After a s.c. injection of 0.4 mg Cd/kg as cadmium-metallothionein (CdMT) in rats, a marked increase in urinary protein concentration appeared at 16-40 h. There was a peak of urinary Cd content during the first 4 h after the treatment. Urinary Ca was increased at 8 h after the CdMT injection and returned to normal level at 32 h. Luminal and basolateral renal membrane vesicles were isolated from both control group and CdMT (0.4 mg Cd/kg) group at 24 h after the injection. Calcium uptake and binding of both fractions were decreased in the group treated with CdMT. Cd, Zn and MT concentrations in the kidney cortex were increased, but Ca concentration was not significantly changed. Since injected CdMT is probably only partly reabsorbed by tubular cells at the dose level of 0.4 mg Cd/kg as CdMT, excessive plasma CdMT is rapidly excreted in urine, explaining the increased Cd excretion during the first few hours observed in the present experiment. Decreased Ca binding in the luminal membranes as observed in vitro could be one of the mechanisms of production of calcuria if occurring in vivo. Another possible explanation of calcuria is that Cd ions released from CdMT into the cytoplasm of the tubular cell, may exert ionic interference with Ca transport across the luminal membranes and produce decreased Ca reabsorption. It is known that a disturbance of Ca metabolism could influence the membrane stability and such a change may contribute to explaining the proteinuria characteristic of CdMT nephrotoxicity. The reversibility of the proteinuria observed after a single dose of CdMT may be related to the induction of metallothionein synthesis in the renal cells.