The Effect of High-Salt Diet on Oxidative Stress Production and Vascular Function in Tff3-/-/C57BL/6N Knockout and Wild Type (C57BL/6N) Mice.

IF 1.8 4区医学 Q3 PERIPHERAL VASCULAR DISEASE

Journal of Vascular Research Pub Date : 2024-07-29 DOI:10.1159/000539614

Nataša Kozina, Ivana Jukić, Zrinka Mihaljević, Anita Matić, Marina Dobrivojević Radmilović, Anja Barić, Ines Drenjančević

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引用次数: 0

Abstract

Introduction: It is well documented that high-salt (HS) diet increases systemic and vascular oxidative stress in various animal models and in humans, leading to impairment of vascular reactivity. The present study examined the interaction of genotype and HS diet intake and the potential effects of oxidative stress - antioxidative system balance on the flow-induced dilation (FID) in pressurized carotid arteries of normotensive Tff3-/-/C57BL/6N knockout mice and their wild-type (WT) controls.

Methods: Male, ten-week-old transgenic Tff3-/-/C57BL/6N (Tff3-/-) knockout mice and WT/C57BL/6N (WT) (parental strain) healthy mice were divided in LS (0.4% NaCl in rodent chow) and HS (4% NaCl in rodent chow fed for 1 week) groups. Additionally, LS and HS groups were treated with 1 mmol/L 4-hydroxy-2,2,6,6-tetramethylpiperidin-1-oxyl (TEMPOL) dissolved in the drinking water. After anesthesia with ketamine chloride (100 mg/kg) and midazolam (5 mg/kg), blood pressure was measured, carotid arteries and aortas were isolated, and blood samples were collected.

Results: FID was decreased in WT_HS mice and restored by superoxide scavenger TEMPOL in vivo. On the other hand, attenuated FID of Tff3-/- mice was not further affected by HS diet or TEMPOL in vivo treatment. Vascular superoxide/reactive oxygen species levels were increased with HS diet in both strains and restored by TEMPOL. HS upregulated glutathione peroxidase 1 (GPx1) gene expression in WT_HS and Tff3-/-_HS mice, while GPx activity was significantly decreased only in WT_HS group. Systemic (serum) markers of oxidative stress (oxLDL and AOPP) and arterial blood pressure were similar among groups.

Conclusion: HS diet increases vascular oxidative stress and impairs vasodilation in WT mice. Tff3 gene deficiency attenuates vasodilation per se, without further effects of HS intake. This can be attributed to vascular upregulation of antioxidative enzyme GPx1 in Tff3-/-/C57BL/6N mice conferring protection from oxidative stress.

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高盐饮食对Tff3-/-/C57BL/6N基因敲除小鼠和野生型（C57BL/6N）小鼠氧化应激产生和血管功能的影响

导言：大量研究表明，在各种动物模型和人体中，高盐（HS）饮食会增加全身和血管氧化应激，从而导致血管反应性受损。本研究探讨了基因型与 HS 饮食摄入量的相互作用，以及氧化应激-抗氧化系统平衡对血压正常的 Tff3-/-/C57BL/6N 基因敲除小鼠及其野生型（WT）对照组加压颈动脉血流诱导扩张（FID）的潜在影响：将10周大的雄性转基因Tff3-/-/C57BL/6N（Tff3-/-）基因敲除小鼠和WT/C57BL/6N（WT）（亲本品系）健康小鼠分为LS组（在啮齿动物饲料中添加0.4%的氯化钠）和HS组（在啮齿动物饲料中添加4%的氯化钠，喂养1周）。此外，LS 组和 HS 组小鼠的饮用水中均溶有 1 mmol/L 4-hydroxy-2,2,6,6-tetramethylpiperidin-1-oxyl (TEMPOL)。用氯胺酮（100 毫克/千克）和咪达唑仑（5 毫克/千克）麻醉后，测量血压，分离颈动脉和主动脉并采集血样：结果：WT_HS小鼠的FID降低，超氧化物清除剂TEMPOL可使其体内FID恢复。另一方面，Tff3-/-小鼠减弱的FID没有受到HS饮食或体内TEMPOL治疗的进一步影响。两个品系的血管超氧化物/活性氧水平在 HS 饮食中均有所增加，而 TEMPOL 则可使其恢复。HS 上调了 WT_HS 和 Tff3-/-_HS 小鼠的谷胱甘肽过氧化物酶 1 (GPx1) 基因表达，而 GPx 活性仅在 WT_HS 组显著下降。各组的全身（血清）氧化应激指标（oxLDL 和 AOPP）和动脉血压相似：结论：HS 饮食会增加 WT 小鼠的血管氧化应激并损害血管舒张。结论：摄入 HS 会增加 WT 小鼠的血管氧化应激并损害血管舒张。这可归因于 Tff3-/-/C57BL/6N 小鼠血管中抗氧化酶 GPx1 的上调，从而保护血管免受氧化应激。

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

Journal of Vascular Research 医学-生理学

CiteScore

3.40

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： The ''Journal of Vascular Research'' publishes original articles and reviews of scientific excellence in vascular and microvascular biology, physiology and pathophysiology. The scope of the journal covers a broad spectrum of vascular and lymphatic research, including vascular structure, vascular function, haemodynamics, mechanics, cell signalling, intercellular communication, growth and differentiation. JVR''s ''Vascular Update'' series regularly presents state-of-the-art reviews on hot topics in vascular biology. Manuscript processing times are, consistent with stringent review, kept as short as possible due to electronic submission. All articles are published online first, ensuring rapid publication. The ''Journal of Vascular Research'' is the official journal of the European Society for Microcirculation. A biennial prize is awarded to the authors of the best paper published in the journal over the previous two years, thus encouraging young scientists working in the exciting field of vascular biology to publish their findings.