期刊
JOURNAL OF CELLULAR AND MOLECULAR MEDICINE
卷 14, 期 6, 页码 1347-1357出版社
WILEY
DOI: 10.1111/j.1582-4934.2009.00966.x
关键词
PPAR gamma ligands; h-TERT; telomerase activity; rosiglitazone; 15-deoxy-prostaglandin J2; CaCo-2 cells; Myc; Mad; Max network; Sp1; GW9662
资金
- Regione Piemonte [2006]
- Universita degli Studi di Torino
In human cells the length of telomeres depends on telomerase activity. This activity and the expression of the catalytic subunit of human telomerase reverse transcriptase (hTERT) is strongly up-regulated in most human cancers. hTERT expression is regulated by different transcription factors, such as c-Myc, Mad1 and Sp1. In this study, we demonstrated that 15d-PG J2 and rosiglitazone (an endogenous and synthetic peroxisome proliferators activated receptor gamma (PPAR gamma) ligand, respectively) inhibited hTERT expression and telomerase activity in CaCo-2 colon cancer cells. Moreover, both ligands inhibited c-Myc protein expression and its E-box DNA binding activity. Additionally, Mad1 protein expression and its E-box DNA binding activity were strongly increased by 15d-PG J2 and, to a lesser extent, by rosiglitazone. Sp1 transcription factor expression and its GC-box DNA binding activity were not affected by both PPAR gamma ligands. Results obtained by transient transfection of CaCo-2 cells with pmaxFP-Green-PRL plasmid constructs containing the functional hTERT core promoter (including one E-box and five GC-boxes) and its E-box deleted sequences, cloned upstream of the green fluorescent protein reporter gene, demonstrated that 15d-PG J2, and with minor effectiveness, rosiglitazone, strongly reduced hTERT core promoter activity. E-boxes for Myc/Mad/Max binding showed a higher activity than GC-boxes for Sp1. By using GW9662, an antagonist of PPAR gamma, we demonstrated that the effects of 15d-PG J2 are completely PPAR gamma independent, whereas the effects of rosiglitazone on hTERT expression seem to be partially PPAR gamma independent. The regulation of hTERT expression by 15d-PG J2 and rosiglitazone, through the modulation of the Myc/Max/Mad1 network, may represent a new mechanism of action of these substances in inhibiting cell proliferation.
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