与高血压风险相关的基因变异:进展与影响。

IF 3.8 Q1 PERIPHERAL VASCULAR DISEASE
Pulse Pub Date : 2024-01-27 eCollection Date: 2024-01-01 DOI:10.1159/000536505
David Curtis
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引用次数: 0

摘要

背景:以前曾发现过导致以高血压为次要特征的疾病的基因变异。摘要:通过全基因组关联研究(GWAS),高血压与数百个常见基因变异的关联已被报道,涉及数千个基因。单个变异的效应大小较小,累计约占遗传风险的 6%。常见变异信号富集于相关组织和生理过程,而一些变异与预计对高血压风险有次要影响的性状相关,如水果摄入量、体重指数或看电视时间。利用从外显子组序列数据中获得的罕见变异进行的研究发现,少数基因的功能受损会对血压和/或高血压风险产生中等程度的影响。值得注意的是,受钠利尿激素或一氧化氮刺激而损害鸟苷酸环化酶激活要素的基因变异会增加高血压风险。相反,损害多巴胺 beta-羟化酶或肾素生成的变异则与血压降低有关。可以确定有明确影响的变异体累计起来仍然极为罕见,而且对总体遗传风险的影响也很小。尽管这些结果令人感兴趣,但并不清楚它们是否提供了新的见解或确定了以前不知道的药物靶点。基因检测在量化疾病风险或指导治疗方面似乎也没有什么用处:研究增加了我们对自然发生的基因变异与高血压风险之间关系的了解。尽管一些研究结果证实了我们对潜在生理学的理解,但这些结果是否能为高血压的治疗带来实际进展,似乎值得怀疑。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Genetic Variants Associated with Hypertension Risk: Progress and Implications.

Background: Genetic variants causing diseases with hypertension as a secondary feature have previously been identified. Studies focussing on primary hypertension have utilised common and latterly rare genetic variants in attempts to elucidate the genetic contribution to the risk of primary hypertension.

Summary: Using genome-wide association studies (GWASs), associations of hypertension with hundreds of common genetic variants have been reported, implicating thousands of genes. Individual variants have small effect sizes and cumulatively account for around 6% of genetic risk. The common variant signal is enriched for relevant tissues and physiological processes, while some variants are associated with traits expected to have secondary impacts on hypertension risk, such as fruit intake, BMI, or time watching television. Studies using rare variants obtained from exome sequence data have implicated a small number of genes for which impaired function has moderate effects on blood pressure and/or hypertension risk. Notably, genetic variants which impair elements of guanylate cyclase activation, stimulated by either natriuretic hormones or nitric oxide, increase hypertension risk. Conversely, variants impairing dopamine beta-hydroxylase or renin production are associated with lower blood pressure. Variants for which a definite effect can be designated remain cumulatively extremely rare and again make only a small contribution to overall genetic risk. Although these results are of interest, it is not clear that they provide radical new insights or identify drug targets which were not previously known. Nor does it seem that genetic testing could be useful in terms of quantifying disease risk or guiding treatment.

Key messages: Research has increased our knowledge about the relationship between naturally occurring genetic variation and risk of hypertension. Although some results serve to confirm our understanding of underlying physiology, their value in terms of potentially leading to practical advances in the management of hypertension appears questionable.

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