Your search keyword '"Cao, Kangning"' showing total 2 results

1. Personal exposure to airborne organic pollutants and lung function changes among healthy older adults.

Author

Guo, Xiaojie, Ren, Huimin, Sun, Peijie, Ding, Enmin, Fang, Jianlong, Fang, Ke, Ma, Xiao, Li, Chenfeng, Li, Chenlong, Xu, Yibo, Cao, Kangning, Lin, Elizabeth.Z., Guo, Pengfei, Pollitt, Krystal.J.Godri, Tong, Shilu, Tang, Song, and Shi, Xiaoming

Subjects

*AIR pollutants, *EPITHELIAL-mesenchymal transition, *VITAL capacity (Respiration), *PHOSPHATIDYLINOSITOL 3-kinases, *PASSIVE sampling devices (Environmental sampling)

Abstract

Epidemiological evidence on the impact of airborne organic pollutants on lung function among the elderly is limited, and their underlying biological mechanisms remain largely unexplored. Herein, a longitudinal panel study was conducted in Jinan, Shandong Province, China, involving 76 healthy older adults monitored over a span of five months repetitively. We systematically evaluated personal exposure to a diverse range of airborne organic pollutants using a wearable passive sampler and their effects on lung function. Participants' pulmonary function indicators were assessed, complemented by comprehensive multi-omics analyses of blood and urine samples. Leveraging the power of interaction analysis, causal inference test (CIT), and integrative pathway analysis (IPA), we explored intricate relationships between specific organic pollutants, biomolecules, and lung function deterioration, elucidating the biological mechanisms underpinning the adverse impacts of these pollutants. We observed that bis (2-chloro-1-methylethyl) ether (BCIE) was significantly associated with negative changes in the forced vital capacity (FVC), with glycerolipids mitigating this adverse effect. Additionally, 31 canonical pathways [e.g., high mobility group box 1 (HMGB1) signaling, phosphatidylinositol 3-kinase (PI3K)/AKT pathway, epithelial mesenchymal transition, and heme and nicotinamide adenine dinucleotide (NAD) biosynthesis] were identified as potential mechanisms. These findings may hold significant implications for developing effective strategies to prevent and mitigate respiratory health risks arising from exposure to such airborne pollutants. However, due to certain limitations of the study, our results should be interpreted with caution. [Display omitted] • Exposure to BCIE was significantly associated with the decline of FVC. • Glycerolipids mitigated the adverse effects of BCIE on FVC. • BCIE might induce a decrease in FVC through disruption of multiple key pathways. [ABSTRACT FROM AUTHOR]

Published

2024

2. Associations of environmental cadmium exposure with kidney damage: Exploring mediating DNA methylation sites in Chinese adults.

Author

Wei, Yuan, Wang, Xiaochen, Sun, Qi, Shi, Wanying, Zhang, Wenli, Gao, Xu, Li, Yawei, Hao, Ruiting, Dong, Xiaojie, Chen, Chen, Cao, Kangning, Jiang, Weilong, Yang, Zhengxiong, Zhu, Ying, Lv, Yuebin, Xv, Dongqun, Li, Juan, and Shi, Xiaoming

Subjects

*DNA methylation, *ENVIRONMENTAL exposure, *KIDNEYS, *ADULTS, *HUMAN body, *METALLOTHIONEIN, *DNA methyltransferases

Abstract

Environmental exposure is widely recognized as the primary sources of Cadmium (Cd) in the human body, and exposure to Cd is associated with kidney damage in adults. Nevertheless, the role of DNA methylation in Cd-induced kidney damage remains unclear. This study aimed to investigate the epigenome-wide association of environmental Cd-related DNA methylation changes with kidney damage. We included 300 non-smoking adults from the China in 2019. DNA methylation profiles were measured with Illumina Infinium MethylationEPIC BeadChip array. Linear mixed-effect model was employed to estimate the effects of urinary Cd with DNA methylation. Differentially methylated positions (DMPs) associated with urinary Cd were then tested for the association with kidney damage indicators. The mediation analysis was further applied to explore the potential DNA methylation based mediators. The prediction model was developed using a logistic regression model, and used 1000 bootstrap resampling for the internal validation. We identified 27 Cd-related DMPs mapped to 20 genes after the adjustment of false-discovery-rate for multiple testing among non-smoking adults. 17 DMPs were found to be associated with both urinary Cd and kidney damage, and 14 of these DMPs were newly identified within the Chinese. Mediation analysis revealed that DNA methylation of cg26907612 and cg16848624 mediated the Cd-related reduced kidney damage. In addition, ten variables were selected using the LASSO regression analysis and were utilized to develop the prediction model. It found that the nomogram model predicted the risk of kidney damage caused by environmental Cd with a corrected C-index of 0.779. Our findings revealed novel DMPs associated with both environmental Cd exposure and kidney damage among non-smoking adults, and developed an easy-to-use nomogram-illustrated model using these novel DMPs. These findings could provide a theoretical basis for formulating prevention and control strategies for kidney damage from the perspective of environmental pollution and epigenetic regulation. [Display omitted] • First study focus on environmental Cd-related DNA methylation with kidney damage. • Identify intervention targets for preventing kidney damage caused by environmental Cd. • Urinary Cd affected kidney damage by mediating the levels of DNA methylation. • Develop prediction models using DMPs to predict the kidney damage risk caused by Cd. [ABSTRACT FROM AUTHOR]

Published

2024