Cytochemical localization of Na+-K+-ATPase in rat type II pneumocytes

The distribution of sodium-potassium-activated adenosinetriphosphatase (Na+-K+-ATPase) in the alveolar portion of rat lungs was examined by indirect immunofluorescence with the use of a mouse monoclonal anti-rat Na+-K+-ATPase and by ultrastructural cytochemistry using p-nitrophenylphosphate as substrate. The reaction was inhibitable by 10 mM ouabain or by the omission of K+ from the reaction mixture. Cysteine or levamisole was used to inhibit alkaline phosphatase activity. By immunofluorescence, staining was confined to cuboidal cells in alveolar spaces. These were tentatively identified as type II pneumocytes. By ultrastructural cytochemistry reaction product was present on the cytoplasmic side of the basolateral membranes of type II pneumocytes. No reaction product was observed in type I pneumocytes or in endothelium. These results indicate that type II pneumocytes contain more Na+-K+-ATPase, an enzyme important in vectorial electrolyte transport, than type I pneumocytes or endothelial cells. More sensitive methods, however, are required to determine the amounts and distribution of this enzyme in type I pneumocytes and pulmonary vascular endothelial cells.     

Specificity of Collybistin-Phosphoinositide Interactions: IMPACT OF THE INDIVIDUAL PROTEIN DOMAINS*

The regulatory protein collybistin (CB) recruits the receptor-scaffolding protein gephyrin to mammalian inhibitory glycinergic and GABAergic postsynaptic membranes in nerve cells. CB is tethered to the membrane via phosphoinositides. We developed an in vitro assay based on solid-supported 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine membranes doped with different phosphoinositides on silicon/silicon dioxide substrates to quantify the binding of various CB2 constructs using reflectometric interference spectroscopy. Based on adsorption isotherms, we obtained dissociation constants and binding capacities of the membranes. Our results show that full-length CB2 harboring the N-terminal Src homology 3 (SH3) domain (CB2_SH3+) adopts a closed and autoinhibited conformation that largely prevents membrane binding. This autoinhibition is relieved upon introduction of the W24A/E262A mutation, which conformationally “opens” CB2_SH3+ and allows the pleckstrin homology domain to properly bind lipids depending on the phosphoinositide species with a preference for phosphatidylinositol 3-monophosphate and phosphatidylinositol 4-monophosphate. This type of membrane tethering under the control of the release of the SH3 domain of CB is essential for regulating gephyrin clustering.     

Carbohydrate ingestion and muscle glycogen depletion during marathon and ultramarathon racing

Two studies were undertaken to characterize the effects of carbohydrate ingestion on fuel/hormone response to exercise and muscle glycogen utilization during prolonged competitive exercise. In study 1, eighteen subjects were divided into three groups, matched for maximum oxygen consumption (VO2max) and blood lactate turnpoint. All subjects underwent a 3-day carbohydrate (CHO) depletion phase, followed by 3 days of CHO loading (500-600 g.day-1). During the race, the groups drank either 2% glucose (G), 8% glucose polymer (GP), or 8% fructose (F). Muscle biopsies were performed before and after the race and venous blood was sampled before and at regular intervals during the race. In study 2, eighteen subjects divided into 2 matched groups ingested either a 4% G or 10% GP solution during a 56 km race. Despite significantly greater CHO ingestion by GP and F in study 1 and by GP in study 2, blood glucose, free fatty acids and insulin concentrations, muscle glycogen utilization and running performance were not different between groups. These studies show (i) that hypoglycaemia is uncommon in athletes competing in races of up to 56 km provided they CHO-load before and ingest a minimum of 10 g CHO.h-1 during competition; (ii) that neither the amount (10 g vs 40 g.h-1) nor the type of carbohydrate (G vs GP vs F) has any effect on the extent of muscle glycogen depletion or running performance in matched subjects racing over distances up to 56 km.     

Interaction of plasma proteins with negatively charged sites on the pulmonary capillary endothelium of the rat

Summary The endothelial glycocalyx, a polyanionic structure which may regulate the passage of solutes and water through the endothelium, readily binds cationic ferritin (CF). In normal, nonexchange-transfused rats, however, only 7.5% and 6.0% of the luminal plasma membrane and 7.5% and 5.0% of vesicle diaphragms on the thick and thin side of pulmonary capillaries, respectively, bound cationic ferritin. With the graded removal of circulating proteins by exchange transfusion with fluorocarbon emulsion, up to 89 and 82% of the luminal surface, and 76 and 73% of vesicle diaphragms on the thick and thin sides, respectively, bound CF. Although the extent of binding on the thin side was consistently less than on the thick side, the difference was not statistically significant. The extensive binding of CF to the glycocalyx in totally exchange-transfused rats was completely reversible upon addition of lyophilized rat serum protein to the perfusate. These data suggest that in vivo anionic sites of the endothelial glycocalyx are partially masked by adsorbed plasma proteins.     

Inhibition of adenine nucleotide synthesis: effect on tight junction structure and function of clone 4 MDCK cells.

The formation and maintenance of tight junctions as a barrier to the diffusion of ions and other water-soluble across epithelia is an energy-dependent process. The administration of N-formyl-hydroxyaminoacetic acid (Hadacidin), an analog of aspartate and a competitive inhibitor of adenylosuccinate synthetase, has been shown to inhibit the multiplication of clone 4 MDCK cells and concomitantly reduce the levels of ATP and cAMP (J. Cell. Physiol. 140, 186-194 (1989)). When added to mitotically quiescent confluent cultures of clone 4 MDCK cells, millimolar concentrations of Hadacidin inhibited the generation of transepithelial electrical resistance (TER). In such cultures passive Na+ permeability was similar to controls indicating that the effect of Hadacidin was not on the transcellular pathway. That these cells were viable was demonstrated by their ability to exclude Trypan Blue, and the fact that they remained competent to develop steady state TER upon removal of the inhibitor. Suppression of TER was completely reversed within 48 h of replacing the Hadacidin-supplemented medium with one containing aspartate. Adenosine, but not aspartate, when added simultaneously with the drug, obviated the latter's effect on TER. A mixture of dibutyryl cAMP (db-cAMP) and theophylline was only partially effective in overcoming the effects of Hadacidin on the development of TER and, in fact, markedly delayed its development in control cultures not treated with the drug. When monolayers with established steady state TER were exposed to Hadacidin, no change was noted during the first 24 h. By 48 h, however, TER had decreased to very low values.(ABSTRACT TRUNCATED AT 250 WORDS)     

A highly repeated DNA sequence in Arabidopsis thaliana

Summary Three members of a family of highly repeated DNA sequences from Arabidopsis thaliana have been cloned and characterized. The repeat unit has an average length of 180 bp and is tandemly repeated in arrays longer than 50 kb. This family represents more than one percent of the Arabidopsis genome. Sequence comparisons with tandemly repeated DNA sequences from other Cruciferae species show several regions of homology and a similar length of the repeat unit. Homologies are also found to highly repeated sequences from other plant species. When the sequence CCGG occurs in the repeated DNA, the inner cytosine is generally methylated.     

THE INFLUENCE OF INTRAVASCULAR FLUID VOLUME ON THE PERMEABILITY OF NEWBORN AND ADULT MOUSE LUNGS TO ULTRASTRUCTURAL PROTEIN TRACERS

The permeability of the alveolar-capillary membrane of newborn and adult mice to horseradish peroxidase (HRP) and catalase was studied by means of ultrastructural cytochemistry, and the permeability to ferritin was studied by electron microscopy. The influence of varying volumes of intravenously injected fluid on the rate of leakage of the tracers from pulmonary capillaries was examined. The tracers were injected intravenously and the mice were sacrificed at timed intervals. Experiments on newborn mice with intranasally instilled HRP were also done. The tissues were fixed in formaldehyde-glutaraldehyde fixative. Chopped sections were incubated in Graham and Karnovsky's medium for peroxidase and in a modification of this medium for catalase. Tissues were postfixed in OsO₄ and processed for electron microscopy. In both newborn and adult mice, the ready passage of peroxidase through endothelial clefts was dependent on the injection of the tracer in large volumes of saline. When the tracer was injected in small volumes of saline, its passage through endothelial clefts was greatly reduced. Endothelial junctions of newborn mice were somewhat more permeable to HRP than those of adult mice. In all animals, alveolar epithelial junctions were impermeable to HRP. Catalase and ferritin did not pass through endothelial junctions. Intranasally instilled HRP in newborn mice was taken up by pinocytotic vesicles and tubules of flat alveolar cells.     

The aux1 Mutation of Arabidopsis Confers Both Auxin and Ethylene Resistance

Mutagenized populations of Arabidopsis thaliana seedlings were screened for plants capable of root growth on inhibitory concentrations of the ethylene precursor 1-aminocyclopropane-1-carboxylic acid. Four of the mutant lines recovered from this screen display a defect in root gravitropism as well as hormone resistance. The aerial portions of these plants are similar to wild-type in appearance. Genetic analysis of these four mutants demonstrated that hormone resistance segregated as a recessive trait and that all four mutations were alleles of the auxin-resistant mutation aux1 [Maher HP, Martindale SJB (1980) Biochem Genet 18: 1041-1053]. These new mutants have been designated aux1-7, 1-12, 1-15, and 1-19. The sensitivity of wild-type and aux1-7 roots to indole-3-acetic acid, 2,4-dichlorophenoxyacetic acid, and ethylene was determined. The results of these assays show that aux1-7 plants require a 12-fold (indole-3-acetic acid) or 18-fold (2,4-dichlorophenoxyacetic acid) higher concentration of auxin than wild-type for a 50% inhibition of root growth. In addition, ethylene inhibition of root growth in aux1-7 plants is approximately 30% that of wild-type at saturating ethylene concentrations. These results indicate that aux1 plants are resistant to both auxin and ethylene. We have also determined the effect of ethylene treatment on chlorophyll loss and peroxidase activity in the leaves of aux1 and wild-type plants. No difference between mutant and wild-type plants was observed in these experiments, indicating that hormone resistance in aux1 plants may be limited to root growth. Our studies suggest that the AUX1 gene may have a specific function in the hormonal regulation of gravitropism.     

Induction of apoptosis by protein kinase C pseudosubstrate lipopeptides in several human cells

Intracellular enzymes or receptors are interesting targets for thepharmacomodulation of cellular metabolism. We have previously shown thatmodification of relatively long peptides by a palmitoyl-lysine residue couldfacilitate their delivery into the cytoplasm of living cells. Severalpeptides containing pseudosubstrate sequences of protein kinase C (PKC) havebeen evaluated for their ability to modulate phosphorylation of modelsubstrate, neuronal morphology or tumor necrosis factor secretion. In thiswork we have evaluated the effect of palmitoyl-modified PKC-pseudosubstratepeptides on induction of apoptosis. We have established that these peptidesare able to induce apoptosis in different human cell types (primaryfibroblasts, T- and B-lymphocyte cell lines) as assessed by (terminal deoxynucleotidyl transferase dUTP nick-end labelling) and DNAfragmentation. In contrast, control peptides (non-lipidicPKC-pseudosubstrate peptides and irrelevant lipopeptides) had no or littleeffect on programmed cell death. This work highlights the pharmacologicalinterest of lipopeptides and argues in favor of the potential role of PKC(s)in the cell death machinery.