Autonomic Neural Regulation of Sodium Transporters and Water Channels in Rat Submandibular Gland

The present study was undertaken to explore the role of autonomic nerves in the regulation of sodium transporters and water channels in the salivary gland. Rats were denervated of their sympathetic or parasympathetic nerves to the submandibular gland. One week later, the expression of Na,K-ATPase, epithelial sodium channels (ENaC), and aquaporins (AQP) was examined in the denervated and contralateral glands. The sympathetic denervation slightly but significantly decreased the expression of alpha1 subunit of Na,K-ATPase, whereas the parasympathetic denervation increased it. The expression of alpha-subunit of ENaC was significantly increased in both the denervated and contralateral glands either by the sympathetic or parasympathetic denervation. The sympathetic denervation significantly increased the expression of AQP5 in both the denervated and contralateral glands, whereas the parasympathetic denervation decreased it. It is suggested that the autonomic nerves have a tonic effect on the regulation of sodium transporters and AQP water channels in the salivary gland.

Sympathetic and parasympathetic regulation of sodium transporters and water channels in rat submandibular gland

The present study was aimed to explore the role of sympathetic and parasympathetic nerves in the regulation of sodium transporters and water channels in the salivary gland. Rats were denervated of their sympathetic and parasympathetic nerves to the submandibular gland, and the glandular expression of sodium transporters and water channels was determined by Western blot analysis. The expression of either alpha1 or beta1 subunit of Na, K-ATPase was not significantly affected either by the sympathetic or by the parasympathetic denervation. The expression of subunits of epithelial sodium channels was significantly increased both in the denervated and contralateral glands either by the sympathetic or by the parasympathetic denervation. Neither the sympathetic nor the parasympathetic denervation significantly altered the expression of aquaporin-1 (AQP1). Nor was the expression of AQP4 affected significantly by the parasympathetic or the sympathetic denervation. On the contrary, the expression of AQP5 was significantly increased not only by the parasympathetic but also by the sympathetic denervation. These results suggest that sympathetic and parasympathetic nerves have tonic regulatory effects on the regulation of certain sodium transporters and AQP water channels in the salivary gland.

Decreased Expression of Aquaporin-2 Water Channels in the Kidney in Rats Treated with Chlorpropamide / 대한신장학회잡지

BACKGROUND: Whether blood glucose levels may change the regulation of aquaporin(AQP) water channels in the kidney was investigated. METHODS: Male Sprague-Dawley rats were treated with chlorpropamide(40 mg/100 g body weight per day, per oral, for 7 days), and their expression of AQP1-3 and type VI adenylyl cyclase proteins was determined in the kidney. RESULTS: Following the treatment with chlorpropamide, the blood glucose level was significantly decreased compared with that in the control(64+/-8 vs 106+/-7 mg/dL, n=6 each, p < 0.01). Accordingly, the expression of AQP2 proteins was decreased in the cortex, outer medulla, and inner medulla. The AQP2 targeting was not significantly altered, as evidenced by parallel decreases of its expression in the membrane and the cytoplasmic fractions. No significant changes were observed in the expression of either AQP1 or of AQP3. The protein expression of type VI adenylyl cyclase was not significantly altered. CONCLUSION: These results suggest that hypoglycemia attenuates the expression of AQP2 water channels in the kidney.

Effects of Bilateral Ureteral Obstruction on Renal Aquaporin Expression / 대한신장학회잡지

BACKGROUND: Obstruction of urinary tract is common cause of renal disfunction. Recent discovery of aquaporin water channels expressed in the kidney and various organs has faciliated our understanding of water transport across the permeable epithelial cell membrane. This study was performed to investigate the effects of bilateral ureteral obstruction on renal expression and cellular distribution of these water channels in rat kidney. METHODS: Male Sprague-Dawley rats were divided two groups. The abdominal cavity was opened and 2-0 silk ligatures were proximally placed on both ureters in experimental group. Sham-operated group was treated in the same procedures except ligation. After closure of the abdomen, the animals were maintained for 48 hr while being given food and water ad libitum. Kidney sections of both groups were processed for immunohistochemistry using antibodies to aquaporin-1, 2, 3, and 4. RESULTS: Immunoreactivity for aquaporin-1 of sham-operated kidney was detected in the apical and basolateral plasma membrane of proximal tubules and thin limb of Henle loop. That of bilateral ureteral obstructed kidney was decreased in the both tubules, especially in the proximal tubules and thin limb of Henle loop of inner medulla. Immunoreactivity for aquaporin-2 of sham-operated kidney was the most prominent in apical region and moderate in cytoplasm of the principal cells of entire collecting ducts. That of obstructed kidney was markedly decreased in entire collecting duct, especially inner medulla except inner stripe of outer medulla. The decrease was in parallel between the apical region and cytoplasm. Immunoreactivity for aquaporin-3 of sham-operated kidney was the most prominent in the basolateral plasma membrane of principal cells of entire collecting duct. That of obstructed kidney was decreased in entire collecting duct. Papillary epithelium was stained in obstructed kidney. Immunoreactivity for aquaporin-4 of sham-operated kidney was moderate in the basolateral plasma membrane of principal cells of collecting ducts of inner stripe of outer medulla and inner medulla. In obstructed kidney, immunoreactivity was detected in cortical and outer stripe of outer medullary collecting duct, and decreased in inner stripe of outer medulla and inner medulla. A marked heterogeneity was observed in inner medullary collecting duct. CONCLUSION: These results indicate that alterations of expression of aquaporin proteins after bilateral ureteral obstruction may lead to change in renal functions, such as urine concentrating ability.