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Book
Year: 2020 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
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The book starts with the editors’ preface summarizing the contributions of each of the following thirteen articles dealing with chemical and pharmacological aspects of the molecular modulators of the oxidative stress in regard to various therapeutic approaches in cardiovascular and neurodegenerative diseases, cancer, and diabetes. The seven articles present data from original research studies enlightening the roles and mechanisms of action of small molecular weight compounds (natural and synthetic; ascorbic acid/vitamin C, deferoxamine, N-acetylcysteine, MitoVitE, α-tocopherol, trolox, and ezetimibe) or proteins (SIRT3) in modulation of oxidative stress. In the six review papers, the authors present and discuss the possible therapeutic potential of novel approaches and compounds that are promising and deserve further investigation, in modulation of oxidative stress.
Research & information: general --- Biology, life sciences --- ascorbic acid --- deferoxamine --- N-acetylcysteine --- ischemia/reperfusion --- cardiac fibroblasts --- reactive oxygen species --- photobiomodulation --- reactive oxygen species (ROS) --- nuclear factor kappa-light-chain-enhancer of activated B cells (NF-кB) --- cancer --- diabetes --- wound healing --- glucose --- pentose phosphate pathway --- NADPH --- redox balance --- glycogen --- glycolysis --- stress resistance --- insulin resistance --- immunomodulation --- inflammation --- olive tree --- oxidative stress --- secoirioids --- sirtuin 3 --- high fat diet --- sex differences --- mice --- metabolic stress --- antioxidants --- ADHD --- Nrf2 --- NRF2-KEAP1 --- ROS --- cancer metabolism --- antioxidant --- cancer therapy --- chemoresistance --- radioresistance --- sepsis --- MitoVitE --- mitochondria --- gene expression --- cytokines --- mRNA --- vitamin C --- folic acid --- one-carbon metabolism --- C2C12 cells --- metabolomics --- mass spectrometry --- type 2 diabetes --- dipeptidyl peptidase-4 inhibitors --- biomarkers --- ER stress --- Ezetimibe --- ischemia-reperfusion --- ionizing radiation --- liver --- hydroperoxide --- epigenetics --- miR7/MAFG/Nrf2 axe --- ascorbic acid --- deferoxamine --- N-acetylcysteine --- ischemia/reperfusion --- cardiac fibroblasts --- reactive oxygen species --- photobiomodulation --- reactive oxygen species (ROS) --- nuclear factor kappa-light-chain-enhancer of activated B cells (NF-кB) --- cancer --- diabetes --- wound healing --- glucose --- pentose phosphate pathway --- NADPH --- redox balance --- glycogen --- glycolysis --- stress resistance --- insulin resistance --- immunomodulation --- inflammation --- olive tree --- oxidative stress --- secoirioids --- sirtuin 3 --- high fat diet --- sex differences --- mice --- metabolic stress --- antioxidants --- ADHD --- Nrf2 --- NRF2-KEAP1 --- ROS --- cancer metabolism --- antioxidant --- cancer therapy --- chemoresistance --- radioresistance --- sepsis --- MitoVitE --- mitochondria --- gene expression --- cytokines --- mRNA --- vitamin C --- folic acid --- one-carbon metabolism --- C2C12 cells --- metabolomics --- mass spectrometry --- type 2 diabetes --- dipeptidyl peptidase-4 inhibitors --- biomarkers --- ER stress --- Ezetimibe --- ischemia-reperfusion --- ionizing radiation --- liver --- hydroperoxide --- epigenetics --- miR7/MAFG/Nrf2 axe
Book
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute
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This Special Issue, entitled "Synthetic Peptides and Peptidomimetics: From Basic Science to Biomedical Applications", has included both reviews and original research contributions focused on the chemical design and biomedical applications of structurally modified bioactive peptides. The papers collected show how successful this class of molecules still is, both as model molecules for studying the structure of proteins and as potential therapeutics and diagnostics, and also as laboratory tools for advanced basic and applied studies. The large scientific community working in this field is in fact very active and productive, and is making the most of the potential and versatility of these molecules to generate increasingly interesting and innovative molecules of therapeutic interest and to understand the fundamental molecular mechanisms of life.
Research & information: general --- Biology, life sciences --- polymers --- peptidomimetics --- AFM --- transfection --- molecular modelling --- peptide --- α-helix --- hydrocarbon stapling --- ring-closing metathesis --- i,i + 1 staple --- X-ray structure --- deferoxamine --- RGD peptides --- integrins --- radiodiagnostics --- PET imaging --- retro-inverso peptides --- anticancer peptides --- drug delivery --- peptide antigens --- Aβ --- IAPP --- antimicrobial peptides --- peptides --- diagnostic --- ELISA --- microarray --- PET --- SPECT --- imaging diagnostic --- non-imaging diagnostic --- amphiphilic peptides --- non-viral gene delivery --- nanocarrier --- peptide self-assemblies --- stimuli responsive --- SARS-CoV-2 --- FRET --- molecular docking --- molecular dynamics --- MM-GBSA --- drug repurposing --- antiviral --- cancer --- cyclic peptide --- integrin --- αvβ3 --- ALOS4 --- melanoma --- fluorescent peptide --- environment-sensitive fluorophore --- peptide labeling --- luciferin --- membrane-binding peptide --- antimicrobial peptide --- antitumor peptide --- RGD peptide --- antiproliferative activity --- chirality --- conformational analysis --- density functional theory (DFT) --- ferrocene --- hydrogen bonds --- peptidomimetic --- X-ray --- protein–protein interactions (PPIs) --- voltage-gated Na+ (Nav) channels --- fibroblast growth factor 14 (FGF14) --- medium spiny neurons (MSNs) --- nucleus accumbens (NAc) --- neurotherapeutics --- cyclophilin A (CypA) --- apoptosis-inducing factor (AIF) --- human neuroblastoma SH-SY5Y cells --- staurosporine-mediated cell death --- AIF(370-394) peptide --- caspase-3 --- PARP --- antifungal --- antibacterial --- peptide-based therapies --- synthetic peptides --- polymers --- peptidomimetics --- AFM --- transfection --- molecular modelling --- peptide --- α-helix --- hydrocarbon stapling --- ring-closing metathesis --- i,i + 1 staple --- X-ray structure --- deferoxamine --- RGD peptides --- integrins --- radiodiagnostics --- PET imaging --- retro-inverso peptides --- anticancer peptides --- drug delivery --- peptide antigens --- Aβ --- IAPP --- antimicrobial peptides --- peptides --- diagnostic --- ELISA --- microarray --- PET --- SPECT --- imaging diagnostic --- non-imaging diagnostic --- amphiphilic peptides --- non-viral gene delivery --- nanocarrier --- peptide self-assemblies --- stimuli responsive --- SARS-CoV-2 --- FRET --- molecular docking --- molecular dynamics --- MM-GBSA --- drug repurposing --- antiviral --- cancer --- cyclic peptide --- integrin --- αvβ3 --- ALOS4 --- melanoma --- fluorescent peptide --- environment-sensitive fluorophore --- peptide labeling --- luciferin --- membrane-binding peptide --- antimicrobial peptide --- antitumor peptide --- RGD peptide --- antiproliferative activity --- chirality --- conformational analysis --- density functional theory (DFT) --- ferrocene --- hydrogen bonds --- peptidomimetic --- X-ray --- protein–protein interactions (PPIs) --- voltage-gated Na+ (Nav) channels --- fibroblast growth factor 14 (FGF14) --- medium spiny neurons (MSNs) --- nucleus accumbens (NAc) --- neurotherapeutics --- cyclophilin A (CypA) --- apoptosis-inducing factor (AIF) --- human neuroblastoma SH-SY5Y cells --- staurosporine-mediated cell death --- AIF(370-394) peptide --- caspase-3 --- PARP --- antifungal --- antibacterial --- peptide-based therapies --- synthetic peptides
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