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Starting from a kinase of interest, AMP-activated protein kinase (AMPK) has gone far beyond an average biomolecule. Being expressed in all mammalian cell types and probably having a counterpart in every eukaryotic cell, AMPK has attracted interest in virtually all areas of biological research. Structural and biophysical insights have greatly contributed to a molecular understanding of this kinase. From good old protein biochemistry to modern approaches, such as systems biology and advanced microscopy, all disciplines have provided important information. Thus, multiple links to cellular events and subcellular localizations have been established. Moreover, the crucial involvement of AMPK in human health and disease has been evidenced. AMPK accordingly has moved from an interesting enzyme to a pharmacological target. However, despite our extensive current knowledge about AMPK, the growing community is busier than ever. This book provides a snapshot of recent and current AMPK research with an emphasis on work providing molecular insight, including but not limited to novel physiological and pathological functions, or regulatory mechanisms. Up-to-date reviews and research articles are included.

n/a --- HDACs --- transcription --- epigenetics --- spermatozoa --- par complex --- A769662 --- MDCK --- skeletal muscle --- AID --- phosphorylation --- energy metabolism --- monocytes --- autophagy --- CML --- liver --- hindlimb suspension --- pregnancy --- preeclampsia --- gestational diabetes mellitus --- CaMKK2 --- assisted reproduction techniques --- nutrient-sensing signals --- sonic hedgehog --- protein acetylation --- glycogen storage disease --- AMPK --- adenosine monophosphate-activated protein kinase --- AICAR --- indirect calorimetry --- IL-1? --- MyHC I(?) --- HDAC4/5 --- endothelial cells --- infection --- hepatocyte --- p70S6K --- lipid metabolism --- host defense --- exercise --- kidney disease --- heat shock protein --- ?RIM --- mycobacteria --- activation loop --- developmental origins of health and disease (DOHaD) --- CREB --- TAK1 --- metabolic-inflammation --- phenylephrine --- AMP-activated protein kinase (AMPK) --- KATs --- 2-methoxyestradiol --- DNA methylation --- NLRP3 --- pump --- ?-linker --- steatosis --- AMPK kinase --- stress --- endothelial nitric-oxide synthase --- vasodilation --- adherent junctions --- epithelial cells --- glycogen --- Akt --- synaptic activation --- cellular energy sensing --- glucose uptake --- transporter --- co-expression --- atrophy --- nutrigenomics --- motility --- vasoconstriction --- fatty acid oxidation --- oxidative stress --- AS160 --- membrane --- histone modification --- sirtuin 1 (SIRT1) --- chromatin remodeling --- insulin signalling --- dietary fatty acids --- ULK --- CMML --- adaptive thermogenesis --- mTOR --- MDS --- mechanical unloading --- AML --- endothelial function --- medulloblastoma --- PKA --- adipose tissue --- NAD⁺ --- membranes --- nutrition --- ZO-1 --- TBC1D4 --- adipocyte --- soluble Adenylyl cyclase --- metabolism --- renin-angiotensin system --- energy utilization --- proteasome --- differentiation --- signaling --- peroxisome proliferator-activated receptor gamma coactivator 1-? (PGC1?) --- hypertrophy --- AMP-activated protein kinase --- metabolic disease --- LKB1 --- soleus muscle --- macrophages --- Immediate early genes --- CBS --- beiging --- motor endplate remodeling --- ionomycin --- nectin-afadin --- tight junctions --- resveratrol --- protein kinase B --- regrowth --- mitochondria --- protein synthesis --- energy deficiency --- catechol-O-methyltransferase --- fiber-type --- microarrays --- carrier --- acetyl-CoA --- hypertension --- 3T3-L1 --- hypothalamus --- food intake --- benign

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Health is defined as “the state of the organism when it functions optimally without evidence of disease”. Surprisingly, the words “microbes” or “microorganism” are missing in this definition. The regulation of gut microbiota is mediated by an enormous quantity of aspects, such as microbiological factors, host characteristics, diet patterns, and environmental variables. Some protective, structural, and metabolic functions have been reported for gut microbiota, and these functions are related to the regulation of homeostasis and host health. Host defense against pathogens is, in part, mediated through gut microbiota action and requires intimate interpretation of the current microenvironment and discrimination between commensal and occasional bacteria. The present Special Issue provides a summary of the progress on the topic of intestinal microbiota and its important role in human health in different populations. This Special Issue will be of great interest from a clinical and public health perspective. Nevertheless, more studies with more samples and comparable methods are necessary to understand the actual function of intestinal microbiota in disease development and health maintenance.

sperm quality --- probiotics --- zebrafish --- motility --- behavior --- intestinal microbiota --- intestinal Bacteroides --- cardiorespiratory fitness --- trunk muscle training --- aerobic exercise training --- brisk walking --- nutrients --- gut microbiota --- nutrition --- habitual diets --- Western diet --- obesity --- cardiometabolic risk factors --- chronic health conditions --- gastrointestinal disorders --- prebiotics and probiotics --- metabolic syndrome --- gastrointestinal microbiome --- Lactobacillus reuteri V3401 --- sugar alcohol --- prebiotic --- bowel function --- immune function --- respiratory tract infections --- otitis media --- sinusitis --- weight management --- satiety --- bone health --- AMP-activated protein kinase --- butyrate --- developmental origins of health and disease (DOHaD) --- high fat diet --- hypertension --- nutrient-sensing signals --- propionate --- short chain fatty acids --- kefir --- autism spectrum disorders --- oral microbiota --- dysbiosis --- co-occurring conditions --- allergy --- abdominal pain --- biomarker discovery --- anorexia --- food restriction --- ClpB --- microbiota --- Enterobacteriaceae --- inulin --- circadian rhythm --- feeding timing --- choline --- trimethylamine --- trimethylamine n-oxide --- 16S rRNA gene profiling --- qPCR --- linear mixed models --- soy protein --- lipid metabolism --- circadian --- chrono-nutrition --- microbiome --- pregnancy --- fetus --- placenta --- newborn --- infancy --- critical illness --- sepsis --- lipid metabolome --- amlodipine --- corticosterone --- ACTH --- gut bacteriome --- ischemia-reperfusion injury --- nutritional status --- supplemented nutrition --- partial hepatectomy --- liver transplantation --- vaginal microbiome --- bacterial communities --- vaginal dysbiosis --- bacterial vaginosis --- risk factors --- hormone replacement therapy --- cardiovascular diseases --- atherosclerosis --- prebiotics --- alanine aminotransferase --- antibiotic --- Optifast --- gut microbiome --- metronidazole --- nonnutritive sweeteners --- sweetening agents --- n/a

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For a long time, the tight junction (TJ) was known to form and regulate the paracellular barrier between epithelia and endothelial cell sheets. Starting shortly after the discovery of the proteins forming the TJ—mainly the two families of claudins and TAMPs—several other functions have been discovered, a striking one being the surprising finding that some claudins form paracellular channels for small ions and/or water. This Special Issue includes 43 articles covering numerous dedicated topics including pathogens affecting the TJ barrier, TJ regulation via immune cells, the TJ as a therapeutic target, TJ and cell polarity, function and regulation by proteins of the tricellular TJ, TJ as a regulator of cellular processes, organ- and tissue-specific functions, TJ as sensors and reacting to environmental conditions, and last but not least, TJ proteins and cancer.

tissue barrier --- tight junction --- claudins --- tricellulin --- tight junctions --- organ preservation --- intestine --- transplantation --- ischemia --- intestinal mucosa --- lung --- epithelia --- interleukin 13 --- UBE2Z --- ubiquitin --- osmolality --- hydrostatic pressure --- cancer --- sensor --- tricellular tight junctions --- endometrial cancer --- epithelial barrier dysfunction --- Claudin-7 --- permeability --- WNK4 --- epithelial sodium channel (ENaC), collecting duct cells --- claudin-1 --- hydrogen peroxide --- phosphorylation --- claudin --- angulin --- drug development --- angubindin-1 --- Clostridium perfringens enterotoxin --- Clostridium perfringens iota-toxin --- antibody --- Mz-ChA-1 cells --- biliary epithelial cells --- phosphatidylcholine --- mucus --- paracellular transport --- atopic dermatitis --- cytokines --- STAT3 --- ZO-2 --- cholestasis --- gene transcription --- hypertrophy --- tumor suppressor --- NLS --- NES --- CaSR --- RhoA --- barrier function --- paracellular permeability --- antidiuretic hormone --- Claudin-14 --- CLDN14 --- hearing loss --- vestibular function --- cochlear implantation --- Hepatitis C Virus --- viral entry --- epidermal barrier --- reconstructed human epidermis --- claudin targeting --- Campylobacter jejuni --- curcumin --- apoptosis --- co-culture --- mouse colon --- TNF --- NFκB --- lipolysis-stimulated lipoprotein receptor (LSR) --- epithelial barrier --- cell–cell contact --- caspase --- kidney stones --- ion reabsorption --- quercetin --- brain barriers --- blood-brain barrier --- neurovascular unit --- blood-cerebrospinal fluid barrier --- arachnoid barrier --- glia limitans --- adherens junctions --- paracellular sodium transport --- thick ascending limb --- nephropathy --- HELIX syndrome --- hypokalemia --- hypermagnesemia --- anhidrosis --- gland dysfunction --- aging --- blood–brain barrier --- mutations --- kidney --- liver --- skin --- human --- mice --- disease --- in silico --- drug discovery --- membrane proteins --- protein interactions --- molecular dynamics --- antibiotic-associated hemorrhagic colitis --- Klebsiella oxytoca --- tight junction assembly --- monocytes --- celiac disease --- claudin-2 --- epithelium --- inflammation --- fibrosis --- proliferation --- migration --- tricellular tight junction --- paracellular water transport --- tight epithelium --- MDCK C7 cells --- cell growth --- endothelia --- adherens junction --- apical junctional complex --- AMP-activated protein kinase (AMPK) --- paracellular barrier --- protein structure --- protein domain --- occludin --- junctional adhesion molecule --- zonula occludens --- MAGUK proteins --- PDZ domain --- stem cell --- chemoresistance --- retinal pigment epithelium --- retinopathy --- barrier formation --- collecting duct --- claudin-5 --- neuropathic pain --- nerve injury --- dorsal root ganglion --- enteropathogenic E. coli (EPEC) --- tight junctions (TJ) --- polarity --- atypical aPKCζ --- transepithelial electrical resistance (TER) --- sorting nexin 9 (SNX9) --- EspF --- claudin 1 --- tumor --- metastasis --- epithelial to mesenchymal transition --- cerebral cavernous malformation --- endothelial barrier --- Rho --- ROCK --- MEKK3 --- ion transport --- ion channel --- super-resolution microscopy --- structured illumination microscopy --- stimulated emission depletion --- single molecule localization microscopy --- Claudin --- blood-biliary barrier --- chronic liver disease --- hepatocellular carcinoma --- cholangiocellular carcinoma --- NISCH syndrome --- repair --- NHE2 --- ClC-2 --- inflammatory bowel disease --- mucosal immunology --- ZO-1 --- actomyosin --- aquaporin --- drinking rate --- epithelial fluid transport --- enterocyte --- osmoregulation --- paracellular --- proximal tubule --- calcium permeability --- claudin-12 --- paracellular channels and barriers --- cell polarity --- pathogens --- immune cells --- environmental sensors