Large-scale fragmentation of mammalian DNA in the course of apoptosis proceeds via excision of chromosomal DNA loops and their oligomers.

It has been shown recently that apoptotic degradation of genomic DNA in mammalian cells starts by excision of large DNA fragments ranging in size from 50 kilobases to more than 300 kilobases. Although it was suggested that the above fragments could represent chromosomal DNA loops, the supposition was not supported by direct experimental evidence. In present work, we have studied the specificity of nucleolar and euchromatic gene long-range fragmentation in mouse and human cells triggered to undergo apoptosis either by tumor necrosis factor or by serum deprivation. Separation of the excised large DNA fragments by pulsed field gel electrophoresis followed by Southern analysis has demonstrated that in all cases studied the above fragmentation proceeds in a specific way. Furthermore, the patterns of DNA long-range fragmentation in the cells undergoing apoptosis were indistinguishable from the patterns of DNA cleavage into chromosomal loops by the high salt-insoluble topoisomerase II of the nuclear matrix. These results suggest the conclusion that apoptotic degradation of chromosomal DNA starts by excision of DNA loops and their oligomers.