In this book, the major paradigm-shifting discoveries made in the past century on key cellular nanomachines are described in great detail: their complex yet precise and elegant design and function, as well as the diseases linked to their dysfunction and the therapeutic approaches to overcome them. The major focus of this book is the "porosome" nanomachine, the universal secretory portal in cells. This is an ideal book for students, researchers, and professionals in the fields of nanoscience and nanotechnology.

The book Heat Shock Proteins in Inflammatory Diseases provides the most comprehensive highlight and insight of the expression, function and therapeutic activity of Heat Shock Proteins in inflammatory diseases including sepsis, psoriasis, neurodegenerative diseases, cancers, viral infection and autoimmune rheumatic diseases. Using an integrative approach, the contributors provide a synopsis of the most current updates on the state of HSP in inflammatory diseases. Key basic and clinical research laboratories from major universities, academic medical hospitals, biotechnology and pharmaceutical laboratories around the world have contributed chapters that review present research activity and importantly project the field into the future. The book is a must read for graduate students. medical students, basic science researchers and postdoctoral scholars in the fields of Cancer Biology, Oncology, Translational Medicine, Clinical Research, Biotechnology, Cell & Molecular Medicine, Pharmaceutical Scientists and Researchers involved in Drug Discovery.

Mitochondria are sometimes called the powerhouses of eukaryotic cells, because mitochondria are the site of ATP synthesis in the cell. ATP is the universal energy currency, it provides the power that runs all other life processes. Humans need oxygen to survive because of ATP synthesis in mitochondria. The sugars from our diet are converted to carbon dioxide in mitochondria in a process that requires oxygen. Just like a fire needs oxygen to burn, our mitochondria need oxygen to make ATP. From textbooks and popular literature one can easily get the impression that all mitochondria require oxygen. But that is not the case. There are many groups of organismsm known that make ATP in mitochondria without the help of oxygen. They have preserved biochemical relicts from the early evolution of eukaryotic cells, which took place during times in Earth history when there was hardly any oxygen avaiable, certainly not enough to breathe. How the anaerobic forms of mitochondria work, in which organisms they occur, and how the eukaryotic anaerobes that possess them fit into the larger picture of rising atmospheric oxygen during Earth history are the topic of this book.

Ribonucleic acid (RNA) is a macromolecule that plays a central role in cell physiology: RNA molecules act as intermediates between the deoxyribonucleic acid (DNA), where genetic information is stored, and proteins, which perform the necessary functions within the cell. Traditionally, the structural and functional properties of RNA are closely linked to gene expression. However, RNA-based enzymes, called ribozymes, are also involved in catalysis and small RNAs regulate key cellular processes, such as cell growth, division, differentiation, aging and death. RNA is a sensitive macromolecule that can be easily damaged by environmental conditions (ultraviolet radiation, oxidative stress) and biological factors (ribonucleases, ribotoxins, CRISPR-Cas systems). Therefore, cells have developed mechanisms to protect and/or repair RNA molecules. This book presents an overview of the biology of RNA damage, protection and repair in prokaryotes and eukaryotes. Individual chapters cover the expression regulation, enzymology and physiological role of such systems, and link them to important human diseases such as cancer and degenerative diseases.

This book summarizes the latest studies on plant reproduction and multiple aspects of signaling in reproductive development. It also presents the most advanced processes in CrRLK1L receptor and RALF peptide studies during plant development. Focusing on signaling in pollen tube integrity and sperm release regulation, it provides significant insights into the BUPS-ANX receptor complex and the corresponding ligands RALF4/19 to promote pollen tube growth with proper cell integrity. It also proposes a working model of female tissue-derived RALF34 competing with RALF4/19 from the BUPS-ANX to trigger pollen tube rupture and sperm release. Offering a detailed overview of the spatiotemporal regulation mechanism underlying the control of pollen tube integrity and sperm release, the book fills a major gap in our understanding of plant reproductive processes, and as such is a valuable resource for those working in the area of plant signaling.

Glycerophospholipid and sphingolipid-derived lipid mediators facilitate the transfer of messages not only from one cell to another but also from one subcellular organelle to another. These molecules are not only components of neural membranes but also storage depots for lipid mediators. Information on the generation and involvement of lipid mediators in neurological disorders is scattered throughout the literature in the form of original papers and reviews. This book will provide readers with a comprehensive description of glycerophospholipid, sphingolipid and cholesterol-derived lipid mediators and their involvement in neurological disorders.

The purpose of this book is to present readers with cutting edge and comprehensive information on lipid mediators in a manner that is useful not only to students and teachers but also to researchers and physicians. This monograph has 11 chapters. Chapters 1 and 2 describe the generation of various lipid mediators from neural membrane glycerophospholipids, sphingolipids, and cholesterol, and their involvement and roles in signal transduction processes. Chapters 3 and 4 describe cutting edge information on roles of various isoforms and paralogs of phospholipases A2 in the generation of glycerophospholipid-derived lipid mediators and interactions among phospholipases A2, C, and D in the nucleus. Chapter 5 describes metabolism and roles of bioactive ether lipids in brain. Chapters 6 and 7 are devoted to excitotoxicity-mediated modulation of lipid mediators in neurological disorders and recent developments in kainic acid-induced neurotoxicity. Chapters 8 and 9 describe the health benefits of n-3 fatty acids (docosahexaenoic and eicosapentaenoic acids) in diet, the mechanisms of their action in cardiovascular and cerebrovascular systems, and comparison of n-3 fatty acid s effect with cholesterol lowering drugs (statins). Chapter 10 describes the contribution of neural membrane lipids in apoptosis and necrosis. Finally, Chapter 11 provides readers and researchers with a perspective that will be important for future research work on bioactive lipid mediators.

This book will be particularly accessible to neuroscience graduate students and teachers, as well as researchers. It can be used as a supplemental text for a range of neuroscience courses. Clinicians and pharmacologists will find this book useful for understanding molecular aspects of lipid mediators in neurodegeneration in acute neural trauma (stroke, spinal cord trauma and head injury) and neurodegenerative diseases (Alzheimer disease, Parkinson disease, and Huntington disease). This monograph will be the first to provide a comprehensive description of glycerophospholipid, sphingolipid, and cholesterol-derived mediators, their interactions with each other in normal brain and in brain tissue from neurological disorders.

This thoroughly revised second edition is an up-to-date overview of the new advances in the knowledge of the basic science in sarcoma and osteosarcoma. It features detailed, in-depth discussions of microRNAs in osteosarcoma, historical perspectives of chemotherapy in the treatment of the disease, tumor targeted IL12 therapy and HER2 targeted therapy, the role of enhancer elements in regulating the prometastatic transcriptional program and more. Further, this essential volume also includes new insights on Wnt signaling in osteosarcoma, the role of genomics, genetically modified T-cell therapy, liquid biopsy, oncolytic viruses, immunophenotyping, receptor tyrosine kinases and epigenetic-focused approaches for treatment of osteosarcoma metastases, as well as thoughts on the current standard of treatment for patients suffering from these cancers. In the years since the previous edition, there have been numerous new developments in this rapidly changing field; this new edition is both timely and urgently needed. When taken together these companion volumes, Current Clinical (Book 1) and Scientific (Book 2) Advances in Osteosarcoma, are a timely and urgently needed guide for laboratory investigators and clinical oncologists.

This book discusses unique ion channels and transporters that are located within epithelial tissues of various organs including the kidney, intestine, pancreas and respiratory tract. As the authors show, these channels and transporters play crucial roles in transepithelial ion and fluid transport across epithelia and their contribution to maintaining homeostasis. Readers will be introduced to the fundamentals of ion transport in terms of function, modelling, regulation, structure and pharmacology. This is the first of three volumes highlighting the importance of epithelial ion channels and transporters in basic physiology and pathophysiology of human diseases. This volume focuses on basic fundamentals of epithelial transport physiology. There is a range of chapters dedicated to specific aspects of epithelial ion transport and cell function. Accordingly, the authors discuss techniques used to determine epithelial function, principles of epithelia transport, polarization of epithelial cells, mathematical modelling of epithelial ion transport, protein folding of ion channels, degradation epithelial ion channels, fundamentals of epithelial sodium, potassium and chloride transport, fundamentals of bicarbonate secretion, volume regulation, and microRNA regulation of epithelial channels and transporters. Given its scope, Volume 1 offers a valuable resource for physiology students, scientists and clinicians alike.

The original role of RP was to confirm the shape and feel of concept design, but innovations in RP now allow for the development of sophisticated medical devices such as catheters, stents, drug delivery systems, syringes and cardio-vascular devices, and more. RP has moved beyond medical devices, as surgeons now regularly use RP models to brainstorm strategies for surgeries. This book presents new uses for rapid prototyping in state-of-the-art medical applications.

This book aims to comprehensively summarize the current research status of nanomaterials and cell biology. It highlights the biological effects and biomedical applications of nanomaterials for specific diseases, bone tissue engineering, and skeletal muscle regeneration. It also provides the details of the biomedical applications of nucleic acid nanomaterials in drug delivery carriers, antimicrobial therapy, vaccine, and neurodegenerative diseases. Therefore, this book renders the audience a better understanding of nanomaterials along with the diverse applications in the cell biology field from recent works to perspectives.

This volume is designed to provide an understanding of current and potential therapies for osteoporosis. The opening chapter introduces the cells of bone and their interactions. Several following chapters describe factors affecting bone including systemic hormones with significant effects on bone, and local mediators including growth factors, prostaglandins, cytokines and chemokines. Topics that have commanded particular attention recently are calcium, FGF-23, nervous system bone interactions. Drugs that cause bone loss provide important information on mechanism as well as therapeutic considerations. An overview of the genetics of bone disorders and a discussion of the pathophysiology of osteoporosis establish the clinical context. The final chapters discuss current and potential osteoporosis treatments.

How do electrical activity and calcium signals in neurons influence the secretion of peptide hormones? This volume presents the current state of knowledge regarding the electrical, calcium signaling and synaptic properties of neuroendocrine systems from both vertebrate and invertebrate systems. The contributions span in vivo and in vitro studies that address: state-dependent plasticity, relevance of firing patterns, membrane properties, calcium flux (including dynamic imaging and homeostasis), and molecular mechanisms of exocytosis, including from non-neuronal secretory cells. The chapters focus not only on research results but also on how experiments are conducted using state-of-the-art techniques, and how the resulting data are interpreted. While there are many books on the secretory properties of neurons, this is the first to focus on the distinctive secretory properties of neuroendocrine neurons. Accordingly, it offers an important text for undergraduate and graduate neuroscience students, and will also appeal to established scientists and postdoctoral fellows. This is the eighth volume in the Masterclass in Neuroendocrinology series* - now a co-publication between Springer Nature and the INF (International Neuroendocrine Federation). *Volumes 1-7 published by Wiley

This book reviews the current knowledge on tunable hydrogels, including the range of different materials and applications, as well as the existing challenges and limitations in the field. It covers various aspects of the material design, particularly highlighting biological responsiveness, degradability and responsiveness to external stimuli. In this book, readers will discover original research data and state-of-the-art reviews in the area of hydrogel technology, with a specific focus on biotechnology and medicine. Written by leading experts, the contributions outline strategies for designing tunable hydrogels and offer a detailed evaluation of the physical and synthetic methods currently employed to achieve specific hydrogel properties and responsiveness. This highly informative book provides important theoretical and practical insights for scholars and researchers working with hydrogels for biomedical and biotechnological applications.

The field of extracellular vesicles (EVs) has progressed immensely in recent times with evidences highlighting their importance in physiology and pathology. This book entails extensive reflective literature on many subtypes of EVs including exosomes, exomeres, ectosomes, apoptotic vesicles, bacterial EVs and fungal EVs. The book further discusses the biogenesis and secretion of these EVs, detailing the biological pathways and proteins involved. Research investigating the biological functions of EVs is rapidly increasing and the current knowledge around their role in progression of diseases such as cancer, neurodegeneration and metabolic disorders is discussed in multiple chapters. The implications of EVs in intercellular communication and the significance of biologically active cargo carried within these EVs are further examined. Moreover, the numerous applications of EVs in diagnostics and treatment of diseases are reviewed in detail, particularly their potential as biomarkers and drug delivery vehicles. Taken together, this book is a compilation of the key implications of EVs that are secreted by virtually all cell types. Readers will gain a perspective into the biology, functions and applications of EVs and their constantly evolving knowledge base.

This book provides an up-to-date review of the fundamentals of lipid metabolism and its role in cardiovascular diseases. Focusing on lipid transfer proteins in the circulation and cells, the role of important lipid transporters, the effect of recently discovered lipid binding proteins, and the link between lipid metabolism disorders and cardiovascular diseases, it covers phospholipid transfer protein, cholesteryl ester transfer protein, lipopolysaccharide binding protein, microsomal triglyceride transfer protein, ABC binding cassette members, and more. The book offers graduate students and researchers a coherent overview of lipid transfer and transport, as well as the limitations of current research in the field, and promotes further studies on cardiovascular diseases, as well as pharmaceutical research on drug discovery based on lipid transfer, transport, and binding.

Rapid prototyping is used to design and develop medical devices and instrumentation. This book details research in rapid prototyping of bio-materials for medical applications. It provides a wide variety of examples of medical applications using rapid prototyping, including tissue engineering, dental applications, and bone replacement. Coverage also discusses the emergence of computer aided design in the development of prosthetic devices.

Bioactive natural compounds have gained attention in recent years due to their potential health benefits, including reducing the risk of diabetes, cancer, and cardiovascular diseases. These benefits derive from bioactive compounds' anti-tumor, anti-inflammatory, anti-oxidative, anti-hypertensive and anti-hyperlipidemic activities, which serve in addition to their basic nutritional functions. Over the last decade, researchers have investigated the health impact of bioactive compounds in detail, and the development of food applications has attracted great interest. Consumer demand has surged for functional foods (nutraceuticals), superfoods, and tailor-made foods, generated by supplementing traditional food products with bioactive ingredients. Food Bioactives and Health offers comprehensive coverage of the properties and health effects of food bioactives in view of new trends in processing, food science and food technology. Starting with the metabolic characteristics of polyphenols, glucosinolates, and other food bioactives, the text then dives into their impact on human health and recent applications in the world of food technology. For food scientists, food technologists, and product developers looking to understand the role of food bioactives in health and develop applications in personalized nutrition, functional foods and nutraceuticals, Food Bioactives and Health serves as a one-stop reference.

Revealing essential roles of the tumor microenvironment in cancer progression, this book focuses on the role of hematopoietic components of the tumor microenvironment. Further, it teaches readers about the roles of distinct constituents of the tumor microenvironment and how they affect cancer development. Topics include eosinophils, NK cells, T cells, regulatory T Cells, Langerhans cells, hematopoietic stem cells, Mast cells, B cells and Microglia, and more. Taken alongside its companion volumes, Tumor Microenvironment: Hematopoietic Cells - Part B updates us on what we know about various aspects of the tumor microenvironment as well as future directions. This book is essential reading for advanced cell biology and cancer biology students as well as researchers seeking an update on research in the tumor microenvironment.

The mathematical models considered in this book can help to understand the swelling of mitochondria. For the first time, it presents new mathematical models of mitochondrial swelling that take into account, in particular, spatial effects. The results presented here could make it possible to predict properties of the underlying biological mechanisms. Taking into account that mitochondria could move within a cell, lead to a PDE-PDE model. The book discusses the well-posedness and long-term dynamics of solutions, depending on boundary conditions reflecting the in vitro and in vivo cases. These analytical and numerical results have inspired colleagues from the Institute of Pharmacology and Toxicology of the Helmholtz Center Munich to design new experiments justifying the theoretical and numerical results that are obtained. The book is intended for graduates students and researchers with a solid mathematical background and an interest in cell biology.

This comprehensive Monograph examines all peripheral and central mechanisms of regulating the secretion of milk from the lactating breast. The author reviews the complete female breast development, starting with the early childhood, up to pregnancy and lactation. Structural and ultrastructural data on the alveolar-ductal system, together with details of breast innervation, are used to investigate the physiological process of lactation. Readers will appreciate the special focus on reflexes, both in the child and the mother, that help to regulate maternal milk production and secretion. Following this, the author sheds a light on the composition and dynamics of milk components during the different periods of lactation. The final section of this volume focusses on practical aspects of modern breastfeeding, like the use of breast pumps or galactogogues, to influence the productivity of milk production. These fundamental principles and structural details will be particularly useful for physiologists and clinicians working in gynecology and pediatrics.