Chronic diesel exhaust exposure induced pulmonary vascular remodeling a potential trajectory for traffic related pulmonary hypertension

Author:

Mu Chaohui1,Li Qinghai2,Niu Yong2,Hu Ting1,Li Yanting1,wang Tao3,Yu Xinjuan3,Lv Yiqiao4,Tang Huiling4,Jiang Jing3,Xu Haibin3,Zheng Yuxin1,Han Wei1

Affiliation:

1. Qingdao University

2. National Institute of Occupational Health and Posing Control,China CDC,Beijing, 100050,

3. University of Rehabilitation and Health Sciences

4. Dalian Medical University

Abstract

Abstract

Background As one of the most common traffic-related pollutants, diesel exhaust (DE) confers high risk for cardiovascular and respiratory diseases. However, its impact on pulmonary vessels is still unclear. Methods To explore the effects of DE exposure on pulmonary vascular remodeling, our study analyzed the number and volume of small pulmonary vessels in the diesel engine testers (the DET group) from Luoyang Diesel Engine Factory and the controls (the non-DET group) from the local water company, using spirometry and carbon content in airway macrophage (CCAM) in sputum. And then we constructed a rat model of chronic DE exposure, in which 12 rats were divided into the DE group (6 rats with 16-week DE exposure) and the control group (6 rats with 16-week clean air exposure). During right heart catheterization, right ventricular systolic pressure (RVSP) was assessed by manometry. Macrophage migration inhibitory factor (MIF) in lung tissues and bronchoalveolar lavage fluid (BALF) were measured by qRT-PCR and ELISA, respectively. Histopathological analysis for cardiovascular remodeling was also performed. Results In DET cohort, the number and volume of small pulmonary vessels in CT were positively correlated with CCAM in sputum (P<0.05). Rat model revealed that chronic DE-exposed rats had elevated RVSP, along with increased wall thickness of pulmonary small vessels and right the ventricle. What’s more, the MIF levels in BALF and lung tissues were higher in DE-exposed rats than the controls. Conclusion Apart from airway remodeling, DE also induces pulmonary vascular remodeling, which will lead to cardiopulmonary dysfunction.

Publisher

Research Square Platform LLC

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