Fasting and refeeding cycles alter subcutaneous white depot growth dynamics and the morphology of brown adipose tissue in female rats

Intermittent food restriction (IFR) is used mainly for weight loss; however, its effects on adipose tissue are not known when alternating with an obesogenic diet. To demonstrate its effects on morphological dynamics of fat deposits, female Wistar rats were distributed into groups: standard control (...

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Bibliographic Details
Published in:British journal of nutrition 2021-08, Vol.126 (3), p.460-469
Main Authors: Rosas Fernández, Mariana, Concha Vilca, Carlos, Batista, Leandro O., Figueiredo, Letícia S., Ribeiro, Rosane A., Tavares do Carmo, Maria das Graças, Albuquerque, Kelse T.
Format: Article
Language:English
Subjects:
Adipose tissue
Adipose tissue (brown)
Adipose Tissue, Brown - growth & development
Adipose Tissue, White - growth & development
Alcohol
Animals
Behaviour, Appetite and Obesity
Body fat
Body weight loss
Carbohydrates
Cytokines
Diet
Drinking water
Energy efficiency
Energy intake
Fasting
Feeding Behavior
Female
Females
Fibrosis
Food
Food availability
Food intake
Histology
Hypertrophy
Metabolism
Morphology
Nutrient deficiency
Nutrition
Obesity
Prospective Studies
Rats
Rats, Wistar
Thermogenesis
Weight control
Weight Loss
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Summary:Intermittent food restriction (IFR) is used mainly for weight loss; however, its effects on adipose tissue are not known when alternating with an obesogenic diet. To demonstrate its effects on morphological dynamics of fat deposits, female Wistar rats were distributed into groups: standard control (ST-C), with commercial diet; DIO control (DIO-C), with a diet that induces obesity (DIO) during the first and last 15 d, replaced by a standard diet for thirty intermediate days; standard restricted (ST-R), with standard diet during the first and last 15 d, with six cycles of IFR at 50 % of ST-C; and DIO restricted (DIO-R), in DIO during the first and last 15 d, with six cycles of IFR at 50 % of DIO-C. At 105 d of life, white adipose tissue (WAT) and brown adipose tissue (BAT) deposits were collected, weighed and histology performed. The DIO-R group showed higher total food intake (DIO-R 10 768·0 (SEM 357·52) kJ/g v. DIO-C 8868·6 (SEM 249·25) kJ/g, P < 0·0001), energy efficiency during RAI (DIO-R 2·26 (SEM 0·05) g/kJ v. DIO-C 0·70 (SEM 0·03) g/kJ, P < 0·0001) and WAT (DIO-R 5·65 (SEM 0·30) g/100 g v. DIO-C 4·56 (SEM 0·30) g/100 g) than their respective control. Furthermore, IFR groups presented hypertrophy of WAT and BAT, as well as fibrosis in BAT. Thus, IFR can establish prospective resistance to weight loss by favouring changes in adipose tissue morphology, increased energy intake and efficiency. Finally, the DIO diet before and after IFR aggravates the damages caused by the restriction.
ISSN:0007-1145
1475-2662
DOI:10.1017/S0007114520004055