一氧化氮合酶3基因多态性的杂合子会导致高原肺水肿中氮氧化物减少。
Heterozygotes of NOS3 polymorphisms contribute to reduced nitrogen oxides in high-altitude pulmonary edema.
作者信息
Ahsan Aarif, Mohd Ghulam, Norboo Tsering, Baig Masroor A, Pasha M A Qadar
机构信息
Functional Genomics Unit, Institute of Genomics and Integrative Biology, Mall Rd, Delhi-110 007, India.
出版信息
Chest. 2006 Nov;130(5):1511-9. doi: 10.1378/chest.130.5.1511.
STUDY OBJECTIVES
High-altitude pulmonary edema (HAPE), which develops on exertion under hypoxic conditions, aggravates due to endothelial dysfunction. Repeat events of the disorder suggests of genetic susceptibility. Endothelial nitric oxide synthase gene (NOS3), a regulator of vasodilation, has emerged as a strong candidate marker. In the present study, we investigated G894T, 27-base-pair 4b/4a (variable number of tandem repeat), -922A/G, and -786T/C polymorphisms of NOS3, individually or in combination, for an association with HAPE.
DESIGN
A cross-sectional case control study.
SETTINGS
Blood samples of HAPE-resistant lowlanders (HAPE-r) were obtained at sea level, and blood samples of patients with HAPE (HAPE-p) were obtained at Sonam Norboo Memorial Hospital, Leh, at 3,500 m.
PARTICIPANTS
The study groups consisted of 60 HAPE-r inducted two to three times to altitudes > 3,600 m; and 72 HAPE-p, who had HAPE on their first visit to high altitude.
RESULTS
Nitrogen oxides (NOx) at 77.9 +/- 28.6 micromol/L were significantly elevated in HAPE-r as compared to 42.39 +/- 12.93 micromol/L in HAPE-p (p < 0.0001). Genotype distribution of G894T and 4b/4a polymorphisms was significantly different in the two groups (p = 0.001 and 0.009, respectively). Haplotype analysis revealed -922A/G and -786T/C polymorphisms in complete linkage disequilibrium. The wild-type haplotypes G-b (G894T, 4b/4a), G-A (G894T, -922A/G), and G-b-A (G894T, 4b/4a, -922A/G) were significantly overrepresented in HAPE-r (p < 0.0001, p = 0.03, and p = 0.02, respectively). The heterozygote genotype combination GTba as compared to wild-type combination GGbb was significantly higher in HAPE-p (chi2 = 18.62, p = 0.00009; odds ratio, 7.20; 95% confidence interval, 2.82 to 18.38). The combination of four heterozygotes GTbaAGTC was overrepresented in HAPE-p (p = 0.04), whereas the wild-type genotype combination GGbbAATT was overrepresented in HAPE-r (p = 0.002). Furthermore, the GGbb combination correlated with significantly elevated NOx as compared to remaining combinations as a whole in both HAPE-r and HAPE-p (p = 0.01 and 0.004, respectively).
CONCLUSIONS
Reduced NOx and combination of heterozygotes associate with the susceptibility to HAPE. The study impels another step toward application of NOx as a diagnostic marker for HAPE. The NOS3 GTba and GTbaAGTC genotype combinations may find application as genetic markers for predicting the risk for HAPE.
研究目的
高原肺水肿(HAPE)在缺氧条件下运动时发病,因内皮功能障碍而加重。该疾病的反复发生提示存在遗传易感性。内皮型一氧化氮合酶基因(NOS3)作为血管舒张的调节因子,已成为一个强有力的候选标记物。在本研究中,我们单独或联合研究了NOS3基因的G894T、27个碱基对的4b/4a(串联重复可变数目)、-922A/G和-786T/C多态性与HAPE的关联。
设计
一项横断面病例对照研究。
地点
在海平面获取对HAPE有抵抗力的低地居民(HAPE-r)的血样,在海拔3500米的列城索南诺布纪念医院获取HAPE患者(HAPE-p)的血样。
参与者
研究组包括60名两到三次被带到海拔>3600米高度的HAPE-r;以及72名首次前往高海拔地区就发生HAPE的HAPE-p。
结果
HAPE-r组的氮氧化物(NOx)为77.9±28.6微摩尔/升,显著高于HAPE-p组的42.39±12.93微摩尔/升(p<0.0001)。两组中G894T和4b/4a多态性的基因型分布有显著差异(分别为p = 0.001和0.009)。单倍型分析显示-922A/G和-786T/C多态性处于完全连锁不平衡状态。野生型单倍型G-b(G894T,4b/4a)、G-A(G894T,-922A/G)和G-b-A(G894T,4b/4a,-922A/G)在HAPE-r中显著过量存在(分别为p<0.0001、p = 0.03和p = 0.02)。与野生型组合GGbb相比,杂合子基因型组合GTba在HAPE-p中显著更高(χ2 = 18.62,p = 0.00009;比值比,7.20;95%置信区间,2.82至18.38)。四个杂合子的组合GTbaAGTC在HAPE-p中过量存在(p = 0.04),而野生型基因型组合GGbbAATT在HAPE-r中过量存在(p = 0.002)。此外,与HAPE-r和HAPE-p中的其他组合整体相比,GGbb组合与显著升高的NOx相关(分别为p = 0.01和0.004)。
结论
NOx降低和杂合子组合与HAPE易感性相关。该研究朝着将NOx用作HAPE诊断标记物又迈进了一步。NOS3的GTba和GTbaAGTC基因型组合可能作为预测HAPE风险的遗传标记物得到应用。
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