TY - JOUR
T1 - HuR uses AUF1 as a cofactor to promote p16INK4 mRNA decay
AU - Chang, Na
AU - Yi, Jie
AU - Guo, Gaier
AU - Liu, Xinwen
AU - Shang, Yongfeng
AU - Tong, Tanjun
AU - Cui, Qinghua
AU - Zhan, Ming
AU - Gorospe, Myriam
AU - Wang, Wengong
PY - 2010/8
Y1 - 2010/8
N2 - In this study, we show that HuR destabilizes p16INK4 mRNA. Although the knockdown of HuR or AUF1 increased p16 expression, concomitant AUF1 and HuR knockdown had a much weaker effect. The knockdown of Ago2, a component of the RNA-induced silencing complex (RISC), stabilized p16 mRNA. The knockdown of HuR diminished the association of the p16 3′ untranslated region (3′UTR) with AUF1 and vice versa. While the knockdown of HuR or AUF1 reduced the association of Ago2 with the p16 3′UTR, Ago2 knockdown had no influence on HuR or AUF1 binding to the p16 3′UTR. The use of EGFP-p16 chimeric reporter transcripts revealed that p16 mRNA decay depended on a stem-loop structure present in the p16 3′UTR, as HuR and AUF1 destabilized EGFP-derived chimeric transcripts bearing wild-type sequences but not transcripts with mutations in the stem-loop structure. In senescent and HuR-silenced IDH4 human diploid fibroblasts, the EGFPp16 3′UTR transcript was more stable. Our results suggest that HuR destabilizes p16 mRNA by recruiting the RISC, an effect that depends on the secondary structure of the p16 3′UTR and requires AUF1 as a cofactor.
AB - In this study, we show that HuR destabilizes p16INK4 mRNA. Although the knockdown of HuR or AUF1 increased p16 expression, concomitant AUF1 and HuR knockdown had a much weaker effect. The knockdown of Ago2, a component of the RNA-induced silencing complex (RISC), stabilized p16 mRNA. The knockdown of HuR diminished the association of the p16 3′ untranslated region (3′UTR) with AUF1 and vice versa. While the knockdown of HuR or AUF1 reduced the association of Ago2 with the p16 3′UTR, Ago2 knockdown had no influence on HuR or AUF1 binding to the p16 3′UTR. The use of EGFP-p16 chimeric reporter transcripts revealed that p16 mRNA decay depended on a stem-loop structure present in the p16 3′UTR, as HuR and AUF1 destabilized EGFP-derived chimeric transcripts bearing wild-type sequences but not transcripts with mutations in the stem-loop structure. In senescent and HuR-silenced IDH4 human diploid fibroblasts, the EGFPp16 3′UTR transcript was more stable. Our results suggest that HuR destabilizes p16 mRNA by recruiting the RISC, an effect that depends on the secondary structure of the p16 3′UTR and requires AUF1 as a cofactor.
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U2 - 10.1128/MCB.00169-10
DO - 10.1128/MCB.00169-10
M3 - Article
C2 - 20498276
AN - SCOPUS:77955302347
SN - 0270-7306
VL - 30
SP - 3875
EP - 3886
JO - Molecular and Cellular Biology
JF - Molecular and Cellular Biology
IS - 15
ER -