Abstract
Telomeric and subtelomeric regions of human chromosomes largely consist of highly repetitive and redundant DNA sequences, resulting in a paucity of unique DNA sequences specific to individual telomeres. Accordingly, it is difficult to analyze telomere metabolism on a single-telomere basis. To circumvent this problem, we have exploited a human artificial chromosome (HAC#21) derived from human chromosome 21 (hChr21). HAC#21 was generated through truncation of the long arm of native hChr21 by the targeted telomere seeding technique. The newly established telomere of HAC#21 lacks canonical subtelomere structures but possesses unique sequences derived from the target vector backbone and the internal region of hChr21 used for telomere targeting, which enabled us to molecularly characterize the single HAC telomere. We established HeLa and NIH-3T3 sub-lines containing a single copy of HAC#21, where it was robustly maintained. The seeded telomere is associated with telomeric proteins over a length similar to that reported in native telomeres, and is faithfully replicated in mid-S phase in HeLa cells. We found that the seeded telomere on HAC#21 is transcribed from the newly juxtaposed site. The transcript, HAC-telRNA, shares several features with TERRA (telomeric repeat-containing RNA): it is a short-lived RNA polymerase II transcript, rarely contains a poly(A) tail, and associates with chromatin. Interestingly, HAC-telRNA undergoes splicing. These results suggest that transcription into TERRA is locally influenced by the subtelomeric context. Taken together, we have established human and mouse cell lines that will be useful for analyzing the behavior of a uniquely identifiable, functional telomere.
Highlights
The telomere nucleoprotein complex protects linear chromosomal ends from degradation and fusion in eukaryotes
These results indicate that the telomere-proximal region of the seeded telomere of human artificial chromosome (HAC)#21, which is devoid of any endogenous human chromosome 21 (hChr21) subtelomere DNA sequence, synchronously replicates at mid-S phase in HAC#21-HeLa cells
We found that levels of HAC-telRNA, as well as of telomeric repeat-containing RNA (TERRA) derived from chromosome Xp-Yp, were dramatically decreased by a 2-hour treatment with a-amanitin, suggesting that HAC-telRNA is produced by polymerase II (Pol II)
Summary
The telomere nucleoprotein complex protects linear chromosomal ends from degradation and fusion in eukaryotes. Telomere repeats recruit a six-protein complex called shelterin, consisting of TRF1, TRF2, Rap, TIN2, TPP1, and POT1 [1]. Shelterin plays a pivotal role in maintaining telomere integrity. It prevents telomeres from eliciting a DNA damage response and activating DNA repair that would otherwise lead to mitotically catastrophic end-to-end fusions [2,3]. It is supposed that telomeres dynamically change their structure and function during the cell cycle, differentiation, and ageing. From this perspective, it is important to understand when and how telomeres are replicated in S phase
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