Dianhydrogalactitol (NSC-132313): pharmacokinetics in normal and tumor-bearing rat brain and antitumor activity against three intracerebral rodent tumors.

Dianhydrogalactitol (DAG; NSC-132313), a hexitol epoxide, was used to treat intracerebral rodent tumors. DAG was most active against the murine ependymoblastoma [treated/controls (T/C)greater than 440%], less active against murine glioma 26 (T/C approximately 112-150%), and least active against rat 9L gliosarcoma (T/C approximately 100%). Application of a two-compartment open model for plasma disappearance of 14C-DAG in rats gave a volume of distribution at steady state of approximately 872 ml, a clearance of approximately 9.4 ml/minute, and an elimination constant of 0.025/minute. Entry of 14C-DAG was more rapid into the 9L tumor than into the normal brain. When a two-compartment series model for brain and tumor entry was applied, the t1/2 (half-time) for compartmental equilibrium was approximately 22 and 105 minutes in the brain, and 4 and 56 minutes in the 9L tumor. The drug rapidly entered the brain and tumor intracellular compartments. Binding to RNA was linear with time, and the absolute amount of binding was approximately six times greater for RNA than for DNA.