Institute of Biophysics of the Czech Academy of Sciences, Brno, Czech Republic.
Institute of Biology and Medical Genetics, First Faculty of Medicine, Charles University in Prague, Prague, Czech Republic.
J Cell Biochem. 2018 Nov;119(10):8146-8162. doi: 10.1002/jcb.26770. Epub 2018 Jun 19.
We studied how deficiency in lamins A/C and lamina-associated polypeptide 2α (Lap2α) affects DNA repair after irradiation. A-type lamins and Lap2α were not recruited to local DNA lesions and did not accumulate to γ-irradiation-induced foci (IRIF), as it is generally observed for well-known marker of DNA lesions, 53BP1 protein. At micro-irradiated chromatin of lmna double knockout (dn) and Lap2α dn cells, 53BP1 protein levels were reduced, compared to locally irradiated wild-type counterpart. Decreased levels of 53BP1 we also observed in whole populations of lmna dn and Lap2α dn cells, irradiated by UV light. We also studied distribution pattern of 53BP1 protein in a genome outside micro-irradiated region. In Lap2α deficient cells, identical fluorescence of mCherry-tagged 53BP1 protein was found at both microirradiated region and surrounding chromatin. However, a well-known marker of double strand breaks, γH2AX, was highly abundant in the lesion-surrounding genome of Lap2α deficient cells. Described changes, induced by irradiation in Lap2α dn cells, were not accompanied by cell cycle changes. In Lap2α dn cells, we additionally performed analysis by FLIM (Fluorescence Lifetime Imaging Microscopy) that showed different dynamic behavior of mCherry-tagged 53BP1 protein pools when it was compared with wild-type (wt) fibroblasts. This analysis revealed three different fractions of mCherry-53BP1 protein. Two of them showed identical exponential decay times (τ1 and τ3), but the decay rate of τ2 and amplitudes of fluorescence decays (A1-A3) were statistically different in wt and Lap2α dn fibroblasts. Moreover, γ-irradiation weakened an interaction between A-type lamins and Lap2α. Together, our results demonstrate how depletion of Lap2α affects DNA damage response (DDR) and how chromatin compactness is changed in Lap2α deficient cells exposed to radiation.
我们研究了 lamin A/C 和 lamin 相关多肽 2α(Lap2α)缺陷如何影响辐射后的 DNA 修复。A型 lamin 和 Lap2α 没有募集到局部 DNA 损伤处,也没有积累到γ-射线诱导的焦点(IRIF),这与众所周知的 DNA 损伤标志物 53BP1 蛋白的一般观察结果一致。在 lmna 双敲除(dn)和 Lap2α dn 细胞的微照射染色质中,与局部照射的野生型对照相比,53BP1 蛋白水平降低。我们还观察到,在紫外线照射的 lmna dn 和 Lap2α dn 细胞的整个群体中,53BP1 水平降低。我们还研究了 53BP1 蛋白在基因组中微照射区域之外的分布模式。在 Lap2α 缺陷细胞中,微照射区域和周围染色质的 mCherry 标记的 53BP1 蛋白具有相同的荧光。然而,Lap2α 缺陷细胞中损伤周围基因组中高度丰富的是双链断裂的公认标志物 γH2AX。照射诱导的 Lap2α dn 细胞中的这些变化并不伴有细胞周期变化。在 Lap2α dn 细胞中,我们还通过 FLIM(荧光寿命成像显微镜)进行了分析,该分析表明,与野生型(wt)成纤维细胞相比,mCherry 标记的 53BP1 蛋白池具有不同的动态行为。该分析揭示了 mCherry-53BP1 蛋白的三个不同分数。其中两个分数显示出相同的指数衰减时间(τ1 和 τ3),但在 wt 和 Lap2α dn 成纤维细胞中,τ2 的衰减速率和荧光衰减的幅度(A1-A3)存在统计学差异。此外,γ-射线照射削弱了 A 型 lamin 和 Lap2α 之间的相互作用。总之,我们的结果表明 Lap2α 的耗竭如何影响 DNA 损伤反应(DDR),以及辐射暴露后 Lap2α 缺陷细胞的染色质致密性如何发生变化。
