职业危害因素与IL-1β基因多态性对电解铝工人认知功能的影响

IF 2.8 3区生物学 Q2 GENETICS & HEREDITY

Frontiers in Genetics Pub Date : 2025-06-25 eCollection Date: 2025-01-01 DOI:10.3389/fgene.2025.1591908

Youxing Li, Yaqin Pang, Dongshun Chen, Feiyu Lu, Hongyan Tian, Fengni Qin, Kuntao Wei, Ahmad Razali Bin Ishak, Mohd Shukri Bin Mohd Aris, Guangzi Qi

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引用次数: 0

摘要

背景：电解铝环境中的各种职业危害与认知能力下降有关。然而，这些危害和遗传因素对认知功能的相互影响尚不清楚。目的：本研究旨在确定主要的职业危害，并研究其与认知功能相关的IL-1β基因多态性的相互作用。方法：采用横断面研究方法，于2024年6月在中国某电解铝公司对478名男性工人进行调查。认知功能采用蒙特利尔认知评估法进行评估。计算铝尘等有害因素的累积暴露剂量。分析IL-1β基因多态性（rs1143627、rs1143643、rs16944、rs3917356）和血清蛋白水平。使用多元逐步线性回归、限制三次样条、广义线性模型和层次分析来检验环境暴露、遗传因素和认知功能之间的关系。采用协方差分析和独立样本t检验评估外周血IL-1β水平的潜在介导作用。结果：累积接触铝尘与认知能力下降显著相关（β = -0.18, 95% CI: 0.27, -0.10），且呈线性关系。与野生基因型相比，携带rs1143627 G/G、rs1143643 C/C和rs16944 A/A的个体认知得分显著降低（P < 0.01），而携带rs3917356 C/T和T/T的个体具有保护作用（P < 0.01）。该模型根据年龄、体重指数和累积铝尘暴露进行了调整。与IL-1β相关的遗传效应在高铝暴露个体中更为明显（>2.37 mg/m3 ×年）。血清IL-1β蛋白水平与认知功能无显著相关性（P < 0.05）。结论：累积接触铝尘是认知能力下降的关键危险因素。IL-1β多态性影响易感性，在高铝暴露下影响更为明显。然而，外周血IL-1β水平并不介导这种与认知能力下降的关联。

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Association of the interaction between occupational hazard factors and IL-1β gene polymorphism with cognitive function in electrolytic aluminum workers.

Background: Various occupational hazards in the electrolytic aluminum environment have been linked to cognitive decline. However, the interactive effects of these hazards and genetic factors on cognitive function remain unclear.

Objective: This study aimed to identify the primary occupational hazards, examine their interaction with IL-1β gene polymorphisms in relation to cognitive function.

Methods: A cross-sectional study was conducted in June 2024 at an electrolytic aluminum company in China, involving 478 male workers. Cognitive function was assessed using the Montreal Cognitive Assessment. Calculate the cumulative exposure dose of harmful factors such as aluminum dust. Additionally, IL-1β gene polymorphisms (rs1143627, rs1143643, rs16944, rs3917356) and serum protein levels were analyzed. The associations between environmental exposure, genetic factors, and cognitive function were examined using multivariate stepwise linear regression, restricted cubic splines, generalized linear models, and hierarchical analysis. Covariance analysis and independent sample t-tests were employed to assess the potential mediating effect of peripheral blood IL-1β levels.

Results: Cumulative exposure to aluminum dust was significantly associated with cognitive decline (β = -0.18, 95% CI: 0.27, -0.10), and the relationship was linear. Compared to the wild genotype, individuals carrying rs1143627 G/G, rs1143643 C/C, and rs16944 A/A exhibited significantly lower cognitive scores (P < 0.01), whereas rs3917356 C/T and T/T conferred a protective effect (P < 0.01). The model was adjusted for age, body mass index, and cumulative aluminum dust exposure. The genetic effect associated with IL-1β was more pronounced in individuals with high aluminum exposure (>2.37 mg/m³ × year). IL-1β serum protein levels showed no significant association with cognitive function (P > 0.05).

Conclusion: Cumulative exposure to aluminum dust is a key risk factor for cognitive decline. IL-1β polymorphisms influence susceptibility, with the effect becoming more pronounced under high aluminum exposure. However, peripheral blood IL-1β levels do not mediate this association with cognitive decline.

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来源期刊

Frontiers in Genetics Biochemistry, Genetics and Molecular Biology-Molecular Medicine

CiteScore

5.50

自引率

8.10%

发文量

3491

审稿时长

14 weeks

期刊介绍： Frontiers in Genetics publishes rigorously peer-reviewed research on genes and genomes relating to all the domains of life, from humans to plants to livestock and other model organisms. Led by an outstanding Editorial Board of the world’s leading experts, this multidisciplinary, open-access journal is at the forefront of communicating cutting-edge research to researchers, academics, clinicians, policy makers and the public. The study of inheritance and the impact of the genome on various biological processes is well documented. However, the majority of discoveries are still to come. A new era is seeing major developments in the function and variability of the genome, the use of genetic and genomic tools and the analysis of the genetic basis of various biological phenomena.