Recent experiments have revealed radiation-induced (600 MeV/u 56Fe energetic particles) losses of sensitivity of rodent neostriatal muscarinic receptors to stimulation by cholinergic agonists that appears as reductions in oxotremorine enhancement of K(+)-evoked dopamine release. These losses were postulated to be the result of radiation-induced alterations early in phosphoinositide-mediated signal transduction. Additional findings indicated that if the ligand-receptor-G protein interface was by passed no radiation deficits were seen. In the present study, radiation-induced deficits in K(+)-evoked dopamine release were examined in perifused striatal tissue obtained from rats exposed to 0, 0.1 or 1.0 Gy of 56Fe particles (600 MeV/u). Results showed that these deficits could be reduced by co-applying combinations of various pharmacological agents that were known to have differential effects on various second messengers such as 1,4,5-inositol-trisphosphate (IP3). Combinations included oxotremorine-carbachol, and either oxotremorine or carbachol with arginine vasopressin or arachidonic acid. These results are discussed in terms of putative radiation-induced changes in receptor-containing membranes which alter receptor-G protein coupling/uncoupling.