Analysis of Chromosomal DNA Fragmentation in Apoptosis by Pulsed-Field Gel Electrophoresis

Abstract

Double-strand DNA break (DSB) formation is a key feature of apoptosis called chromosomal DNA fragmentation. However, some apoptosis inducers introduce DNA damage-induced DSBs prior to induction of apoptotic chromosomal DNA fragmentation. To analyze these distinct breaks, we have developed a method using pulsed-field gel electrophoresis (PFGE) with a rotating gel electrophoresis system (RGE) that enables us to distinguish between apoptotic DSBs and DNA damaging agent-induced DSBs based on their mobility in the electrophoresis gel. Apoptotic DSBs appear as smeared low-molecular weight bands (less than 500 kb), while damage-induced DSBs result in a compact single band (more than 500 kb). Furthermore, using a caspase inhibitor, Z-VAD-FMK, we can confirm whether broken DNA fragments are produced as part of an apoptotic response. Overall, we succeeded in characterizing two individual apoptosis inducers and showed the different effects of those compounds on the induction of DNA breaks.