Human hypercalcemia of malignancy (HHM) is generally due to the release into the circulation of parathyroid hormone-related peptide (PTHrP). PTHrP stimulates osteoclastic bone resorption and renal calcium reabsorption through the activation of a receptor similar to that of PTH (PTH-R). However, there is scarce information about the PTH-R regulation in the setting of the hypercalcemia. In the present study, we assessed the molecular basis of renal PTH-R regulation in Walker tumor-bearing rats either treated or not by a bisphosphonate, pamidronate. Twenty-seven 6-week-old rats were randomly divided into three experimental groups: WC- APD- (9 control rats), WC+ APD- (9 Walker tumor-bearing rats), and WC+ APD+ (9 Walker tumor-bearing rats receiving 15 mg/kg/day of sodium pamidronate every day for seven days). Pamidronate induced a significant decrease in the mean tumor weight (9.3+/-0.8 vs 6.3+/-0.6 g). Seven days after the subcutaneous implantation of the Walker cells, plasma total calcium was 10.8+/-0.4, 16.8+/-0.6, and 12.9+/-0.6 mg/dl in WC- APD-, WC+ APD-, and WC+ APD+, respectively. Plasma PTHrP concentration was undetectable, 15.9+/-2.6, and 7.2+/-1.4 pmol/l, respectively. Bone histomorphometric results showed high resorption in WC+ APD-, which returned below the basal level of the WC- APD- with pamidronate treatment. Densitometric analysis of Northern blots revealed that the renal PTH-R mRNA expression in WC+ WPD- rats was a quarter of the levels in the WC- APD- and WC+ APD+ groups. WC+ APD- also had a decreased PTH-stimulated cAMP production in renal membranes. The PTH-R was expressed in the Walker tumor and it was not modified by pamidronate treatment. In conclusion, the expression of PTH-R receptor mRNA is significantly reduced in the kidney of rats bearing Walker carcinoma tumor. Its regulation is tissue-specific: pamidronate, which partially corrected the hypercalcemia and elevated circulating PTHrP, normalized the PTH-R mRNA expression in the kidney but not in the tumor.