IN-VIVO FORMATION OF BENZODIAZEPINE-LIKE MOLECULES IN MAMMALIAN BRAIN

The possible cerebral formation of benzodiazepine (BDZ)-like molecules was evaluated in rats bilaterally microinjected into either the lateral ventricles (ICV) or the hippocampus (IH), with 10-70 μCi of different radiolabeled amino acids. After 3, or 24 h, the rats were sacrificed and BDZ-like molecules from total brain or hippocampus were purified by reversed phase HPLC. At 24 h, but not at 3 h of the ICV or IH microinjections with [3H] tryptophan, a peak of radioactivity containing material that inhibited the binding of [3H] flunitrazepam to both the BDZ receptor and the anti-BDZ inonoclonal antibody MAb 21-7F9 was obtained. This active labeled fraction eluting just before diazepam also bound directly and specifically to the BDZ receptor and to MAb 21-7F9. No peak of radioactivity containing BDZ-like material was obtained when [3H] phenylalanine, [14C] glycine, [14C] methionine or [14C] tyrosine alone or in different combinations were micro-injected into the hippocampus. The present results, together with our previous findings on the in vitro production of BDZ-like molecules in rat brain homogenates or slices (11), strongly suggest that the mammalian brain is capable of synthesizing low molecular weight substances possessing BDZ-like activity. © 1993 Academic Press, Inc.