Bennett Paula V, Cuomo Noelle L, Paul Sunirmal, Tafrov Stefan T, Sutherland Betsy M
Biology Department, Brookhaven National Laboratory, Upton, NY 11973-5000, USA.
Free Radic Biol Med. 2005 Sep 15;39(6):832-9. doi: 10.1016/j.freeradbiomed.2005.05.008.
Clustered damages-two or more oxidized bases, abasic sites, or strand breaks on opposing DNA strands within a few helical turns-are formed in DNA by ionizing radiation. Clusters are difficult for cells to repair and thus pose significant challenges to genomic integrity. Although endogenous clusters were found in some permanent human cell lines, it was not known if clusters accumulated in human tissues or primary cells. Using high-sensitivity gel electrophoresis, electronic imaging, and number average length analysis, we determined endogenous cluster levels in DNA from human skin, a 3-D skin model, and primary cultured skin cells. DNA from dermis and epidermis of human skin contained extremely low levels of endogenous clusters (a few per gigabase). However, cultured skin fibroblasts and keratinocytes-whether in monolayer cultures or in 3-D model skin cultures-accumulated oxidized pyrimidine, oxidized purine, and abasic clusters. The levels of endogenous clusters were decreased by growing cells in the presence of selenium or by increasing cellular levels of Fpg protein, presumably by increasing processing of clustered damages. These results imply that the levels of endogenous clusters can be affected by the cells' external environment and their ability to deal with DNA damage.
成簇损伤(即在几个螺旋圈范围内,两条互补DNA链上出现两个或更多的氧化碱基、无碱基位点或链断裂)是由电离辐射在DNA中形成的。成簇损伤难以被细胞修复,因此对基因组完整性构成重大挑战。虽然在一些永久性人类细胞系中发现了内源性成簇损伤,但尚不清楚成簇损伤是否会在人体组织或原代细胞中积累。我们使用高灵敏度凝胶电泳、电子成像和数均长度分析,测定了来自人类皮肤、三维皮肤模型和原代培养皮肤细胞的DNA中的内源性成簇损伤水平。人类皮肤真皮和表皮中的DNA含有极低水平的内源性成簇损伤(每千兆碱基几个)。然而,培养的皮肤成纤维细胞和角质形成细胞——无论是在单层培养还是在三维模型皮肤培养中——都会积累氧化嘧啶、氧化嘌呤和无碱基成簇损伤。通过在硒存在的情况下培养细胞或提高Fpg蛋白的细胞水平,内源性成簇损伤水平会降低,这可能是通过增加对成簇损伤的处理来实现的。这些结果表明,内源性成簇损伤的水平会受到细胞外部环境及其处理DNA损伤能力的影响。