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Curcumin in Health and Disease

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ISBN: 9783039214495 / 9783039214501 Year: Pages: 274 DOI: 10.3390/books978-3-03921-450-1 Language: eng
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Science (General) --- Chemistry (General)
Added to DOAB on : 2019-12-09 11:49:15
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The plant-derived polyphenol curcumin has been used in promoting health and combating disease for thousands of years. Its therapeutic effects have been successfully utilized in Ayurvedic and Traditional Chinese Medicine in order to treat inflammatory diseases. Current results from modern biomolecular research reveal the modulatory effects of curcumin on a variety of signal transduction pathways associated with inflammation and cancer. In this context, curcumin’s antioxidant, anti-inflammatory, anti-tumorigenic, and even anti-metastatic activities are discussed. On the cellular level, the reduced activity of several transcription factors (such as NFkB or AP-1) and the suppression of inflammatory cytokines, matrix degrading enzymes, metastasis related genes and even microRNAs are reported. On functional levels, these molecular effects translate into reduced proliferative, invasive, and metastatic capacity, as well as induced tumor cell apoptosis. All these effects have been observed not only in vitro but also in animal models. In combination with anti-neoplastic drugs like Taxol, kinase inhibitors, and radiation therapy, curcumin potentiates the drugs’ therapeutic power and can protect against undesired side effects. Natural plant-derived compounds like curcumin have one significant advantage: They do not usually cause side effects. This feature qualifies curcumin for primary prevention in healthy persons with a predisposition to cancer, arteriosclerosis, or chronic inflammatory diseases. Nonetheless, curcumin is considered safe, although potential toxic effects stemming from high dosages, long-term intake, and pharmacological interactions with other compounds have yet to be assessed. This Special Issue examines in detail and updates current research on the molecular targets, protective effects, and modes of action of natural plant-derived compounds and their roles in the prevention and treatment of human diseases.

Keywords

brain ischemia --- curcumin --- Alzheimer’s disease --- neurodegeneration --- amyloid --- tau protein --- autophagy --- mitophagy --- apoptosis --- genes --- glioblastoma multiforme --- autophagy --- mitophagy --- curcumin --- chaperone-mediated autophagy --- Akt/mTOR signaling --- transmission electron microscopy --- Curcuma longa --- turmeric tuber --- Zingiberaceae --- TLC bioautography --- antimicrobial agents --- ImageJ --- TLC-MS --- hydrostatic counter-current chromatography --- centrifugal partition chromatography --- curcumin --- death receptor --- apoptosis --- curcumin --- anticancer --- structure activity relationship --- cellular pathway --- mechanism of action --- delivery system --- wound --- wound healing --- diet --- nutrition --- micronutrients --- macronutrients --- curcumin --- amino-acids --- vitamins --- minerals --- curcumin --- oxidative metabolites --- inflamm-aging --- cancer --- metabolic reprogramming --- direct protein binding --- IL-17 --- STAT3 --- SHMT2 --- ageing --- anti-cancer --- autophagy --- microbiota --- senescence --- senolytics --- curcumin --- transthyretin --- amyloidosis --- protein aggregation --- protein misfolding --- drug discovery --- curcumin --- renal cell cancer --- tumor growth --- tumor proliferation --- cell cycling --- curcumin --- reflux esophagitis --- gastroprotection --- gastric ulcer --- Helicobacter pylori --- gastric cancer --- curcumin --- complementary medicine --- cancer treatment --- supportive care --- antioxidants --- anti-inflamation --- ulcerative colitis --- Crohn’s disease --- necrotizing enterocolitis --- curcumin --- inflammatory bowel disease --- curcumin --- silica --- chitosan --- nanoparticles --- anti-tumor --- antioxidant activity --- n/a

mTOR in Human Diseases

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ISBN: 9783039210602 / 9783039210619 Year: Pages: 480 DOI: 10.3390/books978-3-03921-061-9 Language: eng
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Medicine (General)
Added to DOAB on : 2019-06-26 08:44:06
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Abstract

The mechanistic target of rapamycin (mTOR) is a major signaling intermediary that coordinates favorable environmental conditions with cell growth. Indeed, as part of two functionally distinct protein complexes, named mTORC1 and mTORC2, mTOR regulates a variety of cellular processes, including protein, lipid, and nucleotide synthesis, as well as autophagy. Over the last two decades, major molecular advances have been made in mTOR signaling and have revealed the complexity of the events implicated in mTOR function and regulation. In parallel, the role of mTOR in diverse pathological conditions has also been identified, including in cancer, hamartoma, neurological, and metabolic diseases. Through a series of articles, this book focuses on the role played by mTOR in cellular processes, metabolism in particular, and highlights a panel of human diseases for which mTOR inhibition provides or might provide benefits. It also addresses future studies needed to further characterize the role of mTOR in selected disorders, which will help design novel therapeutic approaches. It is therefore intended for everyone who has an interest in mTOR biology and its application in human pathologies.

Keywords

acute myeloid leukemia --- metabolism --- mTOR --- PI3K --- phosphorylation --- epithelial to mesenchymal transition --- mTOR inhibitor --- pulmonary fibrosis --- transcriptomics --- miRNome --- everolimus --- mTOR --- thyroid cancer --- sodium iodide symporter (NIS)/SLC5A5 --- dopamine receptor --- autophagy --- AKT --- mTOR --- AMPK --- mTOR --- Medulloblastoma --- MBSCs --- mTOR --- T-cell acute lymphoblastic leukemia --- targeted therapy --- combination therapy --- mTOR --- metabolic diseases --- glucose and lipid metabolism --- anesthesia --- neurotoxicity --- synapse --- mTOR --- neurodevelopment --- mTOR --- rapamycin --- autophagy --- protein aggregation --- methamphetamine --- schizophrenia --- tumour cachexia --- mTOR --- signalling --- metabolism --- proteolysis --- lipolysis --- mTOR --- mTORC1 --- mTORC2 --- rapamycin --- rapalogues --- rapalogs --- mTOR inhibitors --- senescence --- ageing --- aging --- cancer --- neurodegeneration --- immunosenescence --- senolytics --- biomarkers --- leukemia --- cell signaling --- metabolism --- apoptosis --- miRNA --- mTOR inhibitors --- mTOR --- tumor microenvironment --- angiogenesis --- immunotherapy --- fluid shear stress --- melatonin --- chloral hydrate --- nocodazole --- MC3T3-E1 cells --- primary cilia --- mTOR complex --- metabolic reprogramming --- cancer --- microenvironment --- nutrient sensor --- oral cavity squamous cell carcinoma (OSCC) --- NVP-BEZ235 --- mTOR --- p70S6K --- mTOR --- advanced biliary tract cancers --- mTOR --- NGS --- illumina --- IonTorrent --- eIFs --- mTOR --- autophagy --- Parkinson’s disease --- mTOR --- PI3K --- cancer --- inhibitor --- therapy --- mTOR --- laminopathies --- lamin A/C --- Emery-Dreifuss muscular dystrophy (EDMD) --- Hutchinson-Gilford progeria syndrome (HGPS) --- autophagy --- cellular signaling --- metabolism --- bone remodeling --- ageing --- mTOR --- fructose --- glucose --- liver --- lipid metabolism --- gluconeogenesis --- Alzheimer’s disease --- autophagy --- mTOR signal pathway --- physical activity --- microRNA --- mTOR --- spermatogenesis --- male fertility --- Sertoli cells --- n/a

AMP-Activated Protein Kinase Signalling

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ISBN: 9783038976622 Year: Pages: 452 DOI: 10.3390/books978-3-03897-663-9 Language: eng
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Science (General) --- Biology
Added to DOAB on : 2019-03-21 14:08:22
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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.

Keywords

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

Marine Bioactive Peptides: Structure, Function, and Therapeutic Potential

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ISBN: 9783039215324 / 9783039215331 Year: Pages: 442 DOI: 10.3390/books978-3-03921-533-1 Language: eng
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Science (General) --- Biology
Added to DOAB on : 2019-12-09 11:49:16
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This Special Issue Book, “Marine Bioactive Peptides: Structure, Function, andTherapeutic Potential"" includes up-to-date information regarding bioactivepeptides isolated from marine organisms. Marine peptides have been found invarious phyla, and their numbers have grown in recent years. These peptidesare diverse in structure and possess broad-spectrum activities that have greatpotential for medical applications. Various marine peptides are evolutionaryancient molecular factors of innate immunity that play a key role in host defense.A plethora of biological activities, including antibacterial, antifungal, antiviral,anticancer, anticoagulant, endotoxin-binding, immune-modulating, etc., makemarine peptides an attractive molecular basis for drug design. This Special IssueBook presents new results in the isolation, structural elucidation, functionalcharacterization, and therapeutic potential evaluation of peptides found inmarine organisms. Chemical synthesis and biotechnological production of marinepeptides and their mimetics is also a focus of this Special Issue Book.

Keywords

sea cucumber --- ACE-inhibitory peptide --- molecular docking --- structure-activity relationship --- plastein reaction --- Gracilariopsis lemaneiformis --- ACE-inhibitory activity --- peptide --- molecular docking --- SHRs --- prostate cancer --- Anthopleura anjunae oligopeptide --- DU-145 cells --- PI3K/AKT/mTOR signaling pathway --- cod skin --- NA-inhibitory peptide --- influenza virus --- neuraminidase --- molecular docking --- adsorption --- host defense peptide --- antimicrobial peptide --- anti-LPS factor --- host?microbe relationship --- functional diversity --- invertebrate immunity --- crustacean --- antimicrobial activity --- antimicrobial peptide --- polychaeta --- innate immunity --- BRICHOS domain --- recombinant peptide --- ?-helix --- Rana-box --- nuclear magnetic resonance (NMR) --- antimicrobial peptide --- cytotoxicity --- ?-hairpin --- polyphemusins --- tachyplesins --- cell death --- signaling pathways --- Neptunea arthritica cumingii --- multi-functional peptides --- antioxidant activity --- ACE-inhibitory activity --- anti-diabetic activity --- Arenicola marina --- antimicrobial peptides --- arenicin --- complement --- C3a --- acid-sensing ion channel --- animal models --- pain relief --- toxin --- Ugr 9-1 --- APETx2 --- hairtail (Trichiurus japonicas) --- muscle --- peptide --- antioxidant activity --- half-fin anchovy hydrolysates --- Maillard reaction products --- antibacterial peptide --- identification --- self-production of hydrogen peroxide --- membrane damage --- Perinereis aibuhitensis --- decapeptide --- lung cancer --- cell proliferation --- apoptosis --- conotoxins --- conopeptides --- computational studies --- molecular dynamics --- machine learning --- docking --- review --- drug design --- ion channels --- Conus --- conotoxin --- transcriptome sequencing --- phylogeny --- venom duct --- abalone --- peptide --- vasculogenic mimicry --- metastasis --- MMPs --- HIF-1? --- dexamethasone --- myotube atrophy --- protein synthesis --- proteolytic system --- Pyropia yezoensis peptide --- PYP15 --- QAGLSPVR --- antihypertensive effect --- Caco-2 cell monolayer --- transport routes --- oyster zinc-binding peptide --- peptide-zinc complex --- caco-2 cells --- intestinal absorption --- zinc bioavailability --- Chlorella pyrenoidosa protein hydrolysate (CPPH) --- Chlorella pyrenoidosa protein hydrolysate-calcium chelate (CPPH-Ca) --- calcium absorption --- gene expression --- gut microbiota --- cone snails --- conotoxins --- ion channels --- function --- structure --- marine peptides --- arenicin-1 --- molecular symmetry --- structure–activity relationship --- antibacterial --- cytotoxic --- chemical synthesis --- molecular dynamics --- tilapia --- HUVEC --- angiotensin II --- NF-?B --- Nrf2 --- endothelial dysfunction --- conotoxin --- cone snail --- Conus --- Conus ateralbus --- Kalloconus --- n/a

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2019 (4)