Chronic renal failure is characterized by a resistance to the hypercalcemic action of parathyroid hormone (PTH). This resistance probably involves several mechanisms, including a disturbance of vitamin D metabolism, a desensitization of the skeleton by high PTH levels, hyperphosphatemia, uremic toxins, and acidosis. We have explored the possibility that a downregulation of the recently cloned PTH/PTHrp receptor might also be involved. We found a marked decrease in the expression of the receptor mRNA in the kidney and the bone of uremic rats; other authors have found a decrease in the heart and the liver. The reduced expression in the kidney was accompanied by a diminished stimulability of renal adenylate cyclase activity, suggestive of a functional depression of the hormonal response in this target tissue. It is probable that the downregulation of the PTH/PTHrp receptor plays an important role in the skeletal resistance to the calcemic effect of PTII in chronic renal failure.