Abstract
In recent years, some exogenous bioactive peptides have been shown to have promising anti-aging effects. These exogenous peptides may have a mechanism similar to endogenous peptides, and some can even regulate the release of endogenous active peptides and play a synergistic role with endogenous active peptides. Most aging studies use rodents that are easy to maintain in the laboratory and have relatively homogenous genotypes. Moreover, many of the anti-aging studies using bioactive peptides in rodent models only focus on the activity of single endogenous or exogenous active peptides, while the regulatory effects of exogenous active peptides on endogenous active peptides remain largely under-investigated. Furthermore, the anti-aging activity studies only focus on the effects of these bioactive peptides in individual organs or systems. However, the pathological changes of one organ can usually lead to multi-organ complications. Some anti-aging bioactive peptides could be used for rescuing the multi-organ damage associated with aging. In this paper, we review recent reports on the anti-aging effects of bioactive peptides in rodents and summarize the mechanism of action for these peptides, as well as discuss the regulation of exogenous active peptides on endogenous active peptides.
Highlights
In modern society, the extension of average life expectancy and the decreased birth rate have led to aging-related burdens across many regions [1,2]
We review the recent progress in anti-aging research involving the use of bioactive peptides in animal models, especially in rodents
GHK-Cu has been shown to improve the symptoms of acute lung injury (ALI), which is usually accompanied by severe oxidative stress and inflammation
Summary
The extension of average life expectancy and the decreased birth rate have led to aging-related burdens across many regions [1,2]. The aging process inevitably involves the aging of cells, which is usually caused by damage at the molecular and cellular level by long-term exposure to endogenous and exogenous stressors. Oxidative stress and inflammation play an important role in the aging of several other organs, such as the heart, liver, and kidneys These pathological changes can cause a variety of complications that affect multiple systems in the body. We review the recent progress in anti-aging research involving the use of bioactive peptides in animal models, especially in rodents. We review the mechanism of aging and the mechanism of action for the anti-aging effect of these bioactive peptides in each organ We summarize their common mechanism of action in different organs and the synergistic regulatory effects between endogenous and exogenous active peptides
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