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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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Abstract

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

DNA Replication Stress

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ISBN: 9783039213894 / 9783039213900 Year: Pages: 368 DOI: 10.3390/books978-3-03921-390-0 Language: eng
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Science (General) --- Biology
Added to DOAB on : 2019-12-09 16:10:12
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This Special Issue of International Journal of Molecular Sciences (IJMS) is dedicated to the mechanisms mediated at the molecular and cellular levels in response to adverse genomic perturbations and DNA replication stress. The relevant proteins and processes play paramount roles in nucleic acid transactions to maintain genomic stability and cellular homeostasis. A total of 18 articles are presented which encompass a broad range of highly relevant topics in genome biology. These include replication fork dynamics, DNA repair processes, DNA damage signaling and cell cycle control, cancer biology, epigenetics, cellular senescence, neurodegeneration, and aging. As Guest Editor for this IJMS Special Issue, I am very pleased to offer this collection of riveting articles centered on the theme of DNA replication stress. The blend of articles builds upon a theme that DNA damage has profound consequences for genomic stability and cellular homeostasis that affect tissue function, disease, cancer, and aging at multiple levels and through unique mechanisms. I thank the authors for their excellent contributions, which provide new insight into this fascinating and highly relevant area of genome biology.

Keywords

barley --- chromosome --- DNA replication pattern --- EdU --- mutagens --- DNA replication --- DNA damage --- DNA repair --- genome integrity --- A549 cells --- H1299 cells --- heterogeneity --- DNA damage response --- 8-chloro-adenosine --- DNA replication --- S phase --- origin firing --- TopBP1 --- ATR --- DNA fiber assay --- APE2 --- ATR-Chk1 DDR pathway --- Genome integrity --- SSB end resection --- SSB repair --- SSB signaling --- DNA replication stress --- genome stability --- ubiquitin --- replication fork restart --- translesion synthesis --- template-switching --- homologous recombination --- Fanconi Anemia --- G protein-coupled receptor (GPCR) --- aging --- DNA damage --- ?-arrestin --- G protein-coupled receptor kinase (GRK) --- interactome --- G protein-coupled receptor kinase interacting protein 2 (GIT2) --- ataxia telangiectasia mutated (ATM) --- clock proteins --- energy metabolism --- neurodegeneration --- cellular senescence --- ageing --- Alzheimer’s disease --- multiple sclerosis --- Parkinson’s disease --- lipofuscin --- SenTraGorTM (GL13) --- senolytics --- DNA replication --- DNA repair --- DNA damage response --- DNA translocation --- DNA helicase --- superfamily 2 ATPase --- replication restart --- fork reversal --- fork regression --- chromatin remodeler --- C9orf72 --- ALS --- motor neuron disease --- R loops, nucleolar stress --- neurodegeneration --- Difficult-to-Replicate Sequences --- replication stress --- non-B DNA --- Polymerase eta --- Polymerase kappa --- genome instability --- common fragile sites --- Microsatellites --- cancer --- DNA double-strand repair --- premature aging --- post-translational modification --- protein stability --- replication stress --- Werner Syndrome --- Werner Syndrome Protein --- dormant origins --- replicative stress --- replication timing --- DNA damage --- genome instability --- cancer --- Thermococcus eurythermalis --- endonuclease IV --- AP site analogue --- spacer --- DNA repair --- DNA repair --- double strand break repair --- exonuclease 1 --- EXO1 --- mismatch repair --- MMR --- NER --- nucleotide excision repair --- strand displacements --- TLS --- translesion DNA synthesis --- POL? --- mutation frequency --- mutations spectra --- SupF --- mutagenicity --- oxidative stress --- DNA damage --- DNA repair --- replication --- 8-oxoG --- epigenetic --- gene expression --- helicase --- cell cycle checkpoints --- genomic instability --- G2-arrest --- cell death --- repair of DNA damage --- adaptation --- n/a

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2019 (3)