Renal transport of organic acids and bases in genetically obese mice.

Accumulation of p-aminohippurate (PAH) and N-methylnicotinamide (NMN) by renal cortical slices was used to estimate transport capacity for organic anions and cations, respectively. In a previous study, renal organic anion transport appeared to be selectively depressed in animals rendered obese by high fat feeding. However, the effects of obesity could not be discretely separated from the effects of the 30% fat diet used to produce the obesity. Genetically obese hyperglycemic mice provided a model to determine the effect of obesity on renal transport systems without the complication due to diet. Accumulation of both PAH and NMN was depressed in renal cortical slices from genetically obese mice. Addition of plasma from thin or obese animals increased PAH accumulation by slices from thin animals. Accumulation by slices from obese animals was unaffected by addition of plasma. Oxygen consumption with acetate in the medium was less in kidneys from obese mice than kidneys from thin mice. Thus, in addition to inhibition of transport capacity, renal cortex of genetically obese mice has a biochemical defect that prevents response to stimulators. It is concluded that several renal functions are depressed in the genetically obese hyperglycemic mouse. Whether the depressed function results from the obesity or is concomitant with the gene for obesity is as yet undertermined.     

Pattern of aluminum-induced secretion of organic acids differs between rye and wheat

Al-Induced secretion of organic acids from the roots has been considered as a mechanism of Al tolerance, but the processes leading to the secretion of organic acids are still unknown. In this study, the secretion pattern and alteration in the metabolism of organic acids under Al stress were examined in rye (Secale cereale L. cv King) and wheat (Triticum aestivum L. cv Atlas 66). Al induced rapid secretion of malate in the wheat, but a lag (6 and 10 h for malic and citric acids, respectively) between the exposure to Al and the secretion of organic acids was observed in the rye. The activities of isocitrate dehydrogenase, phosphoenolpyruvate carboxylase, and malate dehydrogenase were not affected by Al in either plant. The activity of citrate synthase was increased by the exposure to Al in the rye, but not in the wheat. The secretion of malate was not suppressed at low temperature in the wheat, but that of citrate was stopped in the rye. The Al-induced secretion of citrate from roots of the rye was inhibited by the inhibitors of a citrate carrier, which transports citrate from the mitochondria to the cytoplasm. All of these results suggest that alteration in the metabolism of organic acids is involved in the Al-induced secretion of organic acids in rye, but only activation of an anion channel seems to be responsible for the rapid secretion of malate in the wheat.     

Effect of organic acids on the biosynthesis of carotenes by an Actinomyces chrysomallus strain

Synthesis of carotenes by Actinomyces chrysomallus var. carotenoides was stimulated by citric, acetic, oxalacetic, fumaric, succinic, malic, alpha-ketoglutaric, tartaric, pyruvic, and propionic acids. Acetic acid acts as a precursor of carotene synthesis and also has another stimulating mechanism of action on carotenogenesis of the actinomycete. Acetic, furmaric, malic, succinic, and alpha-ketoglutaric acids stimulate cyclization of lycopene yielding beta-carotene.     

Renal tubular actions of ANF.

Many of the earliest investigations of the renal effects of atrial natriuretic factor (ANF) pointed to the glomerulus as a major site of the peptide's action. More recently, there have been many reports showing various effects of ANF on renal tubular epithelia, including collecting ducts, thick ascending limbs of Henle's loop, thin limbs of Henle's loops, and proximal tubules. The purpose of this review is to summarize the evidence for renal tubular actions of ANF and analyze it from the perspective of the specialized functions of the individual nephron segments, addressing the question: can renal tubule effects of ANF play a significant role in the precise day-to-day regulation of renal NaCl and water excretion? Based on these considerations, we propose that long-term renal tubular action of ANF may be distinct from its short-term natriuretic effect. The short-term action of ANF to accelerate salt and water excretion may play a role in the overall response to acute volume overload. This action of ANF appears to be largely due to an ANF-mediated increase in glomerular filtration rate accompanied by a blunting of the tubuloglomerular feedback mechanism, perhaps with some contribution from ANF-mediated inhibition of fluid absorption in the proximal tubule. In contrast, contributions of ANF to the precise day-to-day regulation of salt and water excretion are likely to be chiefly due to ANF-mediated inhibition of NaCl and water absorption in collecting ducts, but may also involve actions of ANF on the loop of Henle.     

Renal excretion of chlorphenol red and related organic acids in the intact flounder Pseudopleuronectes americanus

Renal clearance experiments were performed on unanesthetized winter flounder from which bladder urine was collected continuously and caudal vein blood was sampled periodically; renal tissue was also obtained terminally for comparison of test organic acid content in vivo and after incubation in vitro. Urine flow rates and inulin U/P (urine to plasma concentration) ratios were relatively constant for a given fish and averaged 1.0 ml/hr X kg fish and 2.6, respectively. In contrast, U/P ratios for all three test acids cycled from minima of near 100 to maxima of over 1000 roughly every 24 hr when plasma concentrations of unbound acid were below 1 micron; correction of plasma protein binding was required in the case of chlorphenol red, but not PAH or Diodrast. Both in vivo and in vitro the organic acid content of renal tissue was intermediate between plasma and urine concentrations. These results demonstrate that kidneys of intact flounder exhibit the remarkable concentrative capacity for exogenous organic acids previously observed with isolated tubules and suggest that the tubular urine concentration is established in two steps by cell transport first at the peritubular and second at the luminal membrane. The anterior kidney position and the magnitude of maximal PAH and Diodrast clearances, about 1000 ml/hr X kg flounder, are consistent with most of the cardiac output returning to the heart through the renal portal circulation; a regulatory shunt bypassing the peritubular capillaries is proposed to explain cycling of organic acid clearances to minimal values.     

Regulatory aspects of cellulase biosynthesis and secretion

The cellulase enzyme system consists of cellobiohydrolase, endoglucanase, and beta-glucosidase and has been extensively studied with respect to its biosynthesis, properties, mode of action, application, and, most recently, secretion mechanisms. A knowledge of the factors governing the biosynthesis and secretion of these enzymes at the molecular level will be useful in maximizing enzyme productivity in extracellular fluid. Among other topics, the regulatory effects of sorbose (a noninducing sugar which is not a product of cellulose hydrolysis) on cellulase synthesis and release are described. Cellulase genes have recently been cloned into a number of microorganisms with a view to understanding the gene structure and expression and to obtaining the enzyme components in pure form. The factors governing biosynthesis and secretion of cellulases in recombinant cells are also discussed. Cellulases are known to be glycoproteins, therefore, the role of O- and N-linked glycosylation on enzyme stability and secretion is also detailed.     

Aeration conditions in the process of tetracycline biosynthesis. The role of organic acids]

The effect of the aeration conditions on the content of volatile acids in the fermentation broth was studied. It was shown that deterioration of the aeration conditions during the process of biosynthesis in both flasks and 750 1 fermentors resulted in decreased levels of the antibiotic accumulation and was accompanied by a simultaneous increase in the concentration of the volatile acids in the culture fluid. Under unfavourable aeration conditions the volatile acids present in the fermentation broth in higher concentrations than under the optimal conditions had no effect. It was shown that the volatile acid concentration may be used as a parameter for the control of the aeration conditions and as an index of normal biosynthetic process.     

Colonic absorption and secretion of fluids, electrolytes and organic acids in East African wild ruminants

In sixteen species of wild ruminants colonic absorption of fluids averaged 48% of the fluids entering the large bowel. Values ranged from 26% (steenbok) to 65% (gerenuk). Absorption of sodium, potassium, chloride and organic acids were variable between species. Colonic absorption of potassium ions were found to be related to diet selection and body weight of the animals. colonic absorption of volatile fatty acids were significantly greater in browsers (28.4 mmol/l) than grazers (9.6 mmol/l). The African buffalo are the only species of wild ruminants not forming a faecal pellet; colonic functions were not different from those species forming faecal pellets.     

Influence of amino acids and organic antimetabolites on growth and biosynthesis of the chemoautotroph Thiobacillus neapolitanus strain C

Summary The growth of Thiobacillus neapolitanus strain C in liquid cultures was depressed by phenylalanine, p-fluorophenylalanine, cysteine, methionine, nor-leucine, azetidine-2-carboxylic acid, and chloramphenicol, but was little affected by glutamic acid, glycine, proline, azathymine, or oligomycin.Growing cultures assimilated ¹⁴C-labelled glycine, glutamic acid, phenylalanine, and tyrosine into protein. Tyrosine and phenylalamine were incorporated unchanged, but glutamate was used also for synthesis of arginine and proline. Glycine-¹⁴C contributed also to adenine and guanine synthesis. The extremely large amounts of phenylalanine incorporated into protein could indicate its toxicity to depend on its producing abnormal protein synthesis. Azetidine-2-carboxylic acid appeared to lower the amount of proline in the protein.Assimilation of glutamate and glycine by non-growing organisms was almost entirely dependent on energy from thiosulphate oxidation, thus suggesting a cause of obligate chemoautotrophy. Chloramphenicol specifically inhibited this thiosulphate-dependent incorporation of glutamate, glycine or CO₂ into protein at concentrations which did not affect total CO₂-fixation. Provided that energy is available from thiosulphate-oxidation this Thiobacillus is thus able to (a) activate exogenous amino acids; (b) incorporate them and CO₂ into protein by a chloramphenicol sensitive mechanism; (c) synthesise proline and arginine from glutamate; or adenine and guanine from glycine. Its biosynthesis thus depends on mechanisms like those of heterotrophs but requires to be driven by a chemolithotrophic energy supply.