A novel two-pore domain K+ channel,TRESK, is localized in the spinal cord

To find a novel human ion channel gene we have executed an extensive search by using a human genome draft sequencing data base. Here we report a novel two-pore domain K+ channel, TRESK (TWIK-related spinal cord K+ channel). TRESK is coded by 385 amino acids and shows low homology (19%) with previously characterized two-pore domain K+ channels. However, the most similar channel is TREK-2 (two-pore domain K+ channel), and TRESK also has two pore-forming domains and four transmembrane domains that are evolutionarily conserved in the two-pore domain K+ channel family. Moreover, we confirmed that TRESK is expressed in the spinal cord. Electrophysiological analysis demonstrated that TRESK induced outward rectification and functioned as a background K+ channel. Pharmacological analysis showed TRESK to be inhibited by previously reported K+ channel inhibitors Ba2+, propafenone, glyburide, lidocaine, quinine, quinidine, and triethanolamine. Functional analysis demonstrated TRESK to be inhibited by unsaturated free fatty acids such as arachidonic acid and docosahexaenoic acid. TRESK is also sensitive to extreme changes in extracellular and intracellular pH. These results indicate that TRESK is a novel two-pore domain K+ channel that may set the resting membrane potential of cells in the spinal cord.     

Rocky shore turfs dominated by Corallina (Corallinales,Rhodophyta) in northern Japan†

Three intertidal sites dominated by Corallina turfs were investigated in Hokkaido, Japan. The sites (A, B and C) differed in slope, wave exposure and length of time exposed to air during tidal cycles. Monthly samples were analyzed for frond morphology and other features. Site A, the most wave-exposed site, was dominated by Corallina sp. X, an unknown species, and sites B and C by Corallina pilulifera Postels et Ruprecht. At the different sites the populations differed in conceptacle abundance, coverage by epiphytic Titanoderma corallinae (P. Crouan et H. Crouan) Woelkerling, Chamberlain et Silva, amount of contained sediment, numbers of axes per quadrat, numbers of branch fusions, branch entanglement, frond dryweight, frond length, amount of adventitious branching, numbers of epiphytes (exclusive of T. corallinae), and numbers of animal species. Ninety-one animal species were recorded from the turfs. Corallina is affected morphologically by conditions inherent in its microhabitat, including desiccation, epiphyte loading and the abundance of herbivores.     

The Effect of Dietary Protein on the Renal Gluconeogenic Capacity of Rats

Kidney cortex slices and homogenates of rats fed a high protein diet for 7 to 14 days had higher gluconeogenic capacity from fructose or oxaloacetate and fructose 6-phosphate or fructose 1, 6-diphosphate, respectively, than those of rats fed a high carbohydrate diet containing adequate protein. Levels of gluconeogenic enzymes, especially glucose 6-phosphatase and phosphoenolpyruvate carboxykinase, are good indicators of an increased capacity of renal gluconeogenesis of rats fed the high protein diet. Activities of renal glycolytic enzymes and glutamic-oxaloacetic and glutamic-pyruvic transaminases did not change and citrate concentrations of rat kidney decreased by feeding the high protein diet. Urinary excretion of ammonia of rats fed the high protein diet increased.     

Enhanced intrarenal receptor-mediated prorenin activation in chronic progressive anti-thymocyte serum nephritis rats on high salt intake

Despite suppression of the circulating renin-angiotensin system (RAS), high salt intake (HSI) aggravates kidney injury in chronic kidney disease. To elucidate the effect of HSI on intrarenal RAS, we investigated the levels of intrarenal prorenin, renin, (pro)renin receptor (PRR), receptor-mediated prorenin activation, and ANG II in chronic anti-thymocyte serum (ATS) nephritic rats on HSI. Kidney fibrosis grew more severe in the nephritic rats on HSI than normal salt intake. Despite suppression of plasma renin and ANG II, marked increases in tubular prorenin and renin proteins without concomitant rises in renin mRNA, non-proteolytically activated prorenin, and ANG II were noted in the nephritic rats on HSI. Redistribution of PRR from the cytoplasm to the apical membrane, along with elevated non-proteolytically activated prorenin and ANG II, was observed in the collecting ducts and connecting tubules in the nephritic rats on HSI. Olmesartan decreased cortical prorenin, non-proteolytically activated prorenin and ANG II, and apical membranous PRR in the collecting ducts and connecting tubules, and attenuated the renal lesions. Cell surface trafficking of PRR was enhanced by ANG II and was suppressed by olmesartan in Madin-Darby canine kidney cells. These data suggest the involvement of the ANG II-dependent increase in apical membrane PRR in the augmentation of intrarenal binding of prorenin and renin, followed by nonproteolytic activation of prorenin, enhancement of renin catalytic activity, ANG II generation, and progression of kidney fibrosis in the nephritic rat kidneys on HSI. The origin of the increased tubular prorenin and renin remains to be clarified. Further studies measuring the urinary prorenin and renin are needed.     

Developmental Changes in the Amylose Content of Endosperm Starch of Barley (Hordeum vulgare L.) during the Grain Filling Period after Anthesis

Large and small starch granules were isolated and characterized from kernels of non-waxy (Bozu) and waxy (Yatomi mochi) barleys at their developmental stages of 8, 16, 28 and 40 days after flowering. The amylose content of the large and small granules of the non-waxy barley starch, as determined by the blue value and enzyme-chromatography, increased with the increasing age of the endosperm. Large granules of the non-waxy barley at any given developmental stage contained more amylose than small granules at the same stage, as in the case of mature non-waxy barley starches. Large granules of either the non-waxy or waxy barleys at any given developmental stage had a lower fraction III: fraction II ratio, one of the structural characteristics of amylopectin, than did small granules of the same cultivar at the same developmental stage. The amylose content in large granules of the waxy barley appeared to increase with the increasing age of the endosperm. The amylose content in small granules of the waxy barley at 8 days after flowering was 10%, although that at 16 and 28 days after flowering and at maturity was only 0~1%.     

Role of Glucose-6-phosphatase in Hepatic and Renal Gluconeogenesis

Comparison of the effects of a high fat and high protein diet on the capacity for glucose formation from pyruvate and glycerol was investigated in vivo and in vitro. Ratios of radioactivity incorporated from either pyruvate-3-¹⁴C or glycerol-l-¹⁴C into blood glucose to those into expired CO₂ were higher in both groups fed the high fat and the high protein diet than those in a group fed a high carbohydrate diet. Gluconeogenesis from pyruvate and glycerol by liver slices were both increased significantly in rats fed the high fat diet, while feeding the high protein diet caused increase of renal gluconeogenesis from pyruvate and glycerol. The activities of hepatic and renal glucose-6-phosphatase(s) were changed in a similar fashion to changes in hepatic and renal gluconeogenesis, respectively.

In addition, the response of the activity of hepatic glucose-6-phosphatase with high dietary fat was more rapid than that of the activity of renal glucose-6-phosphatase with high dietary protein. Furthermore, the intraperitoneal injection of actinomycin-D to rats resulted in decrease of the activities of renal glucose-6-phosphatase of both groups fed the high fat and the high protein diet, but no significant change of the activity of hepatic glucose-6-phosphatase was observed among dietary groups.

These findings suggested that the increases in the overall flow of metabolites towards glucose formation by feeding the high fat and the high protein diet might be based on the action of different mechanisms which regulate the activities of glucose-6-phosphatase(s) of the liver and kidney.     

Synthesis of l-Tyrosine or 3,4-Dihydroxyphenyl-l-alanine from Pyruvic Acid,Ammonia and Phenol or Pyrocatechol

The synthesis of l-tyrosine or 3,4-dihydroxyphenyl-l-alanine (l-dopa) from pyruvate, ammonia and phenol or pyrocatechol was studied with intact cells of Erwinia herbicola ATCC 21434 containing high tyrosine phenol lyase activity. By elemental analyses and determination of optical activity, the tyrosine or dopa synthesized was confirmed to be entirely of l-form. Maximum amount of l-tyrosine (60.5 g/liter) or l-dopa (58.5 g/liter) was formed using this enzymatic method by feeding sodium pyruvate and phenol or pyrocatechol. However, large amounts of by-products were formed in the l-dopa synthetic reaction mixture. By-products were proved to be formed from l-dopa and pyruvate by a nonenzymic reaction. pH and the temperature of reaction had intensive effects on the formation of by-products. A simple method using a boric acid-pyrocatechol complex was devised, as the feeding procedure of substrates was complicated.