Sold out
  • Vendor: Mia Karts

The role of PKB, SGK1, Nedd4-2,and mTOR in the regulation of NaPi-lla: Rapamycin induced phosphaturia

$106.50 USD
$85.20 USD
 per 

Free U.S. shipping on all orders. Free international shipping on orders over $99

All orders are dispatched the next business day!

Competitive Pricing You Can Trust — Quality You Can Rely On.

Guaranteed safe checkout

Product description

ISBN: 3639349121

Author: D

Condition: New

Phosphate homeostasis is of critical importance for a wide variety of functions and is a function of intestinal absorption and renal elimination. Renal tubular phosphate absorption is accomplished by the Na+, phosphate cotransporter NaPi IIa. The mammalian target of rapamycin mTOR is known to stimulate a variety of transport mechanisms. The present study thus explored the impact of Akt/PKB, SGK1, Nedd4-2 and mTOR on the regulation of NaPi-IIa. For this purpose the NaPi-IIa was expressed in Xenopus oocytes with or without PKB/Akt, SGK1, Nedd4-2 and mTOR and Na+, phosphate transport was determined by dual electrode voltage clamp. In a second series of experiments, the effect of rapamycin was analysed in mice. The in vivo administration of rapamycin for 3 days resulted in phosphaturia in mice despite a tendency of plasma phosphate concentration to decrease. The present observations underlie, Akt2/PKB, SGK1, and Nedd4-2 play a role in the acute regulation of NaPi-IIa and thus contribute to the maintenance of phosphate balance and adequate mineralization of bone. In addition mTOR contributes to the regulation of renal phosphate transport and rapamycin thus influences phosphate balance.

View full details

The role of PKB, SGK1, Nedd4-2,and mTOR in the regulation of NaPi-lla: Rapamycin induced phosphaturia

$106.50 USD
$85.20 USD
 per 
RECENTLY VIEWED PRODUCTS

Free same-day delivery

Free shipping - no code needed, just head for checkout!

Repeat delivery

Repeat delivery with 5% OFF every order.

Curbside pickup

Order online, drive up, check in & pick up.