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In recent years, great attention has been paid to polyphenols due to their positive effects on health. One of the most widely-studied phenolic compounds is resveratrol. This molecule, which is naturally present in some foods, shows beneficial effects on various physiological and biochemical processes, thus representing a potential tool for the prevention or the treatment of diseases highly prevalent in our society. Several of these beneficial effects have been observed in human beings, but others only in pre-clinical studies so far, and therefore, it is mandatory to continue with the scientific research in this field. Indeed, new knowledge concerning these issues could enable the development of novel functional foods or nutraceuticals, incorporating resveratrol, suitable for preventing or treating diseases such as cancer, cardiovascular diseases, obesity, dislipemia, insulin resistance and diabetes, liver diseases, etc.

polyphenols --- ?-viniferin --- leptin resistance --- p53 --- kidney --- energy restriction --- grape powder extract --- cytokines --- phosphorylation --- obesity --- energy metabolism --- metabolic pathways --- endothelial function --- polyol pathway --- antioxidant --- caloric restriction --- rat --- adipose tissue --- microparticles --- pathways --- angiotensin converting enzyme 2 --- resistance --- esRAGE --- interleukins --- metabolic syndrome --- dissolution rate --- thermogenesis --- streptozotocin --- bioavailability --- solubility --- metabolism --- renin-angiotensin system --- microbiota --- Sirt-1 --- magnesium dihydroxide --- hypertrophy --- metabolic diseases --- physiological adaption --- red wine extract --- lens --- distribution --- MTA1 --- sirtuin --- inflammation --- cardiac function --- rats --- cisplatin --- resveratrol --- mitochondria --- breast cancer --- ischemia-reperfusion --- cardiovascular --- metabolites --- gut microbiota --- prostate cancer --- performance --- type 2 diabetes --- cafeteria diet --- high-fat high-sucrose diet --- resistance exercise --- aging --- diabetes --- oxidative stress

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Gestational diabetes mellitus (GDM) is one of the most common adverse medical conditions that occurs during pregnancy, and its prevalence is rising as part of a diabetes pandemic. Nutrition plays a key role in GDM, whether (1) as part of an ‘unhealthy’ diet, which contributes to its cause, or (2) as part of changes in dietary intake, which act as the frontline treatment for GDM (sometimes supplemented with exercise and pharmacological intervention). Dietary changes, therefore, can alter the risk of developing GDM in the first place, and once GDM has emerged during pregnancy, dietary changes can mitigate the risk of developing GDM-related complications, such as macrosomia, respiratory distress, hypoglycemia and jaundice in the neonate, pre eclampsia, increased need for caesarean section and placental abruption in the mother. In this Special Issue, we aim to highlight the role of nutrition in the aetiology of GDM, whether directly or indirectly through weight gain and obesity, and in its role as a GDM treatment to lower hyperglycemia and the risk of the aforementioned complications.

Research & information: general --- Biology, life sciences --- Food & society --- microbiome --- pregnancy --- obesity --- ketonuria --- Roseburia --- diet --- food frequency questionnaire --- glucose --- insulin secretion --- human milk --- breastfeeding --- gestational diabetes mellitus --- insulin-dependent diabetes mellitus --- preterm newborn --- gestational diabetes --- dietary patterns --- maternal nutrition --- dietary adaptations --- glycemic index --- postprandial glycemic response --- blood glucose prediction --- diabetes --- gestational weight gain --- macrosomia --- adiposity --- neonate --- exercise --- physical activity --- dietary carbohydrates --- diabetes-specific formula --- continuous glucose monitoring --- glycemic variability --- carbohydrate distribution --- mean amplitude of glucose --- breakfast diet --- platelet-activating factor --- tumor necrosis factor α --- methylglyoxal --- glycated albumin --- endocrine disruptors --- endocrine-disrupting chemicals --- bisphenol A --- BPA --- phthalates --- pregnancy outcomes --- eating speed --- cohort study --- prevention --- nutrition --- polyphenolic compounds --- bioactive compounds --- leptin resistance --- inflammation --- Mediterranean diet --- n/a

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The trace mineral selenium is still regarded as one of the most interesting and health-beneficial elements. In addition to the Editorial containing a dedication to Dr. Leopold Flohé, this Special Issue contains 13 research articles and 8 reviews, with over 120 different contributors covering many of the most important subjects concerning the study of selenium. The articles address both selenium as well as selenoproteins and their molecular roles, providing important considerations regarding this trace element’s impact on human and animal health and disease.

Research & information: general --- Biology, life sciences --- selenoproteome --- selenoprotein hierarchy --- nonradioactive isotopes --- SEC-ICP MS --- glutathione peroxidase --- thioredoxin reductase --- SECIS --- translation regulation --- autoimmune thyroid disease --- diabetes mellitus --- Graves’ disease --- Hashimoto thyroiditis --- infection --- inflammation --- long-COVID --- rheumatoid arthritis --- selenoprotein P --- sepsis --- selenoprotein W --- thioredoxin --- 14-3-3 --- Akt --- cell death --- Selenof --- selenium --- selenoprotein --- colon cancer --- barrier integrity --- cardiovascular --- heart --- selenoproteins --- Keshan’s Disease --- bacteria --- selenite --- selenium delivery system --- Trsp --- hypothalamus --- Agrp neuron --- sex differences --- diet-induced obesity --- leptin resistance --- macrophage --- differentiation --- redox signaling --- NRF2 --- NF-κB --- lipid mediators --- seleocysteine --- autoimmunity --- lymphocyte --- cadmium cytotoxicity --- cancer therapy --- cisplatin --- ICP-MS --- nonsynonymous mutation --- selenium homeostasis --- ZIP8 --- Trit1 --- isopentenylation --- tRNA[Ser]Sec --- selenocysteine --- genetic variance --- human disease --- selenophosphate synthetase --- endothelial cell --- reactive oxygen species --- cell growth --- angiogenesis --- SEPHS1 --- early embryogenesis --- embryonic lethality --- prostate --- cancer --- tumor suppressor --- selenoprotein deficiency --- SECISBP2 --- Sec-tRNA[Ser]Sec --- SEPSECS --- antioxidative defense --- autoantibody --- Hashimoto’s thyroiditis --- trace element --- recoding --- SECIS-binding protein --- translation termination --- nonsense-mediated decay --- ribosome rescue --- health --- mouse models --- selenocysteine (Sec) --- virus --- viral --- antioxidant --- HIV --- HCV --- HBV --- coxsackie virus --- influenza --- n/a --- HIV-1 --- viral infection --- SELENOS --- SELENOO --- primary T cells --- Jurkat --- SupT1 --- translational control --- Graves' disease --- Keshan's Disease --- Hashimoto's thyroiditis

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The trace mineral selenium is still regarded as one of the most interesting and health-beneficial elements. In addition to the Editorial containing a dedication to Dr. Leopold Flohé, this Special Issue contains 13 research articles and 8 reviews, with over 120 different contributors covering many of the most important subjects concerning the study of selenium. The articles address both selenium as well as selenoproteins and their molecular roles, providing important considerations regarding this trace element’s impact on human and animal health and disease.

selenoproteome --- selenoprotein hierarchy --- nonradioactive isotopes --- SEC-ICP MS --- glutathione peroxidase --- thioredoxin reductase --- SECIS --- translation regulation --- autoimmune thyroid disease --- diabetes mellitus --- Graves’ disease --- Hashimoto thyroiditis --- infection --- inflammation --- long-COVID --- rheumatoid arthritis --- selenoprotein P --- sepsis --- selenoprotein W --- thioredoxin --- 14-3-3 --- Akt --- cell death --- Selenof --- selenium --- selenoprotein --- colon cancer --- barrier integrity --- cardiovascular --- heart --- selenoproteins --- Keshan’s Disease --- bacteria --- selenite --- selenium delivery system --- Trsp --- hypothalamus --- Agrp neuron --- sex differences --- diet-induced obesity --- leptin resistance --- macrophage --- differentiation --- redox signaling --- NRF2 --- NF-κB --- lipid mediators --- seleocysteine --- autoimmunity --- lymphocyte --- cadmium cytotoxicity --- cancer therapy --- cisplatin --- ICP-MS --- nonsynonymous mutation --- selenium homeostasis --- ZIP8 --- Trit1 --- isopentenylation --- tRNA[Ser]Sec --- selenocysteine --- genetic variance --- human disease --- selenophosphate synthetase --- endothelial cell --- reactive oxygen species --- cell growth --- angiogenesis --- SEPHS1 --- early embryogenesis --- embryonic lethality --- prostate --- cancer --- tumor suppressor --- selenoprotein deficiency --- SECISBP2 --- Sec-tRNA[Ser]Sec --- SEPSECS --- antioxidative defense --- autoantibody --- Hashimoto’s thyroiditis --- trace element --- recoding --- SECIS-binding protein --- translation termination --- nonsense-mediated decay --- ribosome rescue --- health --- mouse models --- selenocysteine (Sec) --- virus --- viral --- antioxidant --- HIV --- HCV --- HBV --- coxsackie virus --- influenza --- n/a --- HIV-1 --- viral infection --- SELENOS --- SELENOO --- primary T cells --- Jurkat --- SupT1 --- translational control --- Graves' disease --- Keshan's Disease --- Hashimoto's thyroiditis