Telomeres are nucleoprotein complex composed of repetitive sequence ”TTAGGG” and shelterin proteins (TRF1/TRF2/POT1/TPP1/TIN2). Telomerase (TERT) extends telomeres through binding its RNA template to G-rich strand of telomeres. Recent studies have shown that telomeres transcribe a long non-coding RNA, TERRA, which carries “UUAGGG” repeats at 3’-end. Our previous study has shown that TERRA interacts with shelterin proteins and regulates telomere integrity (Chu et al., 2017). To investigate how TERRA regulates telomere maintenance, I depleted TERRA using anti-sense oligos in mouse embryonic stem cells (mESCs). By immuno-DNA FISH staining, I observed that the number of TERT foci at telomeres was decreased upon TERRA depletion, implying that TERRA promotes the recruitment of telomerase to telomere ends. In contrast, ChIP-qPCR showed that POT1 and CTC1 occupancy at telomeres were elevated upon TERRA depletion, indicating that TERRA prevents CTC1 and shelterin complex from binding to telomere ends. Combined with the previous study showing that CTC1 terminates telomerase, these data suggest that TERRA may assist telomerase loading to DNA by expelling CTC1 from binding to telomeres. In agreement, the levels of both TERRA and telomerase at telomeres are high in Mid-S phase and low in G2 phase in mESCs. Together, this study provides a mechanism in which TERRA regulates the telomere maintenance by balancing the recruitment of telomerase and telomeric DNA binding proteins to telomeres.