2017
DOI: 10.15252/embj.201796889
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BLM and SLX4 play opposing roles in recombination‐dependent replication at human telomeres

Abstract: Alternative lengthening of telomeres (ALT) is a telomere lengthening pathway that predominates in aggressive tumors of mesenchymal origin; however, the underlying mechanism of telomere synthesis is not fully understood. Here, we show that the BLM-TOP3A-RMI (BTR) dissolvase complex is required for ALT-mediated telomere synthesis. We propose that recombination intermediates formed during strand invasion are processed by the BTR complex, initiating rapid and extensive POLD3-dependent telomere synthesis followed b… Show more

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Cited by 133 publications
(174 citation statements)
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“…Recent studies have outlined distinct differences in telomere replication between telomerase-positive and ALT cancer cells (Dilley et al, 2016, Sobinoff et al, 2017. For example, ALT cells synthesize telomeres in promyelocytic leukemia (PML) bodies and accumulate high levels of t-and C-circle DNA, unlike telomerase-positive cells (Dilley et al, 2016, Sobinoff et al, 2017. In agreement, we detected very low levels of t-or C-circle DNAs in HCT116 ST cells ( Figure 6D,F; Figure S6A,B).…”
Section: Mcm10 Deficiency Limits Telomerase-dependent Telomere Lengthsupporting
confidence: 84%
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“…Recent studies have outlined distinct differences in telomere replication between telomerase-positive and ALT cancer cells (Dilley et al, 2016, Sobinoff et al, 2017. For example, ALT cells synthesize telomeres in promyelocytic leukemia (PML) bodies and accumulate high levels of t-and C-circle DNA, unlike telomerase-positive cells (Dilley et al, 2016, Sobinoff et al, 2017. In agreement, we detected very low levels of t-or C-circle DNAs in HCT116 ST cells ( Figure 6D,F; Figure S6A,B).…”
Section: Mcm10 Deficiency Limits Telomerase-dependent Telomere Lengthsupporting
confidence: 84%
“…However, a role for Mcm10 in ALT telomere maintenance has not been investigated. Recent studies have outlined distinct differences in telomere replication between telomerase-positive and ALT cancer cells (Dilley et al, 2016, Sobinoff et al, 2017. For example, ALT cells synthesize telomeres in promyelocytic leukemia (PML) bodies and accumulate high levels of t-and C-circle DNA, unlike telomerase-positive cells (Dilley et al, 2016, Sobinoff et al, 2017.…”
Section: Mcm10 Deficiency Limits Telomerase-dependent Telomere Lengthmentioning
confidence: 99%
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“…Our focus centered on components of the BTR complex, which was seen to be mislocalized from telomeres in PML-null cells (Fig. 1C) and has been implicated in ALT-associated phenotypes (O'Sullivan et al 2014;Sobinoff et al ;Lu et al 2019;Min et al 2019;. In order to test whether loss of the BTR complex would affect ALT activity, we generated U2OS cells deficient in either BLM helicase or RMI1, which is critical for the recruitment of BLM and the rest of the BTR complex to DNA (Xu et al 2008).…”
Section: The Btr Complex Is Required For C-circle Formation and Alt-mmentioning
confidence: 99%
“…BLM is part of the BTR complex which also includes the topoisomerase TOP3a, and the OB-fold containing structural components RMI1 and RMI2 (Johnson et al 2000;Wu et al 2000;Yin et al 2005;Xu et al 2008). Interestingly, overexpression of BLM or dysregulation of the BTR complex induced by the loss of FANCM in ALT-positive cells has been shown to induce upregulation of ALT-associated phenotypes, suggesting that this factor is limiting for the ALTpathway and led to the proposal that the BTR complex acts in ALT to dissolve recombination intermediates into non-crossover products which results in telomere lengthening (Sobinoff et al 2017;Lu et al 2019;Min et al 2019;Pan et al 2019;Silva et al 2019).…”
Section: Introductionmentioning
confidence: 99%