This study examined the effect of beta-funaltrexamine (beta-FNA), an irreversible mu-receptor antagonist, on naltrexone-induced upregulation of mu-(mu cx + mu nex) and delta nex-opioid receptors. [The subscripts 'cx' and 'nex' denote binding sites 'in' (cx) and 'not in' (nex) the opioid receptor complex.] Rats were treated according to the following protocol. Two naltrexone or two placebo pellets were implanted subcutaneously in a nylon mesh on day 1. and were removed intact on day 8. Rats were given either saline or 20 nmol of beta-FNA in 10 microliters of saline (i.c.v.) on days 1, 3, 5 and 6, 60 min prior to implantation of the pellet. On day 9 frozen lysed-P2 membranes were prepared for assay of mu binding sites. In other experiments, membranes were depleted of mu-receptors by pretreatment with the site-directed acylating agent 2-(4-ethoxybenzyl)-l-diethylaminoethyl-5-isothiocyanatobenzimid azole.HCl (BIT) for assay of delta nex binding sites, using [3H] [D-ala2, D-leu5]enkephalin. The results demonstrated that beta-FNA did not upregulate the mu binding sites and also did not prevent naltrexone-induced upregulation of mu binding sites. Both beta-FNA and naltrexone increased the Bmax of delta nex binding sites and their effects were additive. These data suggest that the mechanism(s) responsible for antagonist-induced upregulation of opioid receptors are more complex than previously appreciated.