Formation of large molecular weight fragments of DNA is a key committed step of apoptosis in thymocytes.

Abstract

Apoptosis is a process in which cells die in a controlled manner and apparently participate in their own demise. It is best characterized morphologically by condensation of chromatin and biochemically by cleavage of chromatin at internucleosomal regions to yield a classical DNA ladder pattern. Apoptosis was induced in thymocytes by exposure to either the glucocorticoid, dexamethasone, or DNA topoisomerase II inhibitor, etoposide. We describe the formation of large m.w. fragments of DNA, 30 to 50 kilobase pairs in length, in a population of these thymocytes at an early stage of apoptosis before internucleosomal cleavage of DNA. These fragments are absent in normal thymocytes and their formation is dependent on protein synthesis. Their appearance is coincident with the commitment of these cells to apoptosis. The formation of these large fragments is associated with the condensation of chromatin, abutting the nuclear membrane, recognized as one of the earliest ultrastructural signs of apoptosis. Subsequent cleavage of these large fragments gives rise to oligonucleosomal fragments and is independent of protein synthesis. We propose that the formation of large fragments of DNA represents a key committed step in apoptosis, and that it is from these fragments that the archetypal DNA ladders associated with apoptosis are derived.