Abstract
Dietary restriction (DR) is believed to be one of the most promising approaches to extend life span of different animal species and to delay deleterious age-related physiological alterations and diseases. Among others, DR was shown to ameliorate acute kidney injury (AKI) and chronic kidney disease (CKD). However, to date, a comprehensive analysis of the mechanisms of the protective effect of DR specifically in kidney pathologies has not been carried out. The protective properties of DR are mediated by a range of signaling pathways associated with adaptation to reduced nutrient intake. The adaptation is accompanied by a number of metabolic changes, such as autophagy activation, metabolic shifts toward lipid utilization and ketone bodies production, improvement of mitochondria functioning, and decreased oxidative stress. However, some studies indicated that with age, the gain of DR-mediated positive remodeling gradually decreases. This may be an obstacle if we seek to translate the DR approach into a clinic for the treatment of kidney diseases as most patients with AKI and CKD are elderly. It is well known that aging is accompanied by impairments in a huge variety of organs and systems, such as hormonal regulation, stress sensing, autophagy and proteasomal activity, gene expression, and epigenome profile, increased damage to macromolecules and organelles including mitochondria. All these age-associated changes might be the reasons for the reduced protective potential of the DR during aging. We summarized the available mechanisms of DR-mediated nephroprotection and described ways to improve the effectiveness of this approach for an aged kidney.
Highlights
Reviewed by: Sergey Arkhipov, Henry Ford Health System, United States Krisztian Stadler, Pennington Biomedical Research Center, United States Justine Abais-Battad, Augusta University, United States
We summarized the available mechanisms of Dietary restriction (DR)-mediated nephroprotection and described ways to improve the effectiveness of this approach for an aged kidney
The influence of various dietary protocols on physiological effects is extensively studying in patients with acute kidney injury (AKI) and chronic kidney disease (CKD; Lambert et al, 2020; Müller et al, 2020), as well as in experimental models (Singh and Krishan, 2019)
Summary
The protective mechanisms of DR were discovered as early as in 1935 (McCay et al, 1935) and have been intensively studied, there are quite a few studies showing the effects of DR on the kidneys in normal or pathological conditions. The protection was found in a one-week DR in a rat model of kidney I/R injury, where DR improved renal function, suppressed tubular injury, prevented activation of ERK1/2, and inhibited the development of interstitial fibrosis, as well as reduced blood glucose, increased β-hydroxybutyrate, improved antioxidant protection, and DRP1-mediated mitochondrial fragmentation (Rojas-Morales et al, 2020). Studies in young rats have shown that DR has a protective effect against ischemic renal injury and in models of drug-induced AKI (Perazella, 2019). The protective properties of DR against cisplatin-induced AKI were confirmed using multi-layered omics data (transcriptome, proteome, and N-degradome) correlated with functional parameters (Späth et al, 2019) Such bioinformatic analysis revealed mRNAindependent changes in proteome that affect the extracellular matrix, mitochondria, and membrane transporters associated with the protective properties of DR. Dietary interventions are recommended for patients with CKD and can ameliorate glomerular filtration rate, lower blood pressure, and serum cholesterol levels, thereby improving health-related quality of life (Palmer et al, 2017)
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