Genome-Wide Association Study Implicates Atrial Natriuretic Peptide Rather Than B-Type Natriuretic Peptide in the Regulation of Blood Pressure in the General Population.

Circulation: Cardiovascular Genetics Pub Date : 2017-12-01 DOI:10.1161/CIRCGENETICS.117.001713

Perttu P Salo, Aki S Havulinna, Taru Tukiainen, Olli Raitakari, Terho Lehtimäki, Mika Kähönen, Johannes Kettunen, Minna Männikkö, Johan G Eriksson, Antti Jula, Stefan Blankenberg, Tanja Zeller, Veikko Salomaa, Kati Kristiansson, Markus Perola

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引用次数: 21

Abstract

Background: Cardiomyocytes secrete atrial natriuretic peptide (ANP) and B-type natriuretic peptide (BNP) in response to mechanical stretching, making them useful clinical biomarkers of cardiac stress. Both human and animal studies indicate a role for ANP as a regulator of blood pressure with conflicting results for BNP.

Methods and results: We used genome-wide association analysis (n=6296) to study the effects of genetic variants on circulating natriuretic peptide concentrations and compared the impact of natriuretic peptide-associated genetic variants on blood pressure (n=27 059). Eight independent genetic variants in 2 known (NPPA-NPPB and POC1B-GALNT4) and 1 novel locus (PPP3CC) associated with midregional proANP (MR-proANP), BNP, aminoterminal proBNP (NT-proBNP), or BNP:NT-proBNP ratio. The NPPA-NPPB locus containing the adjacent genes encoding ANP and BNP harbored 4 independent cis variants with effects specific to either midregional proANP or BNP and a rare missense single nucleotide polymorphism in NT-proBNP seriously altering its measurement. Variants near the calcineurin catalytic subunit gamma gene PPP3CC and the polypeptide N-acetylgalactosaminyltransferase 4 gene GALNT4 associated with BNP:NT-proBNP ratio but not with BNP or midregional proANP, suggesting effects on the post-translational regulation of proBNP. Out of the 8 individual variants, only those correlated with midregional proANP had a statistically significant albeit weak impact on blood pressure. The combined effect of these 3 single nucleotide polymorphisms also associated with hypertension risk (P=8.2×10^-⁴).

Conclusions: Common genetic differences affecting the circulating concentration of ANP associated with blood pressure, whereas those affecting BNP did not, highlighting the blood pressure-lowering effect of ANP in the general population.

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全基因组关联研究表明心房利钠肽而非B型利钠肽在普通人群血压调节中的作用。

背景：心肌细胞分泌心钠肽（ANP）和B型钠尿肽（BNP）以响应机械拉伸，使其成为心脏应激的有用临床生物标志物。人类和动物研究都表明ANP作为血压调节因子的作用，而BNP的结果相互矛盾。方法和结果：我们使用全基因组关联分析（n=6296）来研究遗传变异对循环钠尿肽浓度的影响，并比较钠尿肽相关遗传变异对血压的影响（n=27 059）。在2个已知基因座（NPPA-NPPB和POC1B-GALNT4）和1个新基因座（PPP3CC）中有8个独立的遗传变异，与中央区proANP（MR-proANP）、BNP、氨基末端proBNP（NT-proBNP）或BNP/NT-proBNP比率相关。包含编码ANP和BNP的相邻基因的NPPA-NPPB基因座携带4个独立的顺式变体，其对中央区前ANP或BNP具有特异性作用，并且NT-proBNP中罕见的错义单核苷酸多态性严重改变了其测量。钙调神经磷酸酶催化亚基γ基因PPP3CC和多肽N-乙酰氨基半乳糖转移酶4基因GALNT4附近的变体与BNP:NT-proBNP比率相关，但与BNP或中央区proANP无关，表明对proBNP的翻译后调节有影响。在8个个体变异中，只有那些与中央区前ANP相关的变异对血压有统计学意义，尽管影响很小。这3个单核苷酸多态性的联合作用也与高血压风险相关（P=8.2×10-4）。结论：影响ANP循环浓度的常见遗传差异与血压相关，而影响BNP的遗传差异则不相关，突出了ANP在普通人群中的降压作用。

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

Circulation: Cardiovascular Genetics CARDIAC & CARDIOVASCULAR SYSTEMS-GENETICS & HEREDITY

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0.00%

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审稿时长

6-12 weeks

期刊介绍： Circulation: Genomic and Precision Medicine considers all types of original research articles, including studies conducted in human subjects, laboratory animals, in vitro, and in silico. Articles may include investigations of: clinical genetics as applied to the diagnosis and management of monogenic or oligogenic cardiovascular disorders; the molecular basis of complex cardiovascular disorders, including genome-wide association studies, exome and genome sequencing-based association studies, coding variant association studies, genetic linkage studies, epigenomics, transcriptomics, proteomics, metabolomics, and metagenomics; integration of electronic health record data or patient-generated data with any of the aforementioned approaches, including phenome-wide association studies, or with environmental or lifestyle factors; pharmacogenomics; regulation of gene expression; gene therapy and therapeutic genomic editing; systems biology approaches to the diagnosis and management of cardiovascular disorders; novel methods to perform any of the aforementioned studies; and novel applications of precision medicine. Above all, we seek studies with relevance to human cardiovascular biology and disease.