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The Role of Melatonin in Chronic Kidney Disease and Its Associated Risk Factors: A New Tool in Our Arsenal?

American journal of nephrology
January 1, 2022
Panagiotis Theofilis et al. (3 authors)
Journal ArticleReviewHuman Study
Extracted Claims (9)
InterventionDirectionEndpointPopulationDosageImpactClaim #
melatonin
decrease
daytime and nocturnal blood pressure
patients with arterial hypertension
-
may be efficacious in reducing
#1
melatonin
increase
insulin sensitivity
-
-
may increase
#2
melatonin
increase
β-cell function
-
-
may increase
#3
late meal intake
decrease
glucose regulation
-
-
may be detrimental
#4
consumption close to melatonin peak concentrations
increase
hyperglycemia
-
-
may induce
#5
consumption close to melatonin peak concentrations
increase
insulin resistance
-
-
may induce
#6
melatonin
no change
glycose regulation
clinical trials and meta-analyses
-
inconsistent glycose regulation achieved
#7
presence of genetic variants to melatonin receptor 2
increase
T2DM development
-
-
may predispose to
#8
melatonin
decrease
CKD's pathophysiology
preclinical evidence
-
efficacy in ameliorating
#9
Abstract

BACKGROUND: The increasing incidence of chronic kidney disease (CKD), as a consequence of the high prevalence of arterial hypertension and type 2 diabetes mellitus (T2DM), warrants the need for developing effective treatment approaches. In this regard, the pineal gland-derived hormone melatonin may represent an appealing treatment approach of CKD and its associated risk factors. SUMMARY: Targeting the adverse pathophysiology surrounding CKD and its associated risk factors has been the concept of pharmacologic treatment developed for its management. This review article aimed to present the role of melatonin in this direction, by providing an overview of melatonin's physiology followed by its effect as a therapeutic agent in arterial hypertension and T2DM. KEY MESSAGES: Melatonin, the primary darkness hormone, possesses pleiotropic mechanisms of action which may have important implications in various pathologic states since its receptors are situated across various organ systems. As a treatment tool in arterial hypertension, melatonin may be efficacious in reducing both daytime and nocturnal blood pressure by influencing endothelial function, oxidative stress, the autonomic nervous system, and the renin-angiotensin system. Melatonin may also increase insulin sensitivity and β-cell function. However, late meal intake may be detrimental in glucose regulation, as consumption close to melatonin peak concentrations may induce hyperglycemia and insulin resistance. This finding may explain the inconsistent glycose regulation achieved with melatonin in clinical trials and meta-analyses. Additionally, the presence of genetic variants to melatonin receptor 2 may predispose to T2DM development. Finally, we present the available preclinical evidence supporting melatonin's efficacy in ameliorating CKD's pathophysiology since melatonin supplementation has not been adequately explored in patients with CKD. The combined use of stem cells with melatonin is an appealing therapeutic approach which ought to be assessed further.

Medical Subject Headings (MeSH)
Diabetes Mellitus, Type 2HumansHypertensionMelatoninRenal Insufficiency, ChronicRenin-Angiotensin System
Study Links
Citation Metrics
Total Citations7
Citations/Year2.3
Relative Citation Ratio1.00
NIH Percentile50.4%
Research Impact Scores
APT Score0.25
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