1.A study on relationship between interleukin-32 and Klebsiella bacillus pneumonia in rats
Defeng XU ; Dongfeng GUO ; Qingshan YE ; Wenxun LIU ; Qinqin ZHANG ; Lei ZHAO ; Wei DING ; Fanfan CAO
Chinese Journal of Integrated Traditional and Western Medicine in Intensive and Critical Care 2013;(6):357-361
Objective To study the changes in interleukin-32 (IL-32) in rats with Klebsiella bacillus pneumonia and approach its significance. Methods Seventy-two Sprague-Dawley(SD)rats were divide into control group,model group and experimental group by the method of random digits table,then the experimental group was subdivided into 4 hours and 1,3 and 5 days experimental subgroups(each n=6). The rat model of Klebsiella bacillus pneumonia was established by injection of 0.3 mL Klebsiella bacterial suspension into the trachea. Before the establishment of the model in the experimental group,IL-32 inhibitory agent,protease activated receptor-2(PAR2) was injected into the abdominal cavity. After model establishment,at different time points,blood was collected via tail vein to observe the changes in serum levels of IL-32,tumor necrosis factor-α(TNF-α),IL-6 and IL-8 in all the groups. The lungs were removed and stained with hematoxylin-eosin(HE)method to investigate the histopathological changes of the lung tissues under the light microscope. Results Compared to the control group, with the prolongation of time the levels of IL-32,TNF-α,IL-8 and IL-6 were increased gradually in the model group,and reached their peaks at 3 days〔IL-32(ng/L):84.40±28.24 vs. 18.57±3.86,t=5.544,P=0.002;TNF-α(ng/L):79.27±14.64 vs. 17.82±3.86, t=9.994, P=0.000;IL-8(ng/L):55.85±10.90 vs. 16.66±3.76,t=8.544, P=0.000;IL-6(ng/L):56.65±2.57 vs. 28.48±2.11,t=19.693,P=0.000〕;PAR2 could inhibit above indexes significantly,there was statistical difference at 3 days compared with the model group〔IL-32(ng/L):54.13±6.68 vs. 84.40±28.24,t=2.560,P=0.046;TNF-α(ng/L):49.12±3.56 vs. 79.27±14.64,t=4.901,P=0.003;IL-8 (ng/L):22.95±2.52 vs. 55.85±10.90,t=7.204,P=0.000;IL-6(ng/L):36.49±2.63 vs. 56.65±2.57,t=13.443, P=0.000〕. Under the light microscope,the inflammatory changes in the lung tissue in experimental group were milder than those in the model group. Conclusion As a pro-inflammatory cytokine,IL-32 can induce the production of TNF-α,IL-6 and IL-8,and the inhibition of IL-32 production may play a role in suppression of the development of Klebsiella bacillus pneumonia.
2.Preliminary Study on the Effect of Adipocytes on the Biological Behaviors of Lung Adenocarcinoma A549 Cells in Tumor Microenvironment.
Hang ZHANG ; Jingjing LI ; Yanan CAO ; Xiang DONG ; Cong GAO ; Fanfan LI
Chinese Journal of Lung Cancer 2018;21(5):351-357
BACKGROUND:
Adipocytes in the tumor microenvironment may provide the metabolic fuel or signal transduction through media and other means to promote a variety of malignant proliferation and invasion, of tumor cells, but their role in lung cancer progression is still unclear. The purpose of this study was to investigate the effect of adipocytes on lung cancer cell biology.
METHODS:
3T3-L1 pre-adipocytes were induced into mature adipocytes. The cell morphology was observed by microscopy and Oil Red O staining. MTT assay, colony formation assay, wound-healing and Transwell methods were used to detect lung cancer cell proliferation, migration and invasion ability. The content of triglyceride in cells was determined by colorimetry.
RESULTS:
The morphology of lung adenocarcinoma A549 cells became more slender after co-culture with mature adipocytes, and the proliferation and cloning ability were significantly enhanced (P<0.05). In addition, mature adipocytes can also promote the migration ability (P<0.05), invasion ability (P<0.01) and accumulation of intracellular lipid (P<0.05) of A549 cells.
CONCLUSIONS
These findings suggested that adipocytes in tumor microenvironment can promote the proliferation, migration and invasion of lung adenocarcinoma A549 cells, which may be related to lipid metabolism.
A549 Cells
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Adenocarcinoma
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metabolism
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pathology
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physiopathology
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Adenocarcinoma of Lung
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Adipocytes
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cytology
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metabolism
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Animals
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Cell Movement
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Cell Proliferation
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Humans
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Lung Neoplasms
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metabolism
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pathology
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physiopathology
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Mice
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NIH 3T3 Cells
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Triglycerides
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metabolism
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Tumor Microenvironment