Publications by authors named "Aleksandra Vancevska"

Article Synopsis
  • POLQ is an important protein for repairing DNA double-strand breaks (DSBs) through a process called microhomology-mediated end-joining (MMEJ) and is found at higher levels in various cancers.
  • Inhibiting POLQ leads to synthetic lethality in cancer cells that lack certain repair mechanisms (like HR and Shieldin), suggesting a strong reliance on MMEJ for repair.
  • The study reveals that when POLQ is absent, cells accumulate gaps in their DNA, and POLQ works in a way that could drive genetic changes in cancer, highlighting its role in both gap sealing and overall cell survival.
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DNA double-stranded breaks (DSBs) are deleterious lesions, and their incorrect repair can drive cancer development. HELQ is a superfamily 2 helicase with 3' to 5' polarity, and its disruption in mice confers germ cells loss, infertility and increased predisposition to ovarian and pituitary tumours. At the cellular level, defects in HELQ result in hypersensitivity to cisplatin and mitomycin C, and persistence of RAD51 foci after DNA damage.

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Telomere shortening can cause detrimental diseases and contribute to aging. It occurs due to the end replication problem in cells lacking telomerase. Furthermore, recent studies revealed that telomere shortening can be attributed to difficulties of the semi-conservative DNA replication machinery to replicate the bulk of telomeric DNA repeats.

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To achieve replicative immortality, cancer cells must activate telomere maintenance mechanisms to prevent telomere shortening. ~85% of cancers circumvent telomeric attrition by re-expressing telomerase, while the remaining ~15% of cancers induce alternative lengthening of telomeres (ALT), which relies on break-induced replication (BIR) and telomere recombination. Although ALT tumours were first reported over 20 years ago, the mechanism of ALT induction remains unclear and no study to date has described a cell-based model that permits the induction of ALT.

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Article Synopsis
  • Chromatin can make it hard for the body to fix DNA damage because it blocks access to certain problems in the DNA.
  • ALC1 is an enzyme that helps the body respond to DNA damage, but scientists are still figuring out exactly how it helps with DNA repair.
  • Losing ALC1 makes cells more vulnerable to certain drugs and can lead to problems in DNA repair, suggesting that targeting ALC1 could help treat certain types of cancer better.
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Structural maintenance of chromosomes flexible hinge domain-containing protein 1 (SMCHD1) has been implicated in X-chromosome inactivation, imprinting, and DNA damage repair, and mutations in SMCHD1 can cause facioscapulohumeral muscular dystrophy. More recently, SMCHD1 has also been identified as a component of telomeric chromatin. Here, we report that SMCHD1 is required for DNA damage signaling and non-homologous end joining (NHEJ) at unprotected telomeres.

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Telomeres are specialized nucleoprotein structures that protect chromosome ends from DNA damage response (DDR) and DNA rearrangements. The telomeric shelterin protein TRF2 suppresses the DDR, and this function has been attributed to its abilities to trigger t-loop formation or prevent massive decompaction and loss of density of telomeric chromatin. Here, we applied stochastic optical reconstruction microscopy (STORM) to measure the sizes and shapes of functional human telomeres of different lengths and dysfunctional telomeres that elicit a DDR.

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Background: We report the improvement of previously described method for determining deoxyribonuclease (DNase) activity in serum samples that uses a fluorescently labeled DNA fragment as a substrate METHODS: Activity of serum DNase was analyzed in 31 patients with systemic lupus erythematosus (SLE) and 13 healthy individuals by fluoresence-based method and ELISA test RESULTS: We found a mean decrease in DNase activity between cases and controls of 12.46% measured by the fluoresence-based method and of 12.21% measured by ELISA method.

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