Your search keyword '"Manocchio, Francesca"' showing total 3 results

1. Photoperiod-Dependent Effects on Blood Biochemical Markers of Phenolic-Enriched Fruit Extracts.

Author

Manocchio, Francesca, Morales, Diego, Navarro-Masip, Elia, Aragonès, Gerard, Torres-Fuentes, Cristina, Bravo, Francisca Isabel, and Muguerza, Begoña

Published

2024

2. Photoperiod-Dependent Effects on Blood Biochemical Markers of Phenolic-Enriched Fruit Extracts

Author

Manocchio, Francesca, Morales, Diego, Navarro-Masip, Elia, Aragonès, Gerard, Torres-Fuentes, Cristina, Bravo, Francisca Isabel, and Muguerza, Begoña

Abstract

Fruits are rich in bioactive compounds, such as (poly)phenols, and their intake is associated with health benefits, although recent animal studies have suggested that the photoperiod of consumption influences their properties. Fruit loss and waste are critical issues that can be reduced by obtaining functional fruit extracts. Therefore, the aim of this study was to obtain phenolic-enriched extracts from eight seasonal fruits that can modulate blood biochemical parameters and to investigate whether their effects depend on the photoperiod of consumption. Eight ethanol-based extracts were obtained and characterized, and their effects were studied in F344 rats exposed to short (6 h light, L6) and long (18 h light) photoperiods. Cherry and apricot extracts decreased blood triacylglyceride levels only when consumed under the L6 photoperiod. Pomegranate, grape, and orange extracts reduced cholesterol and fasting glucose levels during the L6 photoperiod; however, plum extract reduced fasting glucose levels only during the L18 photoperiod. The results showed the importance of photoperiod consumption in the effectiveness of phenolic-enriched fruit extracts and promising evidence regarding the use of some of the developed fruit extracts as potential functional ingredients for the management of several blood biomarkers.

Published

2024

3. Sweet cherries modulate thyroid hormones and hepatic glucose metabolism in F344 rats in a photoperiod-dependent manner.

Author

Manocchio, Francesca, Ruiz de Azua, María Josefina, Navarro-Masip, Èlia, Morales, Diego, Aragonès, Gerard, Torres-Fuentes, Cristina, Muguerza, Begoña, and Bravo, Francisca Isabel

Abstract

[Display omitted] • Thyroid hormones levels and liver glucose metabolism genes depended on photoperiod. • Long photoperiod promoted metabolic switch towards downregulation of gluconeogenesis. • Sweet cherries of different origins produced differential effects on thyroid hormones. • One of the cherries offset the photoperiod effect on thyroid hormones and liver genes. Sweet cherry intake affects oxidative stress and hepatic lipid metabolism, depending on composition, mainly (poly)phenol profile and daylight length. Thyroid hormones (TH) respond to daylight changes and regulate the hepatic glucose metabolism. This study investigated whether cherries with different phenolic hallmarks exhibit seasonal responses to TH and hepatic glucose metabolism. Fischer 344 rats fed a standard diet were chronically exposed to L6 (6 h light), L12 (12 h light), and L18 (18 h light) photoperiods and were supplemented with two sweet cherries (Ch1 and Ch2). Serum TH levels and glucose metabolism-related metabolites were affected by both the cherry composition and photoperiod. Thus, Ch1 and Ch2 reduced serum T3 levels in L6, whereas Ch2 increased it in L18, nullifying the photoperiod effect. Moreover, although photoperiod was the main factor affecting the hepatic expression of gluconeogenesis-related genes, Ch1 exerted effects mainly on L6 photoperiod and Ch2 on L18, tending to cancel out the photoperiod effects. [ABSTRACT FROM AUTHOR]

Published

2024