It is well known that loop diuretics enhance the renal excretion of prostanoids; therefore, this study aimed to characterize the influence of loop diuretics on the intrarenal expression of cyclooxygenases, which are the key enzymes for prostanoid formation. Male Sprague-Dawley rats were infused with furosemide (12 mg/kg per d) for 6 d, and the expression of cyclooxygenase-1 and -2 (Cox-1 and Cox-2) was analyzed in the different kidney zones. Furosemide increased Cox-2 mRNA expression approximately twofold in the cortex, but it left Cox-1 mRNA expression unaltered there. In the outer medulla, furosemide changed neither Cox-1 nor Cox-2 mRNA expression. In the inner medulla, however, furosemide decreased Cox-1 and Cox-2 mRNA levels to approximately 30% and 60% of their control levels, respectively. The downregulation of mRNA was paralleled by a decrease of Cox protein in the collecting ducts and interstitial cells. Moreover, tissue prostaglandin E(2) (PGE(2)) concentrations in the papilla were markedly decreased by furosemide to about 30% of the control level. Furosemide lowered urine osmolality from 1550 mosmol/kg to 480 mosmol/kg; therefore, further consideration was given to the influence of tonicity as a possible mediator of the effects of furosemide on the Cox expression. Water loading was therefore used to reduce the medullary tonicity by a second maneuver. Water loading led to a similar reduction in papillary Cox mRNA expression and PGE(2) content like furosemide. To investigate the influence of the osmolarity on the expression of Cox and the production of PGE(2) under defined in vitro conditions, inner medullary collecting duct cells were incubated with culture medium containing graded amounts of NaCl ranging from 200 mmol/L to 600 mmol/L, and Cox-1 and Cox-2 mRNA abundance were determined after 24 h an 48 h. Cox-1 and Cox-2 mRNA abundance changed in parallel with the osmolarity. The data suggest that loop diuretics decrease the expression of cyclooxygenases and consequently tissue PGE(2) concentrations in the kidney inner medulla. This effect could be related to the breakdown of the papillary osmotic gradient induced by loop diuretics.