Haemodialysis as a model for studying endogenous plasma DNA: oligonucleosome-like structure and clearance

The rale of clearance of extracellular plasma DNA in man has important implications for palhogenetic mechanisms in systemic lupus erythematosus (SLE). as well as for certain other clinical states. Present knowledge of this parameter is derived exclusively from studies of injected, naked DNA in animals. Recent information indicates that the physiologic form of plasma DNA in SLE is that of oligonucleosome-like molecules rather than of naked DNA and consists of mullimeric complexes of DNA bound to histone. probably arising from an apoptolic process. In order to study the rate at which these oligonucleosome-like complexes are removed from plasma and to do so in man rather than experimental animals, we exploited the observation that during haemodialysis large amounts of DNA arc released, apparently within the dialysis coil, into the patient's plasma. Since this release appears to cease promptly with termination of the procedure, it offered the potential for estimating the rale of removal of such DNA from human plasma. Moreover, If that DNA. as postulated, were shown to possess an oligonucleosome-like structure resembling that found endogenously in human SLE, the relevance of such information to the human disease state would be further enhanced. The present results support the conclusion that DNA released into plasma during haemodialysis possesses such an oligonucleosome-like structure. The plasma half-life of that DNA in man was found not to exceed 4 min. The highly dynamic state thus implied for extracellular endogenous plasma DNA in man has important implications for pathogenelie mechanisms dependent on dsDNA in SLE. Moreover, individuals undergoing chronic haemodialysis. who are thereby exposed to a very large cumulative amount of such DNA, might serve as models for studying its long-term sequelae.