Department of Internal Medicine, Radboudumc Center for Infectious Diseases, Radboud Institute of Health Science (RIHS), Radboud university medical center, Nijmegen, the Netherlands.
Department of Medical Biochemistry and Molecular Biology, Kilimanjaro Christian Medical University College (KCMUCo), Moshi, Tanzania.
J Thromb Haemost. 2022 May;20(5):1089-1105. doi: 10.1111/jth.15657. Epub 2022 Feb 10.
Geographic variability in coagulation across populations and their determinants are poorly understood.
To compare thrombin (TG) and plasmin (PG) generation parameters between healthy Tanzanian and Dutch individuals, and to study associations with inflammation and different genetic, host and environmental factors.
TG and PG parameters were measured in 313 Tanzanians of African descent living in Tanzania and 392 Dutch of European descent living in the Netherlands and related to results of a dietary questionnaire, circulating inflammatory markers, genotyping, and plasma metabolomics.
Tanzanians exhibited an enhanced TG and PG capacity, compared to Dutch participants. A higher proportion of Tanzanians had a TG value in the upper quartile with a PG value in the lower/middle quartile, suggesting a relative pro-coagulant state. Tanzanians also displayed an increased normalized thrombomodulin sensitivity ratio, suggesting reduced sensitivity to protein C. In Tanzanians, PG parameters (lag time and TTP) were associated with seasonality and food-derived plasma metabolites. The Tanzanians had higher concentrations of pro-inflammatory cytokines, which correlated strongly with TG and PG parameters. There was limited overlap in genetic variation associated with TG and PG parameters between the two cohorts. Pathway analysis of genetic variants in the Tanzanian cohort revealed multiple immune pathways that were enriched with TG and PG traits, confirming the importance of co-regulation between coagulation and inflammation.
Tanzanians have an enhanced TG and PG potential compared to Dutch individuals, which may relate to differences in inflammation, genetics and diet. These observations highlight the importance of better understanding of the geographic variability in coagulation across populations.
人群之间凝血的地理变异性及其决定因素知之甚少。
比较坦桑尼亚和荷兰健康人群之间凝血酶(TG)和纤溶酶(PG)生成参数,并研究其与炎症以及不同遗传、宿主和环境因素的相关性。
对 313 名居住在坦桑尼亚的非洲裔坦桑尼亚人和 392 名居住在荷兰的欧洲裔荷兰人进行 TG 和 PG 参数测量,并与饮食问卷、循环炎症标志物、基因分型和血浆代谢组学结果相关联。
与荷兰参与者相比,坦桑尼亚人表现出增强的 TG 和 PG 能力。与荷兰人相比,坦桑尼亚人中具有 TG 值处于较高四分位数而 PG 值处于较低/中间四分位数的比例更高,这表明存在相对促凝状态。坦桑尼亚人还显示出增加的正常化血栓调节蛋白敏感性比值,表明对蛋白 C 的敏感性降低。在坦桑尼亚人中,PG 参数(延迟时间和 TTP)与季节性和食物衍生的血浆代谢物相关。坦桑尼亚人具有更高浓度的促炎细胞因子,这些细胞因子与 TG 和 PG 参数密切相关。与 TG 和 PG 参数相关的遗传变异在两个队列之间的重叠有限。坦桑尼亚队列中遗传变异的途径分析显示,多个免疫途径与 TG 和 PG 特征相关,这证实了凝血和炎症之间的共同调节的重要性。
与荷兰人相比,坦桑尼亚人具有增强的 TG 和 PG 潜力,这可能与炎症、遗传学和饮食的差异有关。这些观察结果强调了更好地理解人群之间凝血的地理变异性的重要性。
