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The innate immune system is the first line of defense against bacterial and viral infections and sterile inflammation through the recognition of pathogen-associated molecular patterns (PAMPs) by pathogen recognition receptors (PRRs) resulting in the production of proinflammatory and antiviral cytokines and chemokines. Several damage-associated molecular patterns (DAMPs), which were released by passive or active mechanisms under sterile conditions, are additionally recognized by PRRs and can cause or even aggravate the inflammatory response. In this special issue many aspects of innate immunity are summarized. Mechanisms of different DAMPs to induce pro- and anti-inflammatory activities, functions of different immune cells, as well as the crosstalk between coagulation and innate immunity were described. Furthermore, aspects of autoinflammatory diseases, types of programmed cell death pathways, and insect immunity are covered. Finally, therapeutic options for the treatment of diseases related to autoimmunity or infections are suggested. Overall, this special issue presents a broad overview of activities related to sterile inflammation and defense mechanisms of innate immunity.

Medicine --- inflammation --- type I interferons --- interleukin-1β --- crosstalk --- hepatic non-parenchymal cells --- albumin --- chronic liver diseases --- bacteria --- cytomegalovirus --- endothelin receptor --- repurposing --- cell culture --- Drosophila suzukii --- hemocytes --- plasmatocytes --- extracellular traps --- HMGB1 --- RAGE --- TLR4 --- DAMP --- SIRT1 --- α7-nicotinic acetylcholine receptor --- nociceptor --- cancer --- COVID-19 --- proteostasis --- autoinflammation --- ribosomopathies --- proteinopathies --- proteasomopathies --- extracellular RNA --- cytokines --- macrophages --- endothelial cells --- toll-like receptors --- angiogenesis --- γδ T cells --- gamma delta T cells --- proliferation --- macrophage polarization --- neutrophils --- neutrophil extracellular traps --- NETs --- ischemia --- PANoptosis --- PANoptosome --- pyroptosis --- apoptosis --- necroptosis --- inflammatory cell death --- inflammasome --- innate immunity --- infection --- NLR --- caspase --- IRF1 --- ZBP1 --- RIPK1 --- RIPK3 --- MLKL --- NLRP3 --- AIM2 --- Pyrin --- caspase-1 --- ASC --- caspase-8 --- caspase-3 --- caspase-7 --- plasticity --- redundancy --- SMOC1 --- thrombin --- n/a

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In this book, we have reported the most recent discoveries and updates regarding molecular pathways in osteoarthritis. In particular, the advances regarding therapeutical options, from a molecular point of view, are largely discussed.

osteoarthritis --- cartilage --- type II collagen --- matrix metalloproteinases --- MMP-13 --- regulation --- inhibitor --- NO synthase --- Interleukin-1β --- chondrocytes --- mitochondrial dysfunction --- mesenchimal stem cells --- chondrocytic commitment --- autophagy --- miRNAs --- hydrostatic pressure --- adipokines --- visfatin --- Wnt/β-catenin --- mechanical loading --- obesity --- microRNA --- oxidative stress --- vibrational spectroscopy --- near-infrared spectroscopy --- infrared spectroscopy --- Raman spectroscopy --- early diagnosis --- exercise --- physical activity --- nutraceuticals --- dietary supplements --- inflammation --- aging --- inflammaging --- osteochondral explant culture --- joint modelling --- pharmacological assay --- native tissue analysis --- hexosamine biosynthetic pathway --- cartilage trauma --- post-traumatic osteoarthritis --- O-GlcNAcylation --- glucosamine --- cell death --- therapy --- sex as a biological variable --- whole transcriptome sequencing --- molecules --- TGF-β --- SMAD2/3 signaling --- linker modifications --- meniscus --- proteomics --- MRM --- ECM --- celecoxib --- glucosamine sulfate --- chondroprotection --- NF-κB --- cytokines --- chemokines --- pathogenesis --- biomarker --- chondrocyte --- IL-1β --- IFNγ, IL-17 --- IL-4 --- RNA-Seq --- hypertrophy --- remodeling --- angiogenesis --- chondroitin --- collagen --- methylsulfonylmethane --- vitamin C --- vitamin D --- hyaluronic acid

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This book collects 17 original research papers and 9 reviews that are part of the Special Issue “Cellular Oxidative Stress”, published in the journal Antioxidants. Oxidative stress on a cellular level affects the function of tissues and organs and may eventually lead to disease. Therefore, a precise understanding of how oxidative stress develops and can be counteracted is of utmost importance. The scope of the book is to emphasize the latest findings on the cellular targets of oxidative stress and the potential beneficial effect of antioxidants on human health.

Medicine --- neuroinflammation --- clinical --- palmitoylethanolamide --- luteolin --- co-ultramicronization --- CNS pathology --- adaptive immune response --- cell homeostasis --- legumes --- liver --- hepatic steatosis --- lipid dyshomeostasis --- ROS --- traumatic brain injury --- palmitoylethanolamide (PEA) --- therapeutic strategies --- oxidative stress. --- RNA-Seq --- RPE --- Retinitis pigmentosa --- A2E --- diabetes --- glucose exposure --- oxidative stress --- Band 3 protein --- erythrocytes --- SO42− --- 4-hydroxy-2-nonenal --- 3-glutathionyl-4-hydroxynonanal --- astrocytoma cells --- soy --- soybeans --- soy foods --- antioxidants --- reactive oxygen species --- cardiovascular diseases --- cancer --- paw edema --- cashew nuts --- antioxidant --- inflammation --- polyphenols --- analgesic --- d-Galactose --- glycation --- SO42− uptake --- anion exchange --- diseases --- immune system --- NF-κB --- cigarette smoke extract --- nasal fibroblasts --- tissue inhibitor of metalloproteinases --- matrix metalloproteinase --- steroids --- Plasmodium falciparum --- syk kinase inhibitors --- artemisinin derivatives --- hemichromes --- cellular redox state --- mitochondrial function --- cisplatin nephrotoxicity --- acute pancreatitis --- obesity --- nitrosative stress --- PGC-1α --- microparticles --- vesiculation --- band 3 --- tert-Bytyl hydroperoxide t-BOOH --- nitric oxide donor --- calcium ionophore A23187 --- age-related macular degeneration (AMD) --- diet --- Substance-P --- adipose-derived stem cells --- paracrine factors --- epilepsy --- status epilepticus --- Trolox --- HeLa --- prooxidant --- AVD --- apoptosis --- neurodegeneration --- ncRNA --- miRNA --- tRNA fragments --- lncRNA --- circRNA --- preeclampsia --- hemostasis --- platelets --- coagulation --- fish --- mucosal immunity --- nasal immunity --- peroxide --- vitamin C --- NAC --- immunosenescence --- T cells --- vaccination --- aging --- microvascular permeability --- bradykinin --- interleukin 1β --- NADPH oxidase --- simvastatin --- molecular hydrogen --- autophagy --- matrix metalloproteinases --- reactive oxygen species (ROS) --- phytochemicals --- dietary chemicals --- natural compounds --- programmed cell death --- anoikis --- ferroptosis --- pyroptosis --- n/a

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This book collects 17 original research papers and 9 reviews that are part of the Special Issue “Cellular Oxidative Stress”, published in the journal Antioxidants. Oxidative stress on a cellular level affects the function of tissues and organs and may eventually lead to disease. Therefore, a precise understanding of how oxidative stress develops and can be counteracted is of utmost importance. The scope of the book is to emphasize the latest findings on the cellular targets of oxidative stress and the potential beneficial effect of antioxidants on human health.

Medicine --- neuroinflammation --- clinical --- palmitoylethanolamide --- luteolin --- co-ultramicronization --- CNS pathology --- adaptive immune response --- cell homeostasis --- legumes --- liver --- hepatic steatosis --- lipid dyshomeostasis --- ROS --- traumatic brain injury --- palmitoylethanolamide (PEA) --- therapeutic strategies --- oxidative stress. --- RNA-Seq --- RPE --- Retinitis pigmentosa --- A2E --- diabetes --- glucose exposure --- oxidative stress --- Band 3 protein --- erythrocytes --- SO42− --- 4-hydroxy-2-nonenal --- 3-glutathionyl-4-hydroxynonanal --- astrocytoma cells --- soy --- soybeans --- soy foods --- antioxidants --- reactive oxygen species --- cardiovascular diseases --- cancer --- paw edema --- cashew nuts --- antioxidant --- inflammation --- polyphenols --- analgesic --- d-Galactose --- glycation --- SO42− uptake --- anion exchange --- diseases --- immune system --- NF-κB --- cigarette smoke extract --- nasal fibroblasts --- tissue inhibitor of metalloproteinases --- matrix metalloproteinase --- steroids --- Plasmodium falciparum --- syk kinase inhibitors --- artemisinin derivatives --- hemichromes --- cellular redox state --- mitochondrial function --- cisplatin nephrotoxicity --- acute pancreatitis --- obesity --- nitrosative stress --- PGC-1α --- microparticles --- vesiculation --- band 3 --- tert-Bytyl hydroperoxide t-BOOH --- nitric oxide donor --- calcium ionophore A23187 --- age-related macular degeneration (AMD) --- diet --- Substance-P --- adipose-derived stem cells --- paracrine factors --- epilepsy --- status epilepticus --- Trolox --- HeLa --- prooxidant --- AVD --- apoptosis --- neurodegeneration --- ncRNA --- miRNA --- tRNA fragments --- lncRNA --- circRNA --- preeclampsia --- hemostasis --- platelets --- coagulation --- fish --- mucosal immunity --- nasal immunity --- peroxide --- vitamin C --- NAC --- immunosenescence --- T cells --- vaccination --- aging --- microvascular permeability --- bradykinin --- interleukin 1β --- NADPH oxidase --- simvastatin --- molecular hydrogen --- autophagy --- matrix metalloproteinases --- reactive oxygen species (ROS) --- phytochemicals --- dietary chemicals --- natural compounds --- programmed cell death --- anoikis --- ferroptosis --- pyroptosis