Oztosun Berrak, Baskan Azer Kilic, Kalayci Aysel, Ozceker Deniz, Seven Mehmet, Cokugras Haluk, Sakalli Ayse Ayzit Kilinc
Department of Pediatric Pulmonology, Cerrahpasa Medical Faculty, Istanbul, Turkey.
Department of Medical Genetics, Cerrahpasa Medical Faculty, Istanbul University-Cerrahpasa, Istanbul, Turkey.
J Asthma. 2025 Aug 7:1-10. doi: 10.1080/02770903.2025.2539802.
Asthma is a multifactorial disease affecting approximately 300 million people worldwide. Multiple genes, environmental risk factors, and their interactions have been associated with asthma. Smoking triggers an IL-17-mediated inflammatory response. The IL-17-related inflammatory response may differ between individuals, and this difference is associated with IL-17 polymorphisms.
Our aim was to investigate the effect of IL-17 polymorphism and its interaction with secondhand smoke on pediatric asthma.
The study comprised 100 pediatric asthma patients and 100 healthy children. Cotinine levels were analyzed to show SHS exposure (SHSe). A genetic study was conducted to reveal IL-17F(rs763780) and IL-17A (rs8193036, rs2275913) polymorphisms. The study participants were categorized into four groups based on the cotinine results: asthma with SHSe, asthma without SHSe, control with SHSe, and control without SHSe.
The median cotinine concentration was 11.06 ng/ml. Children with asthma had lower cotinine levels than healthy children ( < 0.001). Genotype distributions and allele frequencies of rs763780, rs8193036, and rs2275913 were compared among the four groups, and no significant differences were found.
This study is the first to demonstrate the relationship between IL-17 polymorphisms and SHS interaction in childhood asthma. Neither the presence of IL-17 polymorphisms nor the interaction of these polymorphisms with SHS was found to be associated. The lower cotinine levels in asthmatic children suggest that parents are more susceptible to SHSe. Cotinine levels in our cohort were significantly greater than those found in developed countries. This demonstrates that exposure to SHS is still a serious environmental issue in our country.
哮喘是一种多因素疾病,全球约有3亿人受其影响。多种基因、环境风险因素及其相互作用与哮喘有关。吸烟会引发白细胞介素-17(IL-17)介导的炎症反应。IL-17相关的炎症反应在个体之间可能存在差异,这种差异与IL-17基因多态性有关。
我们的目的是研究IL-17基因多态性及其与二手烟的相互作用对儿童哮喘的影响。
该研究包括100名儿童哮喘患者和100名健康儿童。分析可替宁水平以显示二手烟暴露(SHSe)情况。进行基因研究以揭示IL-17F(rs763780)和IL-17A(rs8193036、rs2275913)基因多态性。根据可替宁结果将研究参与者分为四组:有二手烟暴露的哮喘组、无二手烟暴露的哮喘组、有二手烟暴露的对照组和无二手烟暴露的对照组。
可替宁浓度中位数为11.06 ng/ml。哮喘儿童的可替宁水平低于健康儿童(<0.001)。比较四组中rs763780、rs8193036和rs2275913的基因型分布和等位基因频率,未发现显著差异。
本研究首次证明了IL-17基因多态性与儿童哮喘中二手烟相互作用之间的关系。未发现IL-17基因多态性的存在及其与二手烟的相互作用之间存在关联。哮喘儿童较低的可替宁水平表明父母更容易受到二手烟暴露的影响。我们队列中的可替宁水平显著高于发达国家。这表明在我国,二手烟暴露仍然是一个严重的环境问题。
