Establishment of cell line with 5-HT2C receptor and enhanced green fluorescent protein labeled nucleus factor of activated T cells 2
- VernacularTitle:5-HT2CR与EGFP-NFAT2共表达细胞株的构建
- Author:
Long-yu WANG
1
;
Yu-lei LI
;
Pei-lan ZHOU
;
Rui-bin SU
Author Information
- Publication Type:Journal Article
- Keywords: 5-HT2CR; nuclear factor of activated T cells 2; nu-clear translocation; high throughout screening; Vabicaserin; 5-HT
- From: Chinese Pharmacological Bulletin 2025;41(7):1391-1396
- CountryChina
- Language:Chinese
- Abstract: Aim To establish the cells co-expressing 5-HT2C re-ceptor(5-HT2C R)and enhanced green fluorescent protein(EG-FP)-tagged nuclear factor of activated T cells 2(NFAT2)in U2OS cells.Methods The 5-HT2CR stably expressed U2OS-EGFP-NFAT2-5-HT2CR cells were screened by hygromycin B af-ter 5-HT2C plasmid was transfected into U2OS-EGFP-NFAT2 cells.The mRNA and protein expression of 5-HT2CR in the se-lected U2OS-EGFP-NFAT2-5-HT2CR cells were detected by RT-qPCR and Western blot.The activation of U2OS-EGFP-NFAT2-5-HT2CR cells was verified by nuclear translocation level assay.The effects of 5-HT,LSD,DOM,DOI,psilocybin(PSI),lisuride(LIS)on the U2OS-EGFP-NFAT2-5-HT2CR cells were detected by the high throughout screening assay.Results Among these cells,No 56 had the highest nuclear translocation function.5-HT2CR mRNA and protein were stably expressed in U2OS-EG-FP-NFAT2-5-HT2CR transfected cell line for 1-15 generations by RT-qPCR and Western blot.Vabicaserin increased the EGFP-NFAT2 nuclear translocation in U2OS-EGFP-NFAT2-5-HT2C R during 1-15 generations.The 5-HT2CR antagonist SB242084 significantly decreased EGFP-NFAT2 nuclear translocation in-duced by Vabicaserin in U2OS-EGFP-NFAT2-5-HT2CR cells.5-HT,LIS,PSI slightly increased the EGFP-NFAT2 nuclear trans-location in U2OS-EGFP-NFAT2-5-HT2C R cells,whereas LSD,DOI,DOM had no effect.Conclusions U2OS-EGFP-NFAT2-5-HT2CR cells co-expressing 5-HT2CR and EGFP-NFAT2 are es-tablished,which can be used for high throughout screening of chemicals and the study on the mechanism of the5-HT2CR.
