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      SIRT1 in the brain-connections with aging-associated disorders and lifespan.

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          Abstract

          The silent mating type information regulation 2 proteins (sirtuins) 1 of class III histone deacetylases (HDACs) have been associated with health span and longevity. SIRT1, the best studied member of the mammalian sirtuins, has a myriad of roles in multiple tissues and organs. However, a significant part of SIRT1's role that impinges on aging and lifespan may lie in its activities in the central nervous system (CNS) neurons. Systemically, SIRT1 influences energy metabolism and circadian rhythm through its activity in the hypothalamic nuclei. From a cell biological perspective, SIRT1 is a crucial component of multiple interconnected regulatory networks that modulate dendritic and axonal growth, as well as survival against stress. This neuronal cell autonomous activity of SIRT1 is also important for neuronal plasticity, cognitive functions, as well as protection against aging-associated neuronal degeneration and cognitive decline. We discuss recent findings that have shed light on the various activities of SIRT1 in the brain, which collectively impinge on aging-associated disorders and lifespan.

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          Mammalian sirtuins: biological insights and disease relevance.

          Marcia Haigis, David A Sinclair (2010)
          Aging is accompanied by a decline in the healthy function of multiple organ systems, leading to increased incidence and mortality from diseases such as type II diabetes mellitus, neurodegenerative diseases, cancer, and cardiovascular disease. Historically, researchers have focused on investigating individual pathways in isolated organs as a strategy to identify the root cause of a disease, with hopes of designing better drugs. Studies of aging in yeast led to the discovery of a family of conserved enzymes known as the sirtuins, which affect multiple pathways that increase the life span and the overall health of organisms. Since the discovery of the first known mammalian sirtuin, SIRT1, 10 years ago, there have been major advances in our understanding of the enzymology of sirtuins, their regulation, and their ability to broadly improve mammalian physiology and health span. This review summarizes and discusses the advances of the past decade and the challenges that will confront the field in the coming years.
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            Sirtuins in mammals: insights into their biological function.

            Shaday Michan, David. Sinclair (2007)
            Sirtuins are a conserved family of proteins found in all domains of life. The first known sirtuin, Sir2 (silent information regulator 2) of Saccharomyces cerevisiae, from which the family derives its name, regulates ribosomal DNA recombination, gene silencing, DNA repair, chromosomal stability and longevity. Sir2 homologues also modulate lifespan in worms and flies, and may underlie the beneficial effects of caloric restriction, the only regimen that slows aging and extends lifespan of most classes of organism, including mammals. Sirtuins have gained considerable attention for their impact on mammalian physiology, since they may provide novel targets for treating diseases associated with aging and perhaps extend human lifespan. In this review we describe our current understanding of the biological function of the seven mammalian sirtuins, SIRT1-7, and we will also discuss their potential as mediators of caloric restriction and as pharmacological targets to delay and treat human age-related diseases.
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              daf-2, an insulin receptor-like gene that regulates longevity and diapause in Caenorhabditis elegans.

              K. D. Kimura, H. A. Tissenbaum, Y. Liu (1997)
              A C. elegans neurosecretory signaling system regulates whether animals enter the reproductive life cycle or arrest development at the long-lived dauer diapause stage. daf-2, a key gene in the genetic pathway that mediates this endocrine signaling, encodes an insulin receptor family member. Decreases in DAF-2 signaling induce metabolic and developmental changes, as in mammalian metabolic control by the insulin receptor. Decreased DAF-2 signaling also causes an increase in life-span. Life-span regulation by insulin-like metabolic control is analogous to mammalian longevity enhancement induced by caloric restriction, suggesting a general link between metabolism, diapause, and longevity.
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                Author and article information

                Journal
                Journal ID (iso-abbrev): Front Cell Neurosci
                Title: Frontiers in cellular neuroscience
                Publisher: Frontiers Media SA
                ISSN: 1662-5102
                ISSN (Print): 1662-5102
                Publication date (Electronic): 2015
                Volume: 9
                Affiliations
                [1 ] Department of Biochemistry, Yong Loo Lin School of Medicine, National University Health System Singapore, Singapore.
                [2 ] Department of Biochemistry, Yong Loo Lin School of Medicine, National University Health System Singapore, Singapore ; NUS Graduate School for Integrative Sciences and Engineering, National University of Singapore Singapore, Singapore.
                Article
                DOI: 10.3389/fncel.2015.00064
                PMC ID: 4353374
                PubMed ID: 25805970
                SO-VID: be4fbdef-f2c7-4083-96cf-f5a7f1003530
                History

                Keywords: SIRT1,aging,cognition,metabolism,neurodegeneration
                Data availability:
                Keywords: SIRT1, aging, cognition, metabolism, neurodegeneration

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