Angiotensin II increases activity of the epithelial Na+ channel (ENaC) in distal nephron additively to aldosterone

Dietary salt intake controls epithelial Na+ channel (ENaC)-mediated Na+ reabsorption in the distal nephron by affecting status of the renin-angiotensin-aldosterone system (RAAS). Whereas regulation of ENaC by aldosterone is generally accepted, little is known about whether other components of RAAS, such as angiotensin II (Ang II), have nonredundant to aldosterone-stimulatory actions on ENaC. We combined patch clamp electrophysiology and immunohistochemistry in freshly isolated split-opened distal nephrons of mice to determine the mechanism and molecular signaling pathway of Ang II regulation of ENaC. We found that Ang II acutely increases ENaC Po, whereas prolonged exposure to Ang II also induces translocation of α-ENaC toward the apical membrane in situ. Ang II actions on ENaC Po persist in the presence of saturated mineralocorticoid status. Moreover, aldosterone fails to stimulate ENaC acutely, suggesting that Ang II and aldosterone have different time frames of ENaC activation. AT1 but not AT2 receptors mediate Ang II actions on ENaC. Unlike its effect in vasculature, Ang II did not increase [Ca2+]i in split-opened distal nephrons as demonstrated using ratiometric Fura-2-based microscopy. However, application of Ang II to mpkCCDc14 cells resulted in generation of reactive oxygen species, as probed with fluorescent methods. Consistently, inhibiting NADPH oxidase with apocynin abolished Ang II-mediated increases in ENaC Po in murine distal nephron. Therefore, we concluded that Ang II directly regulates ENaC activity in the distal nephron, and this effect complements regulation of ENaC by aldosterone. We propose that stimulation of AT1 receptors with subsequent activation of NADPH oxidase signaling pathway mediates Ang II actions on ENaC.     

双峰驼肾重吸收机能的细胞学证据

电镜下观察了18峰双峰驼（Camelus bactrianus)肾脏细胞的超微结构,探究驼肾重吸收机能的形态学证据。结果显示,驼肾近曲小管的刷状缘高而密集,上皮细胞胞质顶端具有丰富的管泡结构,侧基底指状突起和基底质膜内褶多而明显,板状嵴线粒体发达。远曲小管和远直小管游离面微绒毛短而稀少,胞质线粒体排列密集,质膜内褶更为发达。集合小管上皮包括多量的亮细胞和少量的暗细胞两种类型,亮细胞结构简单,线粒体稀少,暗细胞线粒体密集,由皮质至髓质,暗细胞数量呈递减趋势,但内髓仍见暗细胞分布。皮质间质极少,志细血管丰富,管壁内皮菲薄有孔。髓质直小血管亦为有孔内皮。上述结构特征表明,双峰驼具有很强的重吸收能力,与其节水耐干渴特性相适应。     

Separate Gating Mechanisms Mediate the Regulation of K2P Potassium Channel TASK-2 by Intra- and Extracellular pH

TASK-2 (KCNK5 or K_2P5.1) is a background K⁺ channel that is opened by extracellular alkalinization and plays a role in renal bicarbonate reabsorption and central chemoreception. Here, we demonstrate that in addition to its regulation by extracellular protons (pH_o) TASK-2 is gated open by intracellular alkalinization. The following pieces of evidence suggest that the gating process controlled by intracellular pH (pH_i) is independent from that under the command of pH_o. It was not possible to overcome closure by extracellular acidification by means of intracellular alkalinization. The mutant TASK-2-R224A that lacks sensitivity to pH_o had normal pH_i-dependent gating. Increasing extracellular K⁺ concentration acid shifts pH_o activity curve of TASK-2 yet did not affect pH_i gating of TASK-2. pH_o modulation of TASK-2 is voltage-dependent, whereas pH_i gating was not altered by membrane potential. These results suggest that pH_o, which controls a selectivity filter external gate, and pH_i act at different gating processes to open and close TASK-2 channels. We speculate that pH_i regulates an inner gate. We demonstrate that neutralization of a lysine residue (Lys²⁴⁵) located at the C-terminal end of transmembrane domain 4 by mutation to alanine abolishes gating by pH_i. We postulate that this lysine acts as an intracellular pH sensor as its mutation to histidine acid-shifts the pH_i-dependence curve of TASK-2 as expected from its lower pK_a. We conclude that intracellular pH, together with pH_o, is a critical determinant of TASK-2 activity and therefore of its physiological function.     

Lipids in the proximal convoluted tubule of the cat kidney and the reabsorption of cholesterol

Summary Lipid deposits in the cat kidney are mainly located in the epithelium of the proximal tubuli contorti, particularly in the pars contorta. As the amount of fatty acids in the blood of renal arteries is higher than in renal veins, the lipid inclusions are likely to be formed in the proximal convoluted tubule. Whether fat occurring in the urine has been released from the nephron epithelium and the mode of this release remains obscure. The structural equivalent of lipid extrusion into the tubules has not been observed.Components of the tubular lipids include triglycerides, phosphoglycerides and cholesterol. The results of the digitonin-cholesterol reaction favour the assumption that cholesterol is eliminated in the glomeruli and pinocytotically reabsorbed by the brush border cells, this process possibly serving recycling of this compound. The dilated basal labyrinth and intercellular space contain perpendicularly oriented lipid accumulations that reach the basal lamina. The ultrastructure of the lipid storing cells of pars contorta reacting positively for phosphoglyceride and cholesterol is characterised mainly by bodies with marginal plates. As far as can be judged from their morphology, these bodies are interpreted as large peroxisomes. A special feature of the pars recta are dumbbell shaped bodies and elongated or cup-like mitochondria concentrically surrounding cytoplasmic areas, as well as a well-developed smooth ER. In what way the organelles of the brush border cells are involved in catabolic and anabolic processes as far as renal lipid metabolism is concerned remains to be answered.This investigation was supported by a grant from the Deutsche ForschungsgemeinschaftThis paper is dedicated in friendship to Professor Berta Scharrer (New York) on the occasion of her 70th birthday     

Primary defect of juvenile visceral steatosis (jvs) mouse with systemic carnitine deficiency is probably in renal carnitine transport system

We investigated the reabsorptional system for carnitine in the kidney to elucidate the mechanism of carnitine deficiency in juvenile visceral steatosis (jvs) mice. Jvs mice had a higher rate of carnitine excretion at 10 days after birth than the controls, in spite of having no pathological acylcarnitine in the urine. In an experiment to assay the uptake of carnitine using kidney slices, homozygous mutants showed significantly lower rates of Na-dependent carnitine uptake than controls. Heterozygous mice showed values of transport activity intermediate between homozygous mutants and homozygous controls. Scatchard plots (transport activity versus transport activity/carnitine concentration) revealed that the homozygous mutants had a defect in the hihg affinity site (K_m = 58 μM) in the Na-dependent carnitine transport system in the kidney. These results indicate that the primary defect of jvs mice is most probably related to the system for reabsorption of carnitine in the kidney.     

Exudation-reabsorption in a mycorrhizal fungus, the dynamic interface for interaction with soil and soil microorganisms

 The mycelium of Suillus bovinus slowly absorbed [U-¹⁴C]glucose and other tracers from droplets placed on the cords, translocated them to the peripheral hyphae and exuded them into fluid drops on the hyphal tips. The exudate was characterized by ¹H NMR spectroscopy and by sugar and amino acid analysis. The exuded compounds were mainly carbohydrates and peptides. Acetic acid and oxalic acid were also present in the exudate along with a number of unidentified compounds. Released ions (K, Na, Cl, P, Mg and Ca) were identified by X-ray microanalysis. The mycelium was shown to reabsorb up to 65% of the exuded ¹⁴C compounds in 2 days. Glucose, mannitol, glutamic acid (pH 3.2), and Rb⁺ (as well as other mineral ions) were all readily absorbed by the mycelium, while oxalic acid at pH 4.2 and glutamic acid at pH 6.5 were not. Exudation of fluid droplets on the surface of the hydrophobic mycorrhizal fungus S. bovinus may represent an ecophysiologically important function of the extramatrical hyphae, which provides an interface for interaction with the immediate hyphal environment and its other microorganisms where the peripheral hyphae exchange their photosynthetically derived products for nutrients to be used later by the pine host. We hypothesize that actively absorbed carbohydrates from the root are translocated to the peripheral hyphae along a concentration gradient of sugars and polyols by means of active translocation and diffusion in cell elements and by acropetal water transport in the cord vessels. Accepted 27 April 1999     

High resolution emission spectra of one second delayed fluorescence from chloroplasts

The first well resolved emission spectra of white light-illuminated spinach chloroplasts at room temperature show that one second delayed fluorescence occurs at 685 nm. We demonstrate that reabsorption of this delayed fluorescence induces the second (probably prompt) emission observed at 730 nm and which we identify with the photosystem I peripheral antenna system.