Litcius/Paper detail

Time-of-day defines NAD+ efficacy to treat diet-induced metabolic disease by synchronizing the hepatic clock in mice

Quetzalcóatl Escalante‐Covarrubias, Lucía Mendoza-Viveros, Mirna González-Suárez, Román Sitten-Olea, Laura A. Velázquez‐Villegas, Fernando Becerril-Pérez, Ignacio Pacheco-Bernal, Erick Carreño‐Vázquez, Paola Berenice Mass Sanchez, Marcia Bustamante-Zepeda, Ricardo Orozco-Solís, Lorena Aguilar‐Arnal

2023Nature Communications21 citationsDOIOpen Access PDF

Abstract

Abstract The circadian clock is an endogenous time-tracking system that anticipates daily environmental changes. Misalignment of the clock can cause obesity, which is accompanied by reduced levels of the clock-controlled, rhythmic metabolite NAD + . Increasing NAD + is becoming a therapy for metabolic dysfunction; however, the impact of daily NAD + fluctuations remains unknown. Here, we demonstrate that time-of-day determines the efficacy of NAD + treatment for diet-induced metabolic disease in mice. Increasing NAD + prior to the active phase in obese male mice ameliorated metabolic markers including body weight, glucose and insulin tolerance, hepatic inflammation and nutrient sensing pathways. However, raising NAD + immediately before the rest phase selectively compromised these responses. Remarkably, timed NAD + adjusted circadian oscillations of the liver clock until completely inverting its oscillatory phase when increased just before the rest period, resulting in misaligned molecular and behavioral rhythms in male and female mice. Our findings unveil the time-of-day dependence of NAD + -based therapies and support a chronobiology-based approach.

Topics & Concepts

NAD+ kinaseEndocrinologyCircadian clockInternal medicineCircadian rhythmChronobiologyEndogenyMedicineBiologyBiochemistryEnzymeCircadian rhythm and melatoninTryptophan and brain disordersDietary Effects on Health
Time-of-day defines NAD+ efficacy to treat diet-induced metabolic disease by synchronizing the hepatic clock in mice | Litcius