Moisés Pérez-Mendoza scite author profile

Daytime restricted feeding (DRF) promotes circadian adaptations in the metabolic processing of nutrients. We explored the hepatic gluconeogenic response in DRF rats by the temporal profiles of the following: (1) the activity of glucose 6-phosphatase (G6Pase) and phosphoenolpyruvate carboxykinase (PEPCK), as well as the periportal and pericentral distribution of PEPCK; (2) conversion of alanine to glucose; (3) glycemia and liver glycogen content; (4) presence of glycogen synthase (GYS) and its phosphorylated form (at Ser641, pGYS); (5) circulating levels of corticosterone, glucagon and insulin; (6) glucose-tolerance test; and (7) sirtuin 1 (SIRT1) and peroxisome proliferator-activated receptor-coactivator 1α (PGC-1α). The results showed that DRF promoted: (1) a phase shift in G6Pase activity and an increase in PEPCK activity as well as a change of PEPCK from periportal to pericentral hepatocytes, (2) a net conversion of alanine to circulating glucose, (3) a decrease in glycemic values and a phase shift in the liver glycogen content, (4) a phase shift in GYS and an increase of pGYS, (5) an increase in the daily levels of corticosterone and glucagon, but a reduction in the levels of insulin, (6) normal glucose homeostasis in all groups and (7) an enhanced presence of SIRT1 and PGC-1α. It is proposed that the increased gluconeogenic in DRF group promotes synthesis of hepatic glycogen and the production of glucose. These results could be a modulation of the gluconeogenic process due to rheostatic adaptations in the endocrine, metabolic and timing regulation of liver and could be associated with the physiology of the food entrained oscillator.

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“Evening chronotype associates with increased triglyceride levels in young adults in two independent populations”

Aguilar-Galarza

García-Gasca

Mejía

et al. 2021

Clinical Nutrition

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Daytime restricted feeding modifies the daily regulation of fatty acidβ-oxidation and the lipoprotein profile in rats

et al. 2017

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Daytime restricted feeding (2 h of food access from 12.00 to 14.00 hours for 3 weeks) is an experimental protocol that modifies the relationship between metabolic networks and the circadian molecular clock. The precise anatomical locus that controls the biochemical and physiological adaptations to optimise nutrient use is unknown. We explored the changes in liver oxidative lipid handling, such as β-oxidation and its regulation, as well as adaptations in the lipoprotein profile. It was found that daytime restricted feeding promoted an elevation of circulating ketone bodies before mealtime, an altered hepatic daily rhythmicity of 14CO2 production from radioactive palmitic acid, and an up-regulation of the fatty acid oxidation activators, the α-subunit of AMP-activated protein kinase (AMPK), the deacetylase silent mating type information regulation homolog 1, and the transcriptional factor PPARγ-1α coactivator. An increased localisation of phosphorylated α-subunit of AMPK in the periportal hepatocytes was also observed. Liver hepatic lipase C, important for lipoprotein transformation, showed a change of daily phase with a peak at the time of food access. In serum, there was an increase of LDL, which was responsible for a net elevation of circulating cholesterol. We conclude that our results indicate an enhanced fasting response in the liver during daily synchronisation to food access, which involves altered metabolic and cellular control of fatty acid oxidation as well a significant elevation of serum LDL. These adaptations could be part of the metabolic input that underlies the expression of the food-entrained oscillator.

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Neotomodon alstoni mice present sex differences between lean and obese in daily hypothalamic leptin signaling

Pérez-Mendoza¹,

Luna-Moreno²,

Carmona-Castro³

et al. 2017

Chronobiology International

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This article compared the effects of spontaneous obesity on the daily profile in the relative amount of the leptin receptor (LepRb), and its output. That is the precursor Pro-opiomelanocortin (POMC) over a 24-hour period and compared with differences in locomotion and food intake in periods of artificial light. Differences between lean and obese mice were examined, as were sex differences. Body weight, food intake and locomotor activity were monitored in freely moving lean and obese mice. Hypothalamic tissue was collected at 5 h, 10 h, 15 h, 19 h and 24 h. Samples were analyzed by western blotting to determine the relative presence of protein for LepRb, STAT3 phosphorylation (by pSTAT3/STAT3 ratio) and POMC. Obese mice were 60% less active in locomotion than lean mice during the night. While both locomotor activity and food intake were noticeably greater during the day in obese mice than in lean mice, the hypothalamus in obese mice showed a lower relative abundance of POMC and reduced pSTAT3/STAT3 ratio and leptin receptors. Behavioral and biochemical differences were more evident in obese females than in obese males. These results indicate that obesity in N. alstoni affects hypothalamic leptin signaling according to sex.

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Daily cycle in hepatic lipid metabolism in obese mice,Neotomodon alstoni: Sex differences

Pérez-Mendoza

Rivera-Zavala

Rodríguez-Guadarrama

et al. 2018

Chronobiology International

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Disruption of circadian rhythms influences the pathogenesis of obesity, particularly with the basic regulation of food intake and metabolism. A link between metabolism and the circadian clock is the peroxisome proliferator-activated receptors (PPARs). The Neotomodon alstoni mouse, known as the "Mexican volcano mouse," may develop obesity if fed a normo-caloric diet. This manuscript documents the changes in part of the hepatic lipid homeostasis in both sexes of lean and obese N. alstoni mice, comparing the daily changes in the BMAL1 clock protein, in regulators of lipid metabolism (PGC-1α, PPARα-γ, SREBP-1c, and CPT-1α) and in free fatty acid (FFA) and hepatic triacylglyceride (TAG) metabolites in light-dark cycles. Hepatic tissue and blood were collected at 5, 10, 15, 19, and 24 h. Samples were analyzed by western blotting to determine the relative presence of protein. The results indicate that obesity affects daily changes in lipid metabolism and the BMAL1 profile in females considerably more than in males. These results suggest that the impact of obesity on lipid metabolism has important differences according to sex.

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