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引用次数: 0
摘要
G 型四联体(G4s)在整个基因组中形成,影响着重要的细胞过程。它们的失调会影响 DNA 复制叉的进展并威胁基因组的稳定性。在这里,我们证明了双链 DNA(dsDNA)易位酶螺旋酶样转录因子(HLTF)在应对 G4s 方面发挥了意想不到的作用。我们发现,HLTF 富集于人类基因组中的 G4s 处,它能在体外直接展开 G4s,并利用这种依赖 ATP 的转译酶功能在整个细胞周期中抑制 G4 的积累。此外,MSH2(结合 G4s 的 MutS 异源二聚体的一个成分)和 HLTF 发挥协同作用,抑制 G4 的积累,限制端粒的替代性延长,并促进对 G4 稳定药物的抗性。当 G4s 稳定时,HLTF 通过抑制依赖于引物酶聚合酶(PrimPol)的斥责作用抑制 DNA 合成,这是一种互不关联但互为补充的作用。HLTF在G4反应中的不同作用共同防止了DNA损伤和潜在的诱变复制,从而保障了基因组的稳定性。
HLTF resolves G4s and promotes G4-induced replication fork slowing to maintain genome stability
G-quadruplexes (G4s) form throughout the genome and influence important cellular processes. Their deregulation can challenge DNA replication fork progression and threaten genome stability. Here, we demonstrate an unexpected role for the double-stranded DNA (dsDNA) translocase helicase-like transcription factor (HLTF) in responding to G4s. We show that HLTF, which is enriched at G4s in the human genome, can directly unfold G4s in vitro and uses this ATP-dependent translocase function to suppress G4 accumulation throughout the cell cycle. Additionally, MSH2 (a component of MutS heterodimers that bind G4s) and HLTF act synergistically to suppress G4 accumulation, restrict alternative lengthening of telomeres, and promote resistance to G4-stabilizing drugs. In a discrete but complementary role, HLTF restrains DNA synthesis when G4s are stabilized by suppressing primase-polymerase (PrimPol)-dependent repriming. Together, the distinct roles of HLTF in the G4 response prevent DNA damage and potentially mutagenic replication to safeguard genome stability.
期刊介绍:
Molecular Cell is a companion to Cell, the leading journal of biology and the highest-impact journal in the world. Launched in December 1997 and published monthly. Molecular Cell is dedicated to publishing cutting-edge research in molecular biology, focusing on fundamental cellular processes. The journal encompasses a wide range of topics, including DNA replication, recombination, and repair; Chromatin biology and genome organization; Transcription; RNA processing and decay; Non-coding RNA function; Translation; Protein folding, modification, and quality control; Signal transduction pathways; Cell cycle and checkpoints; Cell death; Autophagy; Metabolism.
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