Temporal control of feeding attenuates allergic dermatitis via reduced leptin production in mice

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The study investigated whether feeding time and diet modulate contact hypersensitivity, a mouse model of allergic dermatitis, by comparing ad libitum versus 10/14 time-restricted feeding (TRF) with normal or high-fat chow. High-fat feeding under ad libitum conditions worsened disease severity, with increased ear swelling, leukocyte and neutrophil infiltration, cytokine accumulation, and intraepidermal pustule formation, whereas TRF attenuated these effects and accelerated resolution, including when TRF began after disease onset. The authors found that high-fat feeding disrupted serum leptin levels and their diurnal rhythm, while TRF partially restored these leptin changes; higher leptin correlated with more intense inflammatory responses, and leptin signaling inhibition (genetic or pharmacological) reduced disease severity. Relevance to endometriosis: the paper does not explicitly discuss endometriosis or adenomyosis; it was included in the corpus via a keyword match in the upstream search index.

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Abstract

ABSTRACT Irregular and unhealthy eating behavior contributes to the development of both metabolic and inflammatory disorders. Time-restricted eating modulates metabolism and immune function without reducing caloric intake, yet its role in inflammatory skin diseases remains unclear. Here, we examined how feeding time and diet influence contact hypersensitivity, a murine model of allergic dermatitis—a disease that affects 20% of the population. Mice were fed with normal (NC) or high-fat (HF) chow under ad libitum (AL) or 10/14 time-restricted feeding (TRF) conditions. Under AL conditions, HF diet induced metabolic dysfunction and exacerbated inflammation, characterized by increased ear swelling, leukocyte infiltration, neutrophil and cytokine accumulation, and intraepidermal pustule formation. TRF attenuated these effects and accelerated resolution, even when initiated after disease onset. HF feeding altered both the level and diurnal dynamics of serum leptin, while TRF partially restored these changes. Elevated leptin levels were associated with increased inflammatory responses including intense neutrophil accumulation and pustule formation, and both genetic and pharmacological inhibition of leptin signaling reduced disease severity. Analysis of patients’ transcriptomic data also suggested a link between leptin signaling and inflammatory skin conditions in humans. We propose that time-restricted eating beneficially influences disease progression in contact dermatitis and that leptin-associated pathways may contribute to this effect.
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ABSTRACT Irregular and unhealthy eating behavior contributes to the development of both metabolic and inflammatory disorders. Time-restricted eating modulates metabolism and immune function without reducing caloric intake, yet its role in inflammatory skin diseases remains unclear. Here, we examined how feeding time and diet influence contact hypersensitivity, a murine model of allergic dermatitis—a disease that affects 20% of the population. Mice were fed with normal (NC) or high-fat (HF) chow under ad libitum (AL) or 10/14 time-restricted feeding (TRF) conditions. Under AL conditions, HF diet induced metabolic dysfunction and exacerbated inflammation, characterized by increased ear swelling, leukocyte infiltration, neutrophil and cytokine accumulation, and intraepidermal pustule formation. TRF attenuated these effects and accelerated resolution, even when initiated after disease onset. HF feeding altered both the level and diurnal dynamics of serum leptin, while TRF partially restored these changes. Elevated leptin levels were associated with increased inflammatory responses including intense neutrophil accumulation and pustule formation, and both genetic and pharmacological inhibition of leptin signaling reduced disease severity. Analysis of patients’ transcriptomic data also suggested a link between leptin signaling and inflammatory skin conditions in humans. We propose that time-restricted eating beneficially influences disease progression in contact dermatitis and that leptin-associated pathways may contribute to this effect. Competing Interest Statement The authors have declared no competing interest. Footnotes The manuscript has been revised. Figure 7 has been expanded to include an additional panel. The supplementary materials have also been updated.

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