Genetic Variance in Heparan Sulfation Is Associated With Salt Sensitivity.

IF 6.9 1区 医学 Q1 PERIPHERAL VASCULAR DISEASE Hypertension Pub Date : 2024-10-01 Epub Date: 2024-09-09 DOI:10.1161/HYPERTENSIONAHA.124.23421
Jetta J Oppelaar, Bart Ferwerda, Mohamed A Romman, Ghazalah N Sahebdin, Aeilko H Zwinderman, Henrike Galenkamp, S Matthijs Boekholdt, Bert-Jan H van den Born, Rik H G Olde Engberink, Liffert Vogt
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Abstract

Background: High heritability of salt sensitivity suggests an essential role for genetics in the relationship between sodium intake and blood pressure (BP). The role of glycosaminoglycan genes, which are crucial for salinity tolerance, remains to be elucidated.

Methods: Interactions between 54 126 variants in 130 glycosaminoglycan genes and daily sodium excretion on BP were explored in 20 420 EPIC-Norfolk (European Prospective Investigation Into Cancer in Norfolk) subjects. The UK Biobank (n=414 132) and the multiethnic HELIUS study (Healthy Life in an Urban Setting; n=2239) were used for validation. Afterward, the urinary glycosaminoglycan composition was studied in HELIUS participants (n=57) stratified by genotype and upon dietary sodium loading in a time-controlled crossover intervention study (n=12).

Results: rs2892799 in NDST3 (heparan sulfate N-deacetylase/N-sulfotransferase 3) showed the strongest interaction with sodium on mean arterial pressure (false discovery rate 0.03), with higher mean arterial pressure for the C allele in high sodium conditions. Also, rs9654628 in HS3ST5 (heparan sulfate-glucosamine 3-sulfotransferase 5) showed an interaction with sodium on systolic BP (false discovery rate 0.03). These interactions were multiethnically validated. Stratifying for the rs2892799 genotype showed higher urinary expression of N-sulfated heparan sulfate epitope D0S0 for the T allele. Conversely, upon dietary sodium loading, urinary D0S0 expression was higher in participants with stable BP after sodium loading, and sodium-induced effects on this epitope were opposite in individuals with and without BP response to sodium.

Conclusions: The C allele of rs2892799 in NDST3 exhibits higher BP in high sodium conditions when compared with low sodium conditions, whereas no differences were detected for the T allele. Concomitantly, both alleles demonstrate distinct expressions of D0S0, which, in turn, correlates with sodium-mediated BP elevation. These findings underscore the potential significance of genetic glycosaminoglycan variation in human BP regulation.

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肝硫化基因变异与盐敏感性有关
背景:盐敏感性的高遗传率表明,遗传在钠摄入量与血压(BP)之间的关系中起着至关重要的作用。糖胺聚糖基因对耐盐性至关重要,其作用仍有待阐明:方法:在 20 420 名 EPIC-Norfolk(诺福克郡欧洲癌症前瞻性调查)受试者中探讨了 130 个糖胺聚糖基因中 54 126 个变异与每日钠排泄量对血压的影响。英国生物库(n=414 132)和多种族 HELIUS 研究(城市环境中的健康生活;n=2239)被用于验证。结果显示:NDST3(硫酸肝素 N-脱乙酰酶/N-磺基转移酶 3)中的 rs2892799 与钠对平均动脉压的交互作用最强(误发现率为 0.03),在高钠条件下,C 等位基因的平均动脉压更高。此外,HS3ST5(硫酸肝素-葡糖胺 3-磺基转移酶 5)中的 rs9654628 也显示出与钠对收缩压的相互作用(误发现率为 0.03)。这些相互作用已通过多种族验证。对 rs2892799 基因型进行分层后发现,T 等位基因尿液中 N-硫酸化硫酸肝素表位 D0S0 的表达量更高。相反,在饮食钠负荷后,钠负荷后血压稳定的参与者尿液中 D0S0 的表达更高,钠对该表位的影响在对钠有血压反应和无血压反应的个体中是相反的:结论:与低钠条件相比,NDST3 中 rs2892799 的 C 等位基因在高钠条件下表现出更高的血压,而 T 等位基因则没有发现差异。同时,两个等位基因都表现出不同的 D0S0 表达,这反过来又与钠介导的血压升高相关。这些发现强调了遗传糖胺聚糖变异在人类血压调节中的潜在意义。
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来源期刊
Hypertension
Hypertension 医学-外周血管病
CiteScore
15.90
自引率
4.80%
发文量
1006
审稿时长
1 months
期刊介绍: Hypertension presents top-tier articles on high blood pressure in each monthly release. These articles delve into basic science, clinical treatment, and prevention of hypertension and associated cardiovascular, metabolic, and renal conditions. Renowned for their lasting significance, these papers contribute to advancing our understanding and management of hypertension-related issues.
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