended as a practical reference resource for interested researchers to get started on autophagy studies.
This book provides protocols to quantify metabolism, to identify metabolic crosstalk, and to setup and develop tools and models to gain insight into metabolic signaling using experimental and computational approaches. Chapters detail protocols to quantify metabolism, identify metabolic crosstalk, and develop tools and models to gain a systems-level insight into metabolic signaling. 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, Metabolic Signaling: Methods and Protocols aims to provide researchers with methods to study, perturb, and functionally interpret metabolism and metabolic signaling from the sub-cellular to the whole-body level.
How can you lose weight, ease chronic conditions, and stay healthier longer? Discover how to “rewrite your health destiny” (David Perlmutter, MD, #1 New York Times bestselling author of Grain Brain) with this accessible book that teaches you how to flip the switch on your metabolism with intermittent fasting, protein cycling, and keto. Within each of us is an ancient mechanism that eliminates toxic materials, initiates fat burning, and protects cells from becoming dysfunctional—or turning cancerous. It’s called autophagy, and when it’s turned on, the complex operation not only can slow down the aging process, it can optimize biological function as a whole, helping to stave off all manner of diseases and affording us the healthy life spans we never thought possible. It’s the body’s ultimate switch to life. So how can we positively activate this switch? How frequently should we fast and for how long? Which foods dial up autophagy or, conversely, turn it down? How much exercise and what types are recommended? What’s the sweet spot between intermittent fasting, protein cycling, and ketogenic eating? Backed by a wealth of scientific data and featuring a gallery of guidelines to follow for lasting results, “The Switch offers a paradigm shift in the way we think about health—and how to avoid decline and illness. This is a must read” (Mark Hyman, #1 New York Times bestselling author).