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Title: Long-term regulation of renal urea transporter protein expression in rat. Author: Terris J, Ecelbarger CA, Sands JM, Knepper MA. Journal: J Am Soc Nephrol; 1998 May; 9(5):729-36. PubMed ID: 9596069. Abstract: To test the hypothesis that the abundance of the apical urea transporter of the inner medullary collecting duct (IMCD) is regulated in vivo by factors associated with altered water balance, immunoblots of rat inner medullary membrane fractions were probed with rabbit polyclonal antibodies against the renal urea transporter (RUT) gene product. In inner medullas of Brattleboro rats, which manifest severe chronic water diuresis, a 117-kD band was seen, in addition to the previously described 97-kD band. These two bands were detectable by antibodies directed against two different regions of the RUT sequence. When Brattleboro rats were treated with a 5-d infusion of arginine vasopressin (AVP) by osmotic minipump, the 117-kD band was markedly diminished, whereas the 97-kD band was unchanged. Simultaneous infusion of the diuretic agent furosemide prevented the AVP-induced decrease in the 117-kD band. In AVP-infused Sprague Dawley rats, the 117-kD band was barely perceptible. However, when AVP-treated rats were infused with furosemide for 5 d, the 117-kD band was markedly accentuated, whereas the 97-kD band was unchanged. The abundance of the 117-kD RUT protein in the renal papilla was inversely correlated with dietary protein intake. Further immunoblotting studies revealed that the 117-kD protein is heavily expressed in IMCD cells and not in non-collecting duct components of the inner medulla, and is present in low-density microsome fractions from inner medulla. From this study, the following conclusions can be made: (1) The collecting duct urea transporter is present in at least two forms (97 and 117 kD) in the IMCD. (2) The expression level of the 117-kD urea transporter protein is regulated and is inversely correlated with medullary osmolality and urea concentration, but does not correlate with circulating AVP level. (3) Although AVP regulates RUT function on a short-term basis, long-term changes in AVP levels do not increase RUT abundance.[Abstract] [Full Text] [Related] [New Search]