Abstract
BackgroundTelomere maintenance is an important factor in tumorigenesis. PinX1 is a potent telomerase regulator which also involves in telomerase loading to telomeres. Nucleophosmin (NPM) can partially attenuate PinX1 inhibition of telomerase activity and NPM loading to hTERT requires PinX1. However, the role of the PinX1/NPM interaction in telomerase activity is not fully understood.MethodThe long-term effects of PinX1 and NPM down-regulation on telomere length were investigated by TRF assay. The localization of the PinX1/NPM association and the NPM/PinX1/hTERT complex formation were examined by immunofluorescence studies.ResultsConcurrent long-term down-regulation of PinX1 and NPM led to a substantial decrease in telomere length. The interaction with PinX1 was crucial in NPM localization in the nucleolus during the S phase. PinX1 and NPM associated throughout S phase and the NPM/PinX1/hTERT complex formation peaked during the early-S phase. The PinX1/NPM interaction was shown to localize away from Cajal Bodies at the start of S phase.ConclusionPinX1/NPM interaction is important in telomerase regulation during catalysis. NPM is recruited to hTERT by PinX1 and is required in the proposed telomerase modulating unit to activate telomerase when telomere extension occurs during S phase.
Highlights
Human telomerase only has a low to undetectable level of activity in normal somatic cells, but is highly active in more than 85% of cancers [1, 2]
PinX1 and NPM associ‐ ated throughout S phase and the NPM/PinX1/telomerase reverse tran‐ scriptase (hTERT) complex formation peaked during the early-S phase
PinX1/NPM interaction is important in telomerase regulation during catalysis
Summary
Human telomerase only has a low to undetectable level of activity in normal somatic cells, but is highly active in more than 85% of cancers [1, 2]. PIN2/TRF1-interacting telomerase inhibitor (PinX1) is a telomerase inhibitor that binds to hTERT and hTR [6, 7]. The overexpression of PinX1 would decrease telomerase activity, shortening telomeres, and lower cancer cell tumorigenicity [6, 8]. PinX1 is not solely a negative regulator of telomerase. The silencing of PinX1 would disrupt the association between telomeres and telomerase [9]. Silencing PinX1 expression led to a substantial telomere length shortening and growth inhibition in telomerase-positive human cancer cells [10]. PinX1 is a potent telomerase regulator which involves in telomerase loading to telomeres. Nucleophosmin (NPM) can partially attenuate PinX1 inhibi‐ tion of telomerase activity and NPM loading to hTERT requires PinX1. The role of the PinX1/NPM interaction in telomerase activity is not fully understood
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