Knock-down of long intergenic noncoding RNA cyclooxygenase 2 (lincRNA-COX2) inhibits apoptosis and polarization into M1 in Listeria monocytogenes-infected macrophages / 细胞与分子免疫学杂志
Chinese Journal of Cellular and Molecular Immunology
;
(12): 289-294, 2023.
Article
Dans Chinois
| WPRIM
| ID: wpr-981867
ABSTRACT
Objective To investigate the effect of long intergenic non-coding RNA COX2 (lincRNA-COX2) on apoptosis and polarization of Listeria monocytogenes (Lm)-infected RAW264.7 cells. Methods RAW264.7 cells were cultured and divided into control group (uninfected cells), Lm infection group, negative control of small interfering RNA (si-NC) group, si-NC and Lm infection group, small interfering RNA of lincRNA-COX2 (si-lincRNA-COX2) group, si-lincRNA-COX2 and Lm infection group. RAW264.7 cells were infected with MOI=10 Lm for 6 hours, and then the inhibition efficiency of siRNA transfection was detected by fluorescence microscope and quantitative real-time PCR (qRT-PCR). The expression levels of cleaved-caspase-3(c-caspase-3), caspase-3, B-cell lymphoma-2 (Bcl2), Bcl2 associated X protein (BAX), arginase 1 (Arg1), inducible nitric oxide synthase (iNOS) were detected by Western blot analysis. Results c-caspase-3/caspase-3, BAX/Bcl2 and iNOS were significantly up-regulated, while the level of Arg1 was down-regulated in Lm-infected RAW264.7 cells compared with control group. LincRNA-COX2 knockdown inhibited the increase of protein levels for BAX/Bcl2, c-caspase-3/caspase-3 and iNOS in Lm-infected RAW264.7 cells, while the level of Arg1 in Lm-infected RAW264.7 cells was up-regulated. Conclusion Knockdown of lincRNA-COX2 can inhibit cell apoptosis and suppress the macrophage polarization into M1 type in Lm-infected RAW264.7 cells.
Texte intégral:
Disponible
Indice:
WPRIM (Pacifique occidental)
Sujet Principal:
Apoptose
/
Petit ARN interférent
/
Cyclooxygenase 2
/
Protéine Bax
/
Caspase-3
/
ARN long non codant
/
Listeria monocytogenes
/
Macrophages
Limites du sujet:
Animaux
langue:
Chinois
Texte intégral:
Chinese Journal of Cellular and Molecular Immunology
Année:
2023
Type:
Article
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