Li Huang scite author profile

Growing evidences indicate that inflammation induced by PM2.5 exposure has been considered as a major driving force for the development of cardiovascular diseases. However, the mechanisms underlying PM2.5‐induced cardiac injury remain unclear. This study aims to investigate the role of NLRP3 inflammasome in PM2.5‐induced cardiac functional and pathological injury in mice. In this study, BALB/c mice were intratracheally instilled with PM2.5 suspension (4.0 mg/kg BW) for 5 days to set up a cardiac injury model, which was evaluated by electrocardiogram monitoring, HE and Masson staining. Then, the effects of PM2.5 on the expression of α‐SMA, NLRP3, IL‐1β, and IL‐18 proteins and the activation of caspase‐1 and IL‐1β were investigated. The results showed that PM2.5 exposure induced characteristic abnormal ECG changes such as the abnormality of heart rhythm, tachycardia, and T‐wave reduction. Inflammatory cell infiltration and fibrosis were observed in the heart tissues of PM2.5‐exposed mice. Meanwhile, PM2.5 exposure increased the expression of α‐SMA. And, NLRP3 activation‐associated proteins of NLRP3, IL‐1β, IL‐18, Cleaved caspase‐1 p10, and Cleaved IL‐1β were upregulated in heart tissue of PM2.5‐induced mice. In summary, PM2.5 exposure could induce cardiac functional and pathological injury, which may be associated with the activation of NLRP3 inflammasome.

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NLRP3 deletion inhibits inflammation-driven mouse lung tumorigenesis induced by benzo(a)pyrene and lipopolysaccharide

Huang

Duan

Shao

et al. 2019

Respir Res

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BackgroundInflammatory micro-environment has been proposed to play a critical role in lung tumorigenesis. NLRP3 is known as an intracellular receptor involving inflammation and has been reported which is increasingly associated with tumor development, but the role in inflammation-driven lung cancer has not been fully clarified. In this study, we investigated whether lipopolysaccharide (LPS)-induced pulmonary inflammation could contribute to lung tumorigenesis induced by benzo(a)pyrene [B(a)p] in C57BL/6J mice and the role of NLRP3 in the pathogenesis.MethodsNLRP3−/− mice and C57BL/6J mice (wide-type, WT) were instilled intratracheally with B(a)p (1 mg/mouse) once a week for 4 times [the week of the last time of B(a)p treatment named Week 0], and mice were then instilled intratracheally with LPS at Week 3, 2.5 μg/mouse, once every three weeks for 5 times. At Week 30, the incidence, number, size and histopathology of lung tumor were analyzed.ResultsMice exposed to B(a)p or B(a)p plus LPS could induce lung tumors, whereas LPS or vehicles treatment could not induce lung tumorigenesis. In WT mice, B(a)p plus LPS exposure significantly increased tumor incidence, mean tumor count and tumor size of visible tumors of lungs compared with B(a)p treatment alone, and NLRP3 deletion inhibited lung tumorigenesis induced by B(a)p or B(a)p plus LPS. Histopathological examination found LPS-induced pulmonary inflammatory changes enhanced lung tumorigenesis induced by B(a)p in WT mice, deletion of NLRP3 improved the inflammatory changes induced by LPS and the number and size of pathological tumor nests induced by B(a)p or B(a)p plus LPS. In addition, we found B(a)p treatment and B(a)p plus LPS treatment predominately induced the development of adenoma.ConclusionLPS enhanced B(a)p-induced lung tumorigenesis in WT and NLRP3−/− mice of C57BL/6J strain, and NLRP3 deletion inhibits lung tumorigenesis induced by B(a)p or B(a)p plus LPS.

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The effects of indoor particle exposure on blood pressure and heart rate among young adults: An air filtration-based intervention study

Lin

Chen

et al. 2011

Atmospheric Environment

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Effects of temple particles on inflammation and endothelial cell response

Lin

Lin²,

Chen³

et al. 2012

Science of The Total Environment

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NLRP3 inflammasome activation involved in LPS and coal tar pitch extract‐induced malignant transformation of human bronchial epithelial cells

Duan

Wang

Huang

et al. 2019

Environmental Toxicology

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Inflammatory microenvironment has been found as a new characteristic of cancer; however, the mechanisms of inflammation-related lung cancer remain unclear. To explore the role of NLRP3 inflammsome activation in inflammation-related lung carcinogenesis, a cell model was set up. Human bronchial epithelial cells (BEAS-2B) were stimulated with 1 μg/mL lipopolysaccharide (LPS) for 24 hours, and then treated with 2.4 μg/mL coal tar pitch extract (CTPE) for 24 hours, after removal of LPS and CTPE, the cells were numbered passage 1 and were passaged and treated in this way until passage 30, which was called LPS + CTPE group. DMSO and Saline were used as vehicle controls. Malignant transformation of cells in passage 30 was evaluated by morphological change, platelet clone formation assay, and tumor formation in nude mice. The mRNA levels of NLRP3 and IL-1β were detected by real time-PCR. The combination of NLRP3 and caspase-1 were determined using immunofluorescence and confocal. The protein expression of NLRP3, cleaved caspase-1(p10), and cleaved IL-1β was detected using Western blot. It was shown that CTPE, LPS + CTPEstimulated BEAS-2B cells of passage 30 changed a lot morphologically. The clone formation rates, the rates of positive cells of NLRP3 and caspase-1 combination, the mRNA levels of NLRP3 and IL-1β, the protein expression of NLRP3, cleaved caspase-1(p10) and cleaved IL-1β of cells exposed with CTPE and LPS + CTPE at passage 30 were significantly increased compared to vehicle controls. Furthermore, the ability of tumor formation in nude mice, the rates of clone formation and positive cells, mRNA and protein levels of NLRP3 inflammasome activation-related factors in LPS + CTPE-induced cells were all higher than those in cells stimulated with CTPE alone. In conclusion, the cell model of inflammation-related lung cancer is set up successfully, and NLRP3 inflammasome activation may be involved in the malignant transformation of BEAS-2B cells which induced by CTPE alone or LPS combined with CTPE.

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Glyburide attenuates B(a)p and LPS‐induced inflammation‐related lung tumorigenesis in mice

Liu

Shao

et al. 2021

Environmental Toxicology

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Glyburide (Gly) could inhibit NLRP3 inflammasome, as well as could be treated with Type 2 diabetes as a common medication. Despite more and more studies show that Gly could influence cancer risk and tumor growth, it remains unclear about the effect of Gly in lung tumorigenesis. To evaluate whether Gly inhibited lung tumorigenesis and explore the possible mechanisms, a benzo(a)pyrene [B(a)p] plus lipopolysaccharide (LPS)-induced non-diabetes mice model was established with B(a)p for 4 weeks and once a week (1 mg/mouse), then instilled with LPS for 15 weeks and once every 3 weeks (2.5 μg/ mouse) intratracheally. Subsequently, Gly was administered by gavage (10 μl/g body weight) 1 week before B(a)p were given to the mice until the animal model finished (when Gly was first given named Week 0). At the end of the experiment called Week 34, we analyzed the incidence, number and histopathology of lung tumors, and detected the expression of NLRP3, IL-1β, and Cleaved-IL-1β protein. We found that vehicles and tricaprylin+Gly could not cause lung carcinogenesis in the whole process. While the incidence and mean tumor count of mice in B(a)P/LPS+Gly group were decreased compared with B(a)p/LPS group. Moreover, Gly could alleviate inflammatory changes and reduce pathological tumor nest numbers compared with mice administrated with B(a)p/ LPS in histopathological examination. The B(a)p/LPS increased the expression of NLRP3, IL-1β, and Cleaved-IL-1β protein significantly than Vehicle, whereas decreased in B(a)P/ LPS+Gly (0.96 mg/kg) group compared with B(a)p/LPS group. Results suggested glyburide might inhibit NLRP3 inflammasome to attenuate inflammation-related lung tumorigenesis caused by intratracheal instillation of B(a)p/LPS in non-diabetes mice.

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Is NLRP3 or NLRP6 inflammasome activation associated with inflammation-related lung tumorigenesis induced by benzo(a)pyrene and lipopolysaccharide?

Gao

Zhang

Huang

et al. 2019

Ecotoxicology and Environmental Safety

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Glyburide attenuates ozone‐induced pulmonary inflammation and injury by blocking the NLRP3 inflammasome

Shao

Huang

Duan

et al. 2020

Environmental Toxicology

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Glyburide is a classic antidiabetic drug that is dominant in inflammation regulation, but its specific role in ozone‐induced lung inflammation and injury remains unclear. In order to investigate whether glyburide prevents ozone‐induced pulmonary inflammation and its mechanism, C57BL/6 mice were intratracheally pre‐instilled with glyburide or the vehicle 1 hour before ozone (1 ppm, 3 hours) or filtered air exposure. After 24 hours, the total inflammatory cells and total protein in bronchoalveolar lavage fluid (BALF) were detected. The pathological alternations in lung tissues were evaluated by HE staining. The expression of NLRP3, interleukin‐1β (IL‐1β), and IL‐18 protein in lung tissues was detected by immunohistochemistry. Western blotting was used to examine the levels of caspase‐1 p10 and active IL‐1β protein. Levels of IL‐1β and IL‐18 in BALF were measured using ELISA kits. Glyburide treatment decreased the total cells in BALF, the inflammatory score, and the mean linear intercept induced by ozone in lung tissues. In addition, glyburide inhibited the expression of NLRP3, IL‐18, and IL‐1β protein in lung tissues, and also suppressed NLRP3 inflammasome activation, including caspase‐1 p10, active IL‐1β protein in lung tissues, IL‐1β, and IL‐18 in BALF. These results demonstrate that glyburide effectively attenuates ozone‐induced pulmonary inflammation and injury via blocking the NLRP3 inflammasome.

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Li Huang

NLRP3 inflammasome activation is associated with PM_2.5‐induced cardiac functional and pathological injury in mice

NLRP3 deletion inhibits inflammation-driven mouse lung tumorigenesis induced by benzo(a)pyrene and lipopolysaccharide

The effects of indoor particle exposure on blood pressure and heart rate among young adults: An air filtration-based intervention study

Effects of temple particles on inflammation and endothelial cell response

NLRP3 inflammasome activation involved in LPS and coal tar pitch extract‐induced malignant transformation of human bronchial epithelial cells

Glyburide attenuates B(a)p and LPS‐induced inflammation‐related lung tumorigenesis in mice

Is NLRP3 or NLRP6 inflammasome activation associated with inflammation-related lung tumorigenesis induced by benzo(a)pyrene and lipopolysaccharide?

Glyburide attenuates ozone‐induced pulmonary inflammation and injury by blocking the NLRP3 inflammasome

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Li Huang

NLRP3 inflammasome activation is associated with PM2.5‐induced cardiac functional and pathological injury in mice

NLRP3 deletion inhibits inflammation-driven mouse lung tumorigenesis induced by benzo(a)pyrene and lipopolysaccharide

The effects of indoor particle exposure on blood pressure and heart rate among young adults: An air filtration-based intervention study

Effects of temple particles on inflammation and endothelial cell response

NLRP3 inflammasome activation involved in LPS and coal tar pitch extract‐induced malignant transformation of human bronchial epithelial cells

Glyburide attenuates B(a)p and LPS‐induced inflammation‐related lung tumorigenesis in mice

Is NLRP3 or NLRP6 inflammasome activation associated with inflammation-related lung tumorigenesis induced by benzo(a)pyrene and lipopolysaccharide?

Glyburide attenuates ozone‐induced pulmonary inflammation and injury by blocking the NLRP3 inflammasome

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NLRP3 inflammasome activation is associated with PM_2.5‐induced cardiac functional and pathological injury in mice