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1.
Adv Exp Med Biol ; 1260: 193-265, 2020.
Article in English | MEDLINE | ID: mdl-32304036

ABSTRACT

Worldwide, individuals are living longer due to medical and scientific advances, increased availability of medical care and changes in public health policies. Consequently, increasing attention has been focused on managing chronic conditions and age-related diseases to ensure healthy aging. The endogenous circadian system regulates molecular, physiological and behavioral rhythms orchestrating functional coordination and processes across tissues and organs. Circadian disruption or desynchronization of circadian oscillators increases disease risk and appears to accelerate aging. Reciprocally, aging weakens circadian function aggravating age-related diseases and pathologies. In this review, we summarize the molecular composition and structural organization of the circadian system in mammals and humans, and evaluate the technological and societal factors contributing to the increasing incidence of circadian disorders. Furthermore, we discuss the adverse effects of circadian dysfunction on aging and longevity and the bidirectional interactions through which aging affects circadian function using examples from mammalian research models and humans. Additionally, we review promising methods for managing healthy aging through behavioral and pharmacological reinforcement of the circadian system. Understanding age-related changes in the circadian clock and minimizing circadian dysfunction may be crucial components to promote healthy aging.


Subject(s)
Aging/pathology , Circadian Clocks/physiology , Circadian Rhythm/physiology , Disease , Longevity/physiology , Animals , Healthy Aging/physiology , Humans
2.
Methods Mol Biol ; 2138: 135-158, 2020.
Article in English | MEDLINE | ID: mdl-32219744

ABSTRACT

Drosophila melanogaster, the fruit fly, is one of the most versatile models for biomedical studies due to the economical husbandry, rapid generation time, and the array of tools for spatial and temporal gene manipulation. The relatively short lifespan of Drosophila (60-80 days) and the high degree of molecular conservation across species make Drosophila ideal to study the complexities of aging. Alcohol is the most abused drug worldwide and alcohol use disorders represent a significant public health problem and economic burden to individuals and society. Stereotypical alcohol-induced behaviors and the underlying molecular mechanisms are conserved from flies to humans making Drosophila a practical model for investigating the development of alcohol-induced behaviors and alcohol pathologies. Here, we outline how to assemble an efficient and controlled alcohol vapor delivery system, the FlyBar, and review paradigms and protocols for the assessment of alcohol-induced behaviors and physiology in Drosophila including the loss-of-righting reflex, sedation, tolerance, alcohol metabolism, and gut permeability.


Subject(s)
Alcoholism/pathology , Alcoholism/physiopathology , Behavior, Animal/drug effects , Behavior, Animal/physiology , Drosophila melanogaster/drug effects , Drosophila melanogaster/physiology , Ethanol/adverse effects , Aging/drug effects , Aging/physiology , Animals , Drug Tolerance/physiology , Female , Longevity/physiology , Male
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