An overview of the biochemical mechanisms that produce acute nerve cell death in the brain. Covers injuries and disorders including stroke, brain and spinal cord trauma, hypoglycemic coma, and prolonged epileptic seizures. All of these lead to high concentrations of calcium in nerve cells which, in turn, causes degradation of cytoplasmic proteins, cleavage of nuclear DNA, and eventually cell death. The Second Edition contains 11 thoroughly updated chapters and 3 additional chapters that did not appear in the previous edition.

GPCR Signaling in Cancer, Volume 145, the latest release in the Advances in Cancer Research series, highlights recent developments in the area of GPCRs and cancer biology. Chapters included in this volume cover several GPCRs and their downstream effectors as case examples to highlight their fundamental understanding and therapeutic potential. Specific chapters address the Role of GRKs and beta-arrestins in cancer, Atypical GPCRs in cancer, the Role of a chemokine receptor (CCR) 5 in cancer, Targeting G protein-coupled receptors for therapeutics in cancer, Emerging GPCR signaling pathways in cancer, and more. G protein-coupled receptors (GPCRs) constitute a large family of cell surface receptors which are involved in nearly every cellular and physiological event. These receptors can recognize a broad array of ligands and they are targeted by nearly one third of the currently prescribed drugs including anti-cancer therapeutics.

Inflammatory Disorders - Part B, Volume 120 explores inflammation in the immune system and how the body's own cells or tissues may cause abnormal inflammation, thus resulting in chronic pain, redness, swelling, stiffness, and damage to normal tissues. Chapters in this updated volume include Proteins in monogenic autoinflammatory disorders, Virulence factors and their roles in periodontal disease pathogenesis, Role of Heat shock proteins in Inflammatory disorder Rheumatoid Arthritis, Novel targeted therapies for Crohn's disease: Recent progress and future perspectives, Dietary plant flavonoids in prevention of obesity and diabetes, Small RNAs in allergic diseases, Inflammation and inflammasome during ageing and age-related diseases, and more.

Revealing essential roles of the tumor microenvironment in cancer progression, this book provides a comprehensive overview of the latest research on the role of chemokines in the tumor microenvironment. Each chapter focuses on the chemokines patterns of expression, their regulation, and their roles in immune cell recruitment, as well as how they affect cancer immunity and tumorigenesis.Taken alongside its companion volumes, Tumor Microenvironment: The Role of Chemokines - Part B updates us on what we know about various aspects of the tumor microenvironment, as well as apprises us on future directions in the field. This book is essential reading for advanced cell biology and cancer biology students as well as scientists seeking an update on recent developments and research in the tumor microenvironment.

This book introduces key fundamentals of microarray bioprinting, including the required chip platforms and associated instruments/devices, experimental protocols for cell printing and biochemical- and cell-based assays, and several example applications. Various bioprinting approaches that allow for the rapid testing of hundreds of different cell culture conditions in combinations on a single chip are discussed in detail. Also covered is high-content, 3D cell-based imaging assays of tissue functions on miniaturized tissue constructs for high-throughput, predictive screening of drug efficacy and toxicity. This is an ideal book for graduate and postgraduate students in the field of biomedical engineering as well as scientists in the pharmaceutical industry. This book also: Broadens readers' understanding of the principles of microarray bioprinting, chip platforms and associated instruments/devices, and surface chemistry for micropatterning of cells on the chip platform Covers the latest developments in printing cells in hydrogels and methods of gelation as well as printing other biological samples in aqueous solutions Illustrates the complete process for cell staining and high-content imaging of 3D cells on the chip and predicting human metabolism and toxicology on the chip

Inflammation is a biological response triggered by different stimuli that has in the body a potentially damaging effect. In certain conditions, such as injury or infection, inflammation is a normal, healthy response. However, inflammatory disorders that result in the immune system attacking the body's own cells or tissues may cause abnormal inflammation, which results in chronic pain, redness, swelling, stiffness, and damage to normal tissues. Mechanisms involved in promoting a number of different inflammatory disorders and their targeting for therapeutic benefit have been one of the hottest topics in last few decades. The two consecutive volumes (119 and 120) dedicated to this subject cover a wide spectrum of inflammatory disorders, mechanisms that are believed to cause them and different strategies for managing the inflammatory diseases.

Cancer Health Equity Research, Volume 146 in the Advances in Cancer Research series, highlights new advances in the field, with this new volume presenting interesting chapters on a variety of timely topics, including Pubertal Mammary Development as a 'Susceptibility Window' for Breast Cancer Disparity, Review of Patient Navigation Interventions to Address Barriers to Participation in Cancer Clinical Trials, Racial Disparities in Ovarian Cancer Research, Mighty Men: A Faith-Based Weight Loss Intervention to Reduce Cancer Risk in African American Men, Design of a Patient Navigation Intervention to Increase Rates of Surgery among African Americans with Early-Stage Lung Cancer, and much.

This third edition summarizes the most important areas of Cell-Penetrating Peptides (CPP) research. Chapters are divided into three parts detailing the historical background of CPP, the classifications of the available CPPs, approaches for prediction of novel CPPs, methods for studies of "naked" CPPs, and a brief summary of functionality issues of CPPs, both in vitro and in vivo. Written in the format of the highly successful Methods in Molecular Biology series, each chapter includes an introduction to the topic, lists necessary materials and reagents, includes tips on troubleshooting and known pitfalls, and step-by-step, readily reproducible protocols. Authoritative and cutting-edge, Cell Penetrating Peptides: Methods and Protocols, Third Edition aims to be a useful practical guide to researches to help further their study in this field.

Protein Misfolding, Volume 118, covers the wide spectrum of diseases and disorders that are attributed to protein misfolding, including degenerative and neurodegenerative, cardiovascular, renal, glaucoma, cancer, cystic fibrosis, Gaucher's disease, and many others. Specific chapters cover Mass spectrometric approaches for profiling protein folding and stability, Biomembranes, a key player in protein misfolding, how Genetic and environmental factors interact to disrupt proteostasis and trigger protein misfolding diseases, Formation of oligomers and large amorphous aggregates by intrinsically disordered proteins, Protein misfolding in ER stress with applications to cardiovascular and renal disease, and much more.

This volume covers classic and modern cell and molecular biology of prostate cancer, as well as novel biomarkers, inflammation, centrosome pathologies, microRNAs, cancer initiation novel biomarkers, inflammation, centrosome pathologies, microRNAs, cancer initiation and genetics, epigenetics, mitochondrial dysfunctions and apoptosis, cancer stem cells, angiogenesis and progression to metastasis, and treatment strategies including clinical trials related to prostate cancer. Cell & Molecular Biology of Prostate Cancer is one of two companion books comprehensively addressing the biology and clinical aspects of prostate cancer. Prostate Cancer: Molecular & Diagnostic Imaging and Treatment Stategies, the companion volume, discusses both classic and the most recent imaging approaches including analysis of needle biopsies, applications of nanoparticle probes and peptide-based radiopharmaceuticals for detection, early diagnosis and treatment of prostate cancer. Taken together, these volumes form one comprehensive and invaluable contribution to the literature.

0ne 0fthe many 1mpact5 0frec0m61nant DNA techn0109y 0ver the 1a5t 15 year5 ha5 6een a 5tr0n91y refre5hed 1ntere5t 1n meth0d5 f0r the 5eparat10n and pur1f1cat10n 0f pr0te1n5.7h15 1ntere5t ha5 enc- pa55ed n0t 0n1y ana1yt1ca1 5eparat10n5, 6ut a150 5ma11- and 1ar9e-5ca1e preparat1ve meth0d5 d1rected t0 60th pure and app11ed re5earch thr0u9h0ut 610109y and 610med1c1ne. Many 0f the new 0r 5u65tant1a11y m0d1f1ed techn14ue5 deve1- 0ped have 6een rep0rted 1n the 11terature, 6ut a 5uff1c1ency 0f deta11ed pract1ca1 he1p 1n e5ta6115h1n9 the5e meth0d5 f0r the f1r5t t1me 1n a new 1a60rat0ry ha5 0ften 6een d1ff1cu1t t0 f1nd. W1th the5e pr061em5 1n m1nd, we expect that Pract1ca1Pr0te1n Chr0mat09raphy, de519ned a5 a key v01ume 1n the Meth0d5 1n M01ecu1ar 810109y 5er1e5, w111 pr0v1de c0nc15e pract1ca1 he1p t0 th05e carry1n9 0ut new techn14ue5 f0r the f1r5t t1me. Each chapter ha5 6een wr1tten 6y expert auth0r5 kn0wn t0 have d1rect and re9u1ar pract1ca1 exper1ence w1th the1r ch05en techn14ue5. 7he 5tructure 0feach chapter 15 de519ned t0 make 1t ea5y f0r a w0rker new t0 the meth0d t0 f0110w 1t t0 an effect1ve c0nc1u510n. An 1nt- duct10n treat5 the the0ry 6eh1nd the meth0d 6e1n9 de5cr16ed. 7he Mater1a15 and Meth0d5 5ect10n5 a110w the reader t0 prepare f0r, and then perf0rm techn14ue5 1n a rat10na1 5tepw15e manner. 7he N0te5 5ect10n5 pr0v1de the 50rt 0f6ack9r0und h1nt5 and tr1ck5 that are 50 0ften e55ent1a1 f0r 5ucce55, 6ut are rare1y rep0rted 1n the 11terature.

This book covers liquid chromatography, gas chromatography and capillary electrophoresis, the three main separation techniques lately available, applied to key omic sciences, such as genomics, proteomics, metabolomics and foodomics. The fundamentals of each technique are not covered herein. Instead, the recent advances in such techniques are presented focusing on the application to omics analyses and unique aspects in each case. This volume intends to offer wide ranging options available to researchers on omics sciences, and how to integrate them in order to achieve the comprehension of a biological system as a whole. Omic sciences have been of ultimate importance to comprehend the complex biochemical reactions and related events that occurs upon a biological system. The classical central dogma of molecular biology, which states that genetic information flows unidirectionally from DNA to RNA and then to proteins, has been gradually replaced by the systems biology approach. This book presents a multidisciplinary approach that explains the biological system as a whole, where the entire organism is influenced by a variety of internal events as well as by the environment, showing that each level of the biological information flux may influence the previous or the subsequent one.

This volume provides an overview of well-established methods optimized for diverse archaeal model organisms and is a source of protocols facilitating access to the molecular and cellular biology characterization of these fascinating organisms. Chapters are divided into five parts detailing available genetic tools, molecular and cellular biology methods, strategies to study the ecophysiology of archaea, and classroom protocol. Each main thematic part is also introduced by future-oriented and authoritative primers. Written in the format of the highly successful Methods in Molecular Biology series, each chapter includes an introduction to the topic, lists necessary materials and reagents, includes tips on troubleshooting and known pitfalls, and step-by-step, readily reproducible protocols. Authoritative and cutting-edge, Archaea: Methods and Protocols aims to be a foundation for future studies and to be a source of inspiration for new investigations in the field.

This book gives an up-to-date account of the current knowledge of cold adaptation in animals, including phenomena like hibernation, daily torpor, thermoregulation and thermogenesis, metabolic regulation, freeze tolerance, anaerobiosis, metabolic depression and related processes. For the next four years - until the 12th International Hibernation Symposium - it will serve as a state-of-the-art reference source for every scientist and graduate student working in these areas of physiology and zoology.

Hemoglobin defects, specifically sickle cell disease & thalassemia, combined, constitute the most common monogenic disorders in the world. In fact, nearly 2% of the world's population carries a globin gene mutation. The transfer of the corrective globin gene through the HSC compartment by allogeneic HSC transplantation (HSCT) has already proven curative in both SCD and thalassemia patients, and provides the proof of concept that genetic manipulation of the defective organ might be equally therapeutic. However, procedural toxicities and the requirement of an HLA-matched sibling donor limit this approach to a fraction of affected individuals. The editors review the progress & the state of the field in HSCT for hemoglobinopathies & shed light on the major changes expected in the next decade. Although allogeneic HSCT is a curative option, it is limited by the availability of matched donors, which are often available only to 15-20% of patients. An alternative to allogeneic HS CT is genetic correction of autologous HSCs, to overcome donor availability & immune side effects. This Book reviews the progress made on additive gene therapy approaches & the current state of the field. Finally, targeted genetic correction is emerging as a novel therapeutic strategy in the hemoglobinopathies. Although ideal, the inefficiency of targeted correction was rate limiting for translation of this technology to the clinic. With advancements in zinc finger nucleases and TALE endonuclease mediated targeted correction, correction frequencies in hematopoietic stem cells is now reaching levels that may become clinically relevant. Furthermore, the ability to generate autologous embryonic stem cell like cells from primary somatic cells (skin fibroblasts or hematopoietic cells) of the affected individual has allowed for the potential application of genetic correction strategies.This Book reviews upcoming genetic strategies to reactivate fetal hemoglobin production and research advances.

Dr. Lee Know does a brilliant job shedding light on this once ignored organelle and shows us how to care for our most important metabolic system. Dr. Nasha Winters, co-author of The Metabolic Approach to Cancer From infertility to aging to cancer and neurological disease, Dr. Lee Know will teach you that mitochondria play a central role in much that we care about in health and disease. Stephanie Seneff, senior research scientist, MIT Why do we age? Why does cancer develop? What's the connection between heart failure and Alzheimer's disease or infertility and hearing loss? Can we extend lifespan and if so, how? What is the Exercise Paradox? Why do antioxidant supplements sometimes do more harm than good? Many will be amazed to learn that all these questions, and many more, can be answered by a single point of discussion: mitochondria and bioenergetics. In Mitochondria and the Future of Medicine, Naturopathic Doctor Lee Know tells the epic story of mitochondria, the widely misunderstood and often-overlooked powerhouses of our cells. The legendary saga began over two billion years ago, when one bacterium entered another without being digested which would evolve to create the first mitochondrion. Since then, for life to exist beyond single-celled bacteria, it's the mitochondria that have been responsible for this life-giving energy. By understanding how our mitochondria work, in fact, it is possible to add years to our lives, and life to our years. Current research, however, has revealed a dark side: many seemingly disconnected degenerative diseases have tangled roots in dysfunctional mitochondria. However, modern research has also endowed us with the knowledge on how to optimise its function, which is of critical importance to our health and longevity. Lee Know offers cutting-edge information on supplementation and lifestyle changes for mitochondrial optimisation, such as: CoQ10 D-Ribose Cannabinoids Ketogenic dietary therapy Mitochondria and the Future of Medicine is an invaluable resource for practitioners interested in mitochondrial medicine and the true roots of chronic illness and disease, as well as anyone interested in improving their health.

Anoikis is defined broadly as apoptosis that is inhibited by appropriate cell-matrix interactions. Normal and tumor cells vary widely in their sensitivity to anoikis, but, in general, metastatic tumor cells are inevitably anoikis-resistant. In particular, tumor cells that possess a cancer stem cell or mesenchymal phenotype, arising from the oncogenic Epithelial-Mesenchymal Transition (EMT), are transcriptionally re-programmed to resist anoikis. While the anoikis response occurs through the mitochondrial pathway typically found in other apoptotic responses (e.g., DNA damage, death receptors, oxidative stress), the regulation of anoikis by cell-matrix signalling is unique and only partially characterized. The uniqueness of anoikis is: a. regulation by integrins, non-integrin matrix receptors, and the signaling complexes associated with them; b. regulation by metabolic changes occurring in response to attachment/detachment; c. regulation by oncogenes and tumor suppressor genes d. regulation by tumor microenvironment; e. regulation by EMT.

This volume discusses the latest analytical approaches used to sample defined molecular populations of metabolites via functional group derivatization, specialized chromatographic methods, and ionization techniques. Chapters cover key methods for sample introductions to the ion source, including direct flow, gas chromatography, liquid chromatography, and capillary electrophoresis. Chapters also explore non-targeted and targeted analyses, as well as the emerging field of metallomics. In the Neuromethods series style, chapters include the kind of detail and key advice from the specialists needed to get successful results in your laboratory. Cutting-edge and authoritative, Metabolomics is a valuable resource for students, researchers, practicing physicians and veterinarians, and administrators involved in the funding of research.

Much research has focused on the basic cellular and molecular biological aspects of stem cells. Much of this research has been fueled by their potential for use in regenerative medicine applications, which has in turn spurred growing numbers of translational and clinical studies. However, more work is needed if the potential is to be realized for improvement of the lives and well-being of patients with numerous diseases and conditions. This book series 'Cell Biology and Translational Medicine (CBTMED)' as part of SpringerNature's longstanding and very successful Advances in Experimental Medicine and Biology book series, has the goal to accelerate advances by timely information exchange. Emerging areas of regenerative medicine and translational aspects of stem cells are covered in each volume. Outstanding researchers are recruited to highlight developments and remaining challenges in both the basic research and clinical arenas. This current book is the fourth volume of a continuing series.

This book addresses multiple aspects of biological clocks in prokaryotes. The first part of the book deals with the circadian clock system in cyanobacteria, i.e. the pioneer of bacterial clocks. Starting with the history and background of cyanobacteria and circadian rhythms in microorganisms, the topics range from the molecular basis, structure and evolution of the circadian clock to modelling approaches, Kai systems in cyanobacteria and biotechnological applications. In the second part, emergent timekeeping properties of bacteria in microbiomes and bacteria other than cyanobacteria are discussed. Since the discovery of circadian rhythms in cyanobacteria in the late 1980s, the field has exploded with new information. The cyanobacterial model system for studying circadian rhythms (Synechococcus elongatus), has allowed a detailed genetic dissection of the bacterial clock due to state-of-the-art methods in molecular, structural, and evolutionary biology. Cutting-edge research spanning from cyanobacteria and circadian phenomena in other kinds of bacteria, to microbiomes has now given the field another major boost. This book is aimed at junior and senior researchers alike. Students or researchers new to the field of biological clocks in prokaryotes will get a comprehensive overview, while more experienced researchers will get an update on the latest developments.

This book is the first comprehensive overview of the emerging field of cuffless blood pressure monitoring. Increasing clinical evidence proves that longitudinal measurements of blood pressure allow for earlier detection and better management of multiple medical conditions and for superior prediction of cardiovascular events. Unfortunately, today's clinical and industry standards for blood pressure monitoring still require the inflation of a pneumatic cuff around a limb each time a measurement is taken. Over the last decades clinicians, scientists and device manufacturers have explored the feasibility of technologies that reduce or even completely eliminate the need of cuffs, initiating the era of cuffless blood pressure monitoring. Among the existing literature, this book is intended to be a practical guide to navigate across this emerging field. The chapters of the handbook have been elaborated by experts and key opinion leaders in the domain, and will guide the reader along the clinical, scientific, technical, and regulatory aspects of cuffless blood pressure monitoring.

Systems Biology represents a new paradigm aiming at a whole-organism-level understanding of biological phenomena, emphasizing interconnections and functional interrelationships rather than component parts. The study of network properties, and how they control and regulate behavior from the cellular to organism level, constitutes a main focus of Systems Biology. This book addresses from a novel perspective a major unsolved biological problem: understanding how a cell works and what goes wrong in pathology. The task undertaken by the authors is in equal parts conceptual and methodological, integrative and analytical, experimental and theoretical, qualitative and quantitative, didactic and comprehensive. Essentially, they unravel the spatio-temporal unfolding of interacting mass-energy and information networks at the cellular and organ levels, as well as its modulation through activation or repression by signaling networks to produce a certain phenotype or (patho)physiological response.

Starting with the historical roots, in thirteen chapters this work explores the Systems Biology of signaling networks, cellular structures and fluxes, organ and microorganism functions. In doing so, it establishes the basis of a 21st century approach to biological complexity.

This volume describes cell culture protocols for the maintenance, propagation, manipulation, and analysis of primary explanted cells from various mouse organ systems. After introductory chapters that examine the applicability of mouse models as a discovery tool and describe critical factors and variables that influence cell culture endpoints, protocol chapters explore cell culture methodologies for specific mouse cell types and lineages. Written in the highly successful Methods in Molecular Biology series format, these chapters include introductions to their respective topics, comprehensive lists of the essential materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and cutting-edge, Mouse Cell Culture: Methods and Protocols aims to ensure successful results utilizing these protocols in further studies, leading to the identification of key factors, genes, and cellular pathways regulating cell lineage commitment and differentiation, modeling disease, and identifying novel therapeutic targets.

Advances in Stem Cells and Their Niches, Volume Three, comprises a compilation of the latest findings on our understanding of skin biology. It extends the current knowledge on skin stem cells and provides in-depth discussions on their unique settings, niches and properties. Chapters in this new release include The biophysical regulation of epidermal fate and function, Epidermal stem cell lineages, Hair shaft progenitors that create a niche for hair pigmentation, Dermal papilla cells control of hair follicle growth and pigmentation, Molecular mechanisms regulating the hair follicle niche, Dermal fibroblasts and their niches and interactions with epidermal stem cells.

This book illustrates the importance and significance of oxidative stress in the pathophysiology of various human diseases. The book initially introduces the phenomenon of oxidative stress, basic chemical characteristics of the species involved and summarizes the cellular oxidant and anti-oxidant system and the cellular effects and metabolism of the oxidative stress. In addition, it reviews the current understanding of the potential impact of oxidative stress on telomere shortening, aging, and age-related diseases. It also examines the role of oxidative stress in chronic diseases, including cancer, diabetes, cardiovascular diseases, and neurodegenerative disorders. Further, the book presents novel technologies for the detection of oxidative stress biomarkers using nanostructure biosensors, as well as in vitro and in vivo models to monitor oxidative stress. Lastly, the book addresses the drug delivery carriers that can help in combating oxidative stress.