High salt diet accelerates skin aging in wistar rats: an 8-week investigation of cell cycle inhibitors, SASP markers, and oxidative stress.

IF 4.3 3区工程技术 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Frontiers in Bioengineering and Biotechnology Pub Date : 2024-10-11 eCollection Date: 2024-01-01 DOI:10.3389/fbioe.2024.1450626

Xile Peng, Nannan Liu, Baihan Zeng, Yilin Bai, Yang Xu, Yixiao Chen, Li Chen, Lina Xia

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引用次数: 0

Abstract

Background: Recent studies have shown that the high salt diet (HSD) is linked to increased dermal pro-inflammatory status and reduced extracellular matrix (ECM) expression in inflamed skin of mice. Decreased ECM content is a known aging phenotype of the skin, and alterations in ECM composition and organization significantly contribute to skin aging. This study aimed to determine whether a high salt diet accelerates skin aging and to identify the time point at which this effect becomes apparent.

Methods: Wistar rats were randomly divided into normal diet and high salt diet groups and fed continuously for 8 weeks. Skin samples were collected at weeks 7 and week 8. Skin pathological sections were evaluated and levels of cell cycle inhibitors, senescence-associated secretory phenotype (SASP), oxidative stress and vascular regulatory factors (VRFs) were examined. Correlation analyses were performed to reveal the effect of a high salt diet as an extrinsic factor on skin aging and to analyse the correlation between a high salt diet and intrinsic aging and blood flow status.

Results: At week 8, HSD rats exhibited thickened epidermis, thinned dermis, and atrophied hair follicles. The expression of cell cycle inhibitors and oxidative stress levels were significantly elevated in the skin of HSD rats at both week 7 and week 8. At week 7, some SASPs, including TGF-β and PAI-1, were elevated, but others (IL-1, IL-6, IL-8, NO) were not significantly changed. By week 8, inflammatory molecules (IL-1, IL-6, TGF-β), chemokines (IL-8), proteases (PAI-1), and non-protein molecules (NO) were significantly increased. Notably, despite elevated PAI-1 levels suggesting possible blood hypercoagulation, the ET-1/NO ratio was reduced in the HSD group at week 8.

Conclusion: The data suggest that a high salt diet causes skin aging by week 8. The effect of a high salt diet on skin aging is related to the level of oxidative stress and the expression of cell cycle inhibitors. Additionally, a potential protective mechanism may be at play, as evidenced by the reduced ET-1/NO ratio, which could help counteract the hypercoagulable state and support nutrient delivery to aging skin.

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高盐饮食加速黑线大鼠皮肤老化：对细胞周期抑制剂、SASP 标记和氧化应激进行为期 8 周的调查。

背景：最近的研究表明，高盐饮食（HSD）与小鼠发炎皮肤的真皮促炎状态增加和细胞外基质（ECM）表达减少有关。ECM 含量的减少是一种已知的皮肤老化表型，ECM 成分和组织的改变在很大程度上导致了皮肤老化。本研究旨在确定高盐饮食是否会加速皮肤衰老，并确定这种影响显现的时间点：方法：将 Wistar 大鼠随机分为正常饮食组和高盐饮食组，连续喂食 8 周。在第 7 周和第 8 周收集皮肤样本。对皮肤病理切片进行评估，并检查细胞周期抑制剂、衰老相关分泌表型（SASP）、氧化应激和血管调节因子（VRFs）的水平。进行了相关性分析，以揭示高盐饮食作为外在因素对皮肤衰老的影响，并分析高盐饮食与内在衰老和血流状态之间的相关性：结果：第8周时，HSD大鼠表皮增厚，真皮变薄，毛囊萎缩。在第 7 周和第 8 周，HSD 大鼠皮肤中细胞周期抑制剂的表达和氧化应激水平均显著升高。第 7 周时，一些 SASPs（包括 TGF-β 和 PAI-1）升高，但其他 SASPs（IL-1、IL-6、IL-8、NO）变化不大。到第 8 周时，炎症分子（IL-1、IL-6、TGF-β）、趋化因子（IL-8）、蛋白酶（PAI-1）和非蛋白分子（NO）均显著增加。值得注意的是，尽管 PAI-1 水平升高表明可能存在血液高凝现象，但 HSD 组的 ET-1/NO 比率在第 8 周时有所降低：数据表明，高盐饮食会导致第 8 周时皮肤老化。高盐饮食对皮肤老化的影响与氧化应激水平和细胞周期抑制剂的表达有关。此外，ET-1/NO 比值的降低也可能是一种潜在的保护机制在起作用，这有助于抵消高凝血状态，支持向老化皮肤输送营养物质。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Frontiers in Bioengineering and Biotechnology Chemical Engineering-Bioengineering

CiteScore

8.30

自引率

5.30%

发文量

2270

审稿时长

12 weeks

期刊介绍： The translation of new discoveries in medicine to clinical routine has never been easy. During the second half of the last century, thanks to the progress in chemistry, biochemistry and pharmacology, we have seen the development and the application of a large number of drugs and devices aimed at the treatment of symptoms, blocking unwanted pathways and, in the case of infectious diseases, fighting the micro-organisms responsible. However, we are facing, today, a dramatic change in the therapeutic approach to pathologies and diseases. Indeed, the challenge of the present and the next decade is to fully restore the physiological status of the diseased organism and to completely regenerate tissue and organs when they are so seriously affected that treatments cannot be limited to the repression of symptoms or to the repair of damage. This is being made possible thanks to the major developments made in basic cell and molecular biology, including stem cell science, growth factor delivery, gene isolation and transfection, the advances in bioengineering and nanotechnology, including development of new biomaterials, biofabrication technologies and use of bioreactors, and the big improvements in diagnostic tools and imaging of cells, tissues and organs. In today`s world, an enhancement of communication between multidisciplinary experts, together with the promotion of joint projects and close collaborations among scientists, engineers, industry people, regulatory agencies and physicians are absolute requirements for the success of any attempt to develop and clinically apply a new biological therapy or an innovative device involving the collective use of biomaterials, cells and/or bioactive molecules. “Frontiers in Bioengineering and Biotechnology” aspires to be a forum for all people involved in the process by bridging the gap too often existing between a discovery in the basic sciences and its clinical application.