Alternate-day fasting delays pubertal development in normal-weight mice but prevents high-fat diet-induced obesity and precocious puberty.

IF 4.6 2区 医学 Q1 ENDOCRINOLOGY & METABOLISM Nutrition & Diabetes Pub Date : 2024-10-04 DOI:10.1038/s41387-024-00335-w
Rahim Ullah, Chuqing Xue, Senjie Wang, Zhewen Qin, Naveed Rauf, Shumin Zhan, Naimat Ullah Khan, Yi Shen, Yu-Dong Zhou, Junfen Fu
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Abstract

Background/objectives: Childhood obesity, particularly in girls, is linked to early puberty onset, heightening risks for adult-onset diseases. Addressing childhood obesity and precocious puberty is vital to mitigate societal burdens. Despite existing costly and invasive medical interventions, introducing lifestyle-based alternatives is essential. Our study investigates alternate-day fasting's (ADF) impact on pubertal development in normal-weight and high-fat diet (HFD)-induced obese female mice.

Methods: Four groups of female mice were utilized, with dams initially fed control chow during and before pregnancy. Post-parturition, two groups continued on control chow, while two switched to an HFD. Offspring diets mirrored maternal exposure. One control and one HFD group were subjected to ADF. Morphometry and hormone analyses at various time points were performed.

Results: Our findings demonstrate that ADF in normal-weight mice led to reduced body length, weight, uterine, and ovarian weights, accompanied by delayed puberty and lower levels of sex hormones and growth hormone (GH). Remarkably, GH treatment effectively prevented ADF-induced growth reduction but did not prevent delayed puberty. Conversely, an HFD increased body length, induced obesity and precocious puberty, and altered sex hormones and leptin levels, which were counteracted by ADF regimen. Our data indicate ADF's potential in managing childhood obesity and precocious puberty.

Conclusions: ADF reduced GH and sex hormone levels, contributing to reduced growth and delayed puberty, respectively. Therefore, parents of normal-weight children should be cautious about prolonged overnight fasting. ADF prevented HFD-induced obesity and precocious puberty, offering an alternative to medical approaches; nevertheless, further studies are needed for translation into clinical practice.

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隔日禁食会推迟正常体重小鼠的青春期发育,但会防止高脂饮食引起的肥胖和性早熟。
背景/目的:儿童肥胖,尤其是女孩肥胖,与青春期早熟有关,增加了成年后发病的风险。解决儿童肥胖和性早熟问题对于减轻社会负担至关重要。尽管现有的医疗干预措施成本高昂且具有侵入性,但引入基于生活方式的替代方案至关重要。我们的研究调查了隔日禁食(ADF)对正常体重和高脂饮食(HFD)诱导的肥胖雌性小鼠青春期发育的影响:方法:利用四组雌性小鼠,母鼠在怀孕期间和怀孕前最初喂食对照组饲料。分娩后,两组继续喂食对照组饲料,两组改喂高脂饮食。后代的饮食与母体的饮食相同。一个对照组和一个高氟日粮组使用 ADF。在不同的时间点进行形态计量和激素分析:我们的研究结果表明,正常体重小鼠摄入 ADF 会导致体长、体重、子宫和卵巢重量减少,同时青春期延迟,性激素和生长激素(GH)水平降低。值得注意的是,生长激素治疗能有效防止ADF引起的生长下降,但不能防止青春期延迟。相反,HFD会增加体长、诱发肥胖和性早熟,并改变性激素和瘦素水平,而ADF疗法可抵消这些变化。我们的数据表明,ADF具有控制儿童肥胖和性早熟的潜力:ADF降低了促生长激素和性激素水平,分别导致了生长发育减慢和青春期延迟。因此,体重正常儿童的家长应谨慎对待长期隔夜禁食。ADF可预防高密度脂蛋白胆固醇诱发的肥胖和性早熟,为医疗方法提供了一种替代方案;不过,要将其应用于临床实践,还需要进一步的研究。
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来源期刊
Nutrition & Diabetes
Nutrition & Diabetes ENDOCRINOLOGY & METABOLISM-NUTRITION & DIETETICS
CiteScore
9.20
自引率
0.00%
发文量
50
审稿时长
>12 weeks
期刊介绍: Nutrition & Diabetes is a peer-reviewed, online, open access journal bringing to the fore outstanding research in the areas of nutrition and chronic disease, including diabetes, from the molecular to the population level.
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