Department of Chemistry, Johns Hopkins University, Baltimore, MD, 21218, USA.
Chembiochem. 2019 Mar 1;20(5):672-676. doi: 10.1002/cbic.201800663. Epub 2019 Jan 10.
The major pathway for DNA damage following hydrogen atom abstraction from the C5'-position results in direct strand scission and concomitant formation of a 5'-aldehyde-containing nucleotide (e.g., T-al). We determined that the half-life of alkali-labile T-al in free DNA under physiological conditions varies from 5-12 days. T-al reactivity was examined at three positions within nucleosome core particles (NCPs). β-Elimination increased >2.5-fold when T-al was proximal to the lysine-rich histone H4 tail. No difference in reactivity between free DNA and NCPs was observed when T-al was distal from the histone tails. The position-dependent involvement of histone tails in T-al elimination was gleaned from experiments with sodium cyanoborohydride and histone protein variants. The enhancement of T-al elimination in NCPs is significantly smaller than previously observed for abasic sites. Computational studies comparing elimination from T-al and abasic sites indicate that the barrier for the rate-determining step in the latter is 2.6 kcal mol lower and is stabilized by a hydrogen bond between the C4-hydroxy group and phosphate leaving group. The long lifetime for T-al in NCPs, combined with what is known about its repair suggests that this DNA lesion might pose significant challenges within cells.
氢原子从 C5'-位置被抽离后,主要的 DNA 损伤途径会导致直接的链断裂,并伴随着形成含有 5'-醛的核苷酸(例如 T-al)。我们确定在生理条件下,游离 DNA 中碱不稳定的 T-al 的半衰期在 5-12 天之间变化。我们在核小体核心颗粒(NCPs)中的三个位置检查了 T-al 的反应性。当 T-al 靠近富含赖氨酸的组蛋白 H4 尾巴时,β-消除增加了超过 2.5 倍。当 T-al 远离组蛋白尾巴时,游离 DNA 和 NCPs 之间的反应性没有差异。通过与氰基硼氢化钠和组蛋白蛋白变体的实验,从 T-al 消除的位置依赖性中得出了组蛋白尾巴的参与。与先前观察到的无碱基位点相比,NCPs 中 T-al 消除的增强要小得多。比较 T-al 和无碱基位点消除的计算研究表明,后者速率决定步骤的障碍低 2.6 kcal/mol,并且通过 C4-羟基和磷酸离去基团之间的氢键稳定。T-al 在 NCPs 中的长寿命,以及对其修复的了解表明,这种 DNA 损伤可能会在细胞内带来重大挑战。
