通过孟德尔随机化研究对心血管代谢疾病中血清尿酸水平进行因果评估
Causal Assessment of Serum Urate Levels in Cardiometabolic Diseases Through a Mendelian Randomization Study.
作者信息
Keenan Tanya, Zhao Wei, Rasheed Asif, Ho Weang K, Malik Rainer, Felix Janine F, Young Robin, Shah Nabi, Samuel Maria, Sheikh Nasir, Mucksavage Megan L, Shah Omar, Li Jin, Morley Michael, Laser Annika, Mallick Nadeem Hayat, Zaman Khan Shah, Ishaq Mohammad, Rasheed Syed Zahed, Memon Fazal-Ur-Rehman, Ahmed Faisal, Hanif Bashir, Lakhani Muhammad Shakir, Fahim Muhammad, Ishaq Madiha, Shardha Naresh Kumar, Ahmed Naveeduddin, Mahmood Khalid, Iqbal Waseem, Akhtar Saba, Raheel Rabia, O'Donnell Christopher J, Hengstenberg Christian, März Winifred, Kathiresan Sekar, Samani Nilesh, Goel Anuj, Hopewell Jemma C, Chambers John, Cheng Yu-Ching, Sharma Pankaj, Yang Qiong, Rosand Jonathan, Boncoraglio Giorgio B, Kazmi Shahana Urooj, Hakonarson Hakon, Köttgen Anna, Kalogeropoulos Andreas, Frossard Philippe, Kamal Ayeesha, Dichgans Martin, Cappola Thomas, Reilly Muredach P, Danesh John, Rader Daniel J, Voight Benjamin F, Saleheen Danish
机构信息
Translational Medicine and Human Genetics, Perelman School of Medicine, University of Pennsylvania, Philadelphia, Pennsylvania; Department of Medicine, Massachusetts General Hospital, Boston, Massachusetts.
Translational Medicine and Human Genetics, Perelman School of Medicine, University of Pennsylvania, Philadelphia, Pennsylvania.
出版信息
J Am Coll Cardiol. 2016 Feb 2;67(4):407-416. doi: 10.1016/j.jacc.2015.10.086.
BACKGROUND
Although epidemiological studies have reported positive associations between circulating urate levels and cardiometabolic diseases, causality remains uncertain.
OBJECTIVES
Through a Mendelian randomization approach, we assessed whether serum urate levels are causally relevant in type 2 diabetes mellitus (T2DM), coronary heart disease (CHD), ischemic stroke, and heart failure (HF).
METHODS
This study investigated 28 single nucleotide polymorphisms known to regulate serum urate levels in association with various vascular and nonvascular risk factors to assess pleiotropy. To limit genetic confounding, 14 single nucleotide polymorphisms exclusively associated with serum urate levels were used in a genetic risk score to assess associations with the following cardiometabolic diseases (cases/controls): T2DM (26,488/83,964), CHD (54,501/68,275), ischemic stroke (14,779/67,312), and HF (4,526/18,400). As a positive control, this study also investigated our genetic instrument in 3,151 gout cases and 68,350 controls.
RESULTS
Serum urate levels, increased by 1 SD due to the genetic score, were not associated with T2DM, CHD, ischemic stroke, or HF. These results were in contrast with previous prospective studies that did observe increased risks of these 4 cardiometabolic diseases for an equivalent increase in circulating urate levels. However, a 1 SD increase in serum urate levels due to the genetic score was associated with increased risk of gout (odds ratio: 5.84; 95% confidence interval: 4.56 to 7.49), which was directionally consistent with previous observations.
CONCLUSIONS
Evidence from this study does not support a causal role of circulating serum urate levels in T2DM, CHD, ischemic stroke, or HF. Decreasing serum urate levels may not translate into risk reductions for cardiometabolic conditions.
背景
尽管流行病学研究报告了循环尿酸水平与心血管代谢疾病之间存在正相关,但因果关系仍不确定。
目的
通过孟德尔随机化方法,我们评估了血清尿酸水平在2型糖尿病(T2DM)、冠心病(CHD)、缺血性中风和心力衰竭(HF)中是否具有因果相关性。
方法
本研究调查了28个已知可调节血清尿酸水平的单核苷酸多态性,这些多态性与各种血管和非血管危险因素相关,以评估基因多效性。为限制基因混杂因素,在基因风险评分中使用了14个仅与血清尿酸水平相关的单核苷酸多态性,以评估与以下心血管代谢疾病(病例/对照)的关联:T2DM(26488/83964)、CHD(54501/68275)、缺血性中风(14779/67312)和HF(4526/18400)。作为阳性对照,本研究还在3151例痛风病例和68350例对照中研究了我们的基因工具。
结果
由于基因评分导致血清尿酸水平升高1个标准差,与T2DM、CHD、缺血性中风或HF无关。这些结果与之前的前瞻性研究形成对比,之前的研究确实观察到循环尿酸水平同等升高时,这4种心血管代谢疾病的风险增加。然而,由于基因评分导致血清尿酸水平升高1个标准差与痛风风险增加相关(优势比:5.84;95%置信区间:4.56至7.49),这与之前的观察结果在方向上一致。
结论
本研究的证据不支持循环血清尿酸水平在T2DM、CHD、缺血性中风或HF中具有因果作用。降低血清尿酸水平可能不会转化为心血管代谢疾病风险的降低。
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