Activation of internucleosomal DNA cleavage in human CEM lymphocytes by glucocorticoid and novobiocin. Evidence for a non-Ca2(+)-requiring mechanism(s)

Internucleosomal DNA cleavage is the key molecular event of the cytolytic phase of glucocorticoid-induced lymphocytolysis. We find that novobiocin, the topoisomerase II inhibitor, is a potent inducer of in vivo internucleosomal DNA cleavage in human CEM lymphocytes. This in vivo effect is very rapid, time- and dose-dependent, requires cellular integrity, and does not require de novo protein synthesis. Recently our data (Alnemri, E. S., and Litwack, G. (1989) J. Biol. Chem. 264, 4104-4111) suggested that activation of DNA cleavage in CEM-C7 lymphocytes by glucocorticoids is independent of calcium uptake. Similarly, the novobiocin effect is also independent of calcium uptake and does not occur in isolated CEM nuclei or in CEM cells treated previously with the divalent cation ionophore A23187. Internucleosomal DNA cleavage induced by novobiocin or glucocorticoid generates blunt-ended double-stranded DNA fragments possessing 3'-hydroxyls and 5'-phosphates. As demonstrated by gel retardation analysis and DNase I footprinting, novobiocin causes the disruption and unfolding of an in vitro reconstituted mononucleosome so that it becomes more susceptible to DNase I cleavage. Our data suggest that 1) novobiocin rapid activation of internucleosomal DNA cleavage and chromatin changes in CEM lymphocytes are molecular features of apoptosis or programmed cell death. 2) CEM lymphocytes apparently do not express a Ca2(+)-dependent endonuclease. 3) The mechanism(s) of glucocorticoid or novobiocin-induced DNA cleavage in CEM lymphocytes involves activation of a constitutive non Ca2(+)-dependent endonuclease. We propose that the majority of nuclear chromatin is maintained in a highly compact and charge-neutralized state and that disruption of this highly ordered structure, directly by novobiocin or indirectly by glucocorticoid, may lead to the exposure and unmasking of internucleosomal linker DNA regions which are substrates for a constitutive non-Ca2(+)-dependent endonuclease.