通过改变双链断裂修复动力学来反馈抑制 L1 和alu 逆转录转座。

Feedback inhibition of L1 and alu retrotransposition through altered double strand break repair kinetics.

机构信息

Tulane Cancer Center and the Department of Epidemiology, Tulane University, New Orleans, LA 70112, USA.

出版信息

Mob DNA. 2010 Oct 27;1(1):22. doi: 10.1186/1759-8753-1-22.

DOI:10.1186/1759-8753-1-22

PMID:20979631

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3164224/

Abstract

BACKGROUND

Cells adapt to various chronic toxic exposures in a multitude of ways to minimize further damage and maximize their growth potential. Expression of L1 elements in the human genome can be greatly deleterious to cells, generating numerous double strand breaks (DSBs). Cells have been reported to respond to chronic DSBs by altering the repair of these breaks, including increasing the rate of homology independent DSB repair. Retrotransposition is strongly affected by proteins involved in DSB repair. Therefore, L1 expression has the potential to be a source of chronic DSBs and thus bring about the changes in cellular environment that could ultimately restrict its own retrotransposition.

RESULTS

We demonstrate that constitutive L1 expression leads to quicker DSB repair and decreases in the retrotransposition potential of L1 and other retrotransposons dependent on L1 expression for their mobility. This cellular adaptation results in reduced sensitivity to L1 induced toxicity. These effects can be induced by constitutive expression of the functional L1 ORF2 alone, but not by the constitutive expression of an L1 open reading frame 2 with mutations to its endonuclease and reverse transcriptase domains. This adaptation correlates with the relative activity of the L1 introduced into the cells.

CONCLUSIONS

The increased number of DSBs resulting from constitutive expression of L1 results in a more rapid rate of repair. The cellular response to this L1 expression also results in attenuation of retrotransposition and reduced sensitivity of the cells to negative consequences of L1 ORF2 expression. The influence does not appear to be through RNA interference. We believe that the increased rate of DSB repair is the most likely cause of the attenuation of retrotransposition. These alterations act as a fail safe mechanism that allows cells to escape the toxicity associated with the unchecked L1 expression. This gives cells that overexpress L1, such as tumor cells, the ability to survive the high levels of expression. However, the increased rate of break repair may come at the cost of accuracy of repair of the lesion, resulting in increased genomic instability.

摘要

背景

细胞通过多种方式适应各种慢性毒性暴露，以最大程度地减少进一步的损伤并最大限度地提高其生长潜力。人类基因组中 L1 元件的表达可能对细胞造成极大的损害，产生大量双链断裂（DSB）。据报道，细胞通过改变这些断裂的修复方式来应对慢性 DSB，包括增加同源非依赖性 DSB 修复的速率。逆转录转座强烈受到参与 DSB 修复的蛋白质的影响。因此，L1 的表达有可能成为慢性 DSB 的来源，并由此带来可能最终限制其自身逆转录转座的细胞环境变化。

结果

我们证明，组成型 L1 表达导致更快的 DSB 修复，并降低 L1 和其他依赖 L1 表达进行移动的逆转录转座子的逆转录转座潜力。这种细胞适应导致对 L1 诱导的毒性的敏感性降低。这些效应可以通过组成型表达功能性 L1 ORF2 单独诱导，但不能通过组成型表达 L1 开放阅读框 2 及其内切酶和逆转录酶结构域的突变诱导。这种适应与引入细胞的 L1 的相对活性相关。

结论

组成型表达 L1 导致更多的 DSB，从而导致修复速度更快。细胞对这种 L1 表达的反应也导致逆转录转座的衰减和细胞对 L1 ORF2 表达的负面后果的敏感性降低。这种影响似乎不是通过 RNA 干扰。我们认为，增加的 DSB 修复速率是逆转录转座衰减的最可能原因。这些改变作为一种故障安全机制，使细胞能够逃避与未受控制的 L1 表达相关的毒性。这使过度表达 L1 的细胞（如肿瘤细胞）能够存活下来。然而，断裂修复速度的增加可能以修复病变的准确性为代价，导致基因组不稳定性增加。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6410/3164224/cbc0f69fad28/1759-8753-1-22-1.jpg

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通过改变双链断裂修复动力学来反馈抑制 L1 和alu 逆转录转座。

Feedback inhibition of L1 and alu retrotransposition through altered double strand break repair kinetics.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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