Microbiome and Human Aging: Probiotic and Prebiotic Potentials in Longevity, Skin Health and Cellular Senescence

The role of the microbiome in human aging is important: the microbiome directly impacts aging through the gastrointestinal system. However, the microbial impact on skin has yet to be fully understood. For example, cellular senescence is an intrinsic aging process that has been recently associated wi...

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Veröffentlicht in:	Nutrients 2021-12, Vol.13 (12), p.4550
Hauptverfasser:	Boyajian, Jacqueline Lena, Ghebretatios, Merry, Schaly, Sabrina, Islam, Paromita, Prakash, Satya
Format:	Artikel
Sprache:	eng
Schlagworte:	Accumulation Age Aging Aging - metabolism Bacteria Cell cycle Cellular Senescence - physiology Chemokines Chronic illnesses Cyclin-dependent kinases Cytokines Cytokines - metabolism Diet Digestive system DNA damage Dysbiosis Extracellular matrix Gastrointestinal Microbiome - physiology Gastrointestinal system Growth factors Health Healthy Aging - physiology Homeostasis Humans Immune system Immunomodulation Inflammation Inflammation Mediators - metabolism Intestinal microflora Lipids Longevity Metabolism Metabolites Metabolomics Microbiomes Microbiota Microorganisms Nutrition Nutritional Physiological Phenomena - physiology Oldest old people Phenotypes Prebiotics Probiotics Radiation Review Senescence Skin Skin Aging Skin Physiological Phenomena Tumor necrosis factor-TNF
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description	The role of the microbiome in human aging is important: the microbiome directly impacts aging through the gastrointestinal system. However, the microbial impact on skin has yet to be fully understood. For example, cellular senescence is an intrinsic aging process that has been recently associated with microbial imbalance. With age, cells become senescent in response to stress wherein they undergo irreversible growth arrest while maintaining high metabolic activity. An accumulation of senescent cells has been linked to various aging and chronic pathologies due to an overexpression of the senescence-associated secretory phenotype (SASP) comprised of proinflammatory cytokines, chemokines, growth factors, proteases, lipids and extracellular matrix components. In particular, dermatological disorders may be promoted by senescence as the skin is a common site of accumulation. The gut microbiota influences cellular senescence and skin disruption through the gut-skin axis and secretion of microbial metabolites. Metabolomics can be used to identify and quantify metabolites involved in senescence. Moreover, novel anti-senescent therapeutics are warranted given the poor safety profiles of current pharmaceutical drugs. Probiotics and prebiotics may be effective alternatives, considering the relationship between the microbiome and healthy aging. However, further research on gut composition under a senescent status is needed to develop immunomodulatory therapies.
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subjects	Accumulation Age Aging Aging - metabolism Bacteria Cell cycle Cellular Senescence - physiology Chemokines Chronic illnesses Cyclin-dependent kinases Cytokines Cytokines - metabolism Diet Digestive system DNA damage Dysbiosis Extracellular matrix Gastrointestinal Microbiome - physiology Gastrointestinal system Growth factors Health Healthy Aging - physiology Homeostasis Humans Immune system Immunomodulation Inflammation Inflammation Mediators - metabolism Intestinal microflora Lipids Longevity Metabolism Metabolites Metabolomics Microbiomes Microbiota Microorganisms Nutrition Nutritional Physiological Phenomena - physiology Oldest old people Phenotypes Prebiotics Probiotics Radiation Review Senescence Skin Skin Aging Skin Physiological Phenomena Tumor necrosis factor-TNF
title	Microbiome and Human Aging: Probiotic and Prebiotic Potentials in Longevity, Skin Health and Cellular Senescence
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