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TRP Channels in Health and Disease

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ISBN: 9783039210824 9783039210831 Year: Pages: 266 DOI: 10.3390/books978-3-03921-083-1 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Medicine (General)
Added to DOAB on : 2019-06-26 08:44:07
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Abstract

Almost 25 years ago, the first mammalian transient receptor potential (TRP) channel was cloned and published. TRP channels now represent an extended family of 28 members fulfilling multiple roles in the living organism. Identified functions include control of body temperature, transmitter release, mineral homeostasis, chemical sensing, and survival mechanisms in a challenging environment. The TRP channel superfamily covers six families: TRPC with C for “canonical”, TRPA with A for “ankyrin”, TRPM with M for “melastatin”, TRPML with ML for “mucolipidin”, TRPP with P for “polycystin”, and TRPV with V for “vanilloid”. Over the last few years, new findings on TRP channels have confirmed their exceptional function as cellular sensors and effectors. This Special Book features a collection of 8 reviews and 7 original articles published in “Cells” summarizing the current state-of-the-art on TRP channel research, with a main focus on TRP channel activation, their physiological and pathophysiological function, and their roles as pharmacological targets for future therapeutic options.

Keywords

ion channel --- TRPC --- small molecules --- calcium --- chemical probes --- TRPV1 --- TRPV2 --- TRPV3 --- TRPV4 --- mucosal epithelium --- ulcerative colitis --- inflammatory bowel disease --- TRPM4 channel --- cardiovascular system --- physiology --- pathophysiology --- TRPC6 --- elementary immunology --- inflammation --- calcium --- sodium --- neutrophils --- lymphocytes --- endothelium --- platelets --- human medulla oblongata --- cuneate nucleus --- dorsal column nuclei --- TRPV1 --- calcitonin gene-related peptide --- substance P --- TRP channels --- calcium signaling --- salivary glands --- xerostomia --- radiation --- inflammation --- transient receptor potential channels --- TRPC3 pharmacology --- channel structure --- lipid mediators --- photochromic ligands --- transient receptor potential --- TRPC3 --- mGluR1 --- GABAB --- EPSC --- Purkinje cell --- cerebellum --- toxicology --- TRP channels --- organ toxicity --- chemicals --- pollutants --- chemosensor --- TRPM7 --- kinase --- inflammation --- lymphocytes --- calcium signalling --- SMAD --- TH17 --- hypersensitivity --- regulatory T cells --- thrombosis --- graft versus host disease --- 2D gel electrophoresis --- AP18 --- HEK293 --- HSP70 --- MALDI-TOF MS(/MS) --- nanoHPLC-ESI MS/MS --- proteomics --- sulfur mustard --- TRPA1 --- TRPC channels --- diacylglycerol --- TRPC4 --- TRPC5 --- NHERF --- TRP channel --- TRPY1 --- Saccharomyces cerevisiae --- calcium --- manganese --- oxidative stress --- ion channels --- overproduction --- production platform --- protein purification --- Saccharomyces cerevisiae --- sensors --- transient receptor potential (TRP) channels --- yeast --- adipose tissue --- bioavailable --- menthol --- topical --- TRPM8 --- n/a

Molecular Mechanism of Alzheimer's Disease

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ISBN: 9783039214075 9783039214082 Year: Pages: 228 DOI: 10.3390/books978-3-03921-408-2 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Science (General) --- Biology
Added to DOAB on : 2019-12-09 11:49:16
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Abstract

Alzheimer’s disease (AD) is an age-related neurological disease that affects tens of millions of people, in addition to their carers. Hallmark features of AD include plaques composed of amyloid beta, as well as neurofibrillary tangles of tau protein. However, despite more than a century of study, the cause of Alzheimer’s disease remains unresolved. The roles of amyloid beta and tau are being questioned and other causes of AD are now under consideration. The contributions of researchers, model organisms, and various hypotheses will be examined in this Special Issue.

Keywords

?-secretase --- amyloid beta --- calcium signaling --- drug target discovery --- endoplasmic reticulum --- inositol 1,4,5-trisphosphate receptor --- ion channel --- oxidative stress --- ryanodine receptor --- therapy --- amyloid-? oligomer --- protein aggregation --- A?O receptors --- Alzheimer’s disease --- neurodegeneration --- amyloid ? --- Alzheimer’s disease --- cognitive function --- dairy products --- dementia --- inflammation --- microglia --- Alzheimer’s disease --- yeast --- Tau --- amyloid ? --- ubiquitin --- aggregation --- oligomerization --- prion --- CDK5R1 --- lncRNAs --- Alzheimer’s disease --- miR-15/107 --- NEAT1 --- HOTAIR --- MALAT1 --- heat shock response --- heat shock protein --- Alzheimer’s disease --- beta amyloid --- yeast --- Alzheimer’s disease --- complement receptor 1 --- CR1 length polymorphism --- CR1 density --- complement C3b/C4b receptor --- complement --- dementia --- molecular biology --- neurosciences --- genetic risk --- Alzheimer’s disease --- brain glucose metabolism --- neuronal differentiation --- neuronal degeneration --- Prolyl isomerases --- Pin1 --- type 2 diabetes --- type 3 diabetes --- miR-34c --- dendritic spine --- Alzheimer’s disease --- Alzheimer’s disease --- positron emission tomography (PET) --- magnetic resonance imaging (MRI) --- Alzheimer’s disease --- cystathionine-?-lyase CTH gene --- DNA methylation --- epigenetics --- epigenome-wide association study --- methylome --- methylenetetrahydrofolate reductase MTHFR gene --- nutrition --- S-adenosylmethionine --- vitamin B complex --- Alzheimer’s disease --- sleep disturbance --- sleep fragmentation --- slow-wave sleep --- amyloid beta --- tau --- proteostasis --- default-mode network --- cognitive behavioral therapy for insomnia --- APOE gene --- apolipoprotein E --- DNA methylation --- mild cognitive impairment --- Hispanics

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MDPI - Multidisciplinary Digital Publishing Institute (2)


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CC by-nc-nd (2)


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english (2)


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2019 (2)