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The property of the neuronal membrane to be permeable to metabolic modifiers of two regulatory enzymes has been utilized to manipulate the spike activity of inspiratory (I) and expiratory-inspiratory (EI) neurons of the bulbar respiratory centre. The neurons have been classified according to their response to lung distention or collapse (alpha- or beta-type) and to hyperventilation (tonic firing denoted by "+", cessation of activity by "-"). Using extracellular microelectrodes for single unit recording, the medulla oblongata was superfused with a metabolite-containing CSF. The various neuronal sub-types exhibited a differential activating or inhibitory response to one or several metabolic effectors. For example Ialpha+ units were activated by 5 mM glucose-6-phosphatase (G-6-P) and 3.5 mM 3-phosphoglycerate (3-PGA), which both inhibited Ibeta+ neurons, while 5 mM AMP inhibited Ialpha+ much more strongly than Ibeta+ cells. The spike density of Ialpha- and Ibeta- neurons was increased in the presence of 2.5 mM fructose-6-phosphate and 3.5--5 mM AMP, but became reduced by G-6-P. In contrast, 3 mM fructose-1,6-diphosphate and 5 mM 3-PGA activated the Ialpha- but inhibited the Ibeta- neurons. The EIbeta units were characteristically activated by 10 mM citrate, which inhibited all I-type neurons. Activations of the Ialpha and Ibeta neurons led to an accelerated respiratory rate and a higher tidal volume, while the opposite was true for EIbeta neurons. Intravenous injection of metabolites could not duplicate the striking effects under local applications.
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PMID:Metabolic control of respiratory neuronal activity and the accompanying changes in breathing movements of the rabbit. 1. Mainpulation of inspiratory and expiratory-inspiratory neurons. 18 80

Expiratory-related neurons have been classified according to their phase relation within the respiratory cycle, their response to lung distension and collapse (alpha- and beta-type), and to hyperventilation (tonic firing denoted by "+", cessation of activity by "-"). The dorsal surface of the medulla oblongata was superfused with a metabolite-containing CSF solution and the activity of expiratory (E) and inspiratory-expiratory (IE) neurons was extracellulary recorded. The neuronal sub-types established by their functional behaviour could equally be distinguished by their differential response to one or several metabolites. In contrast to inspiratory (I) neurons, Ealpha- Ebeta-, Ebeta- and IEbeta- neurons are inhibited by 3.5 mM AMP, but are activated by 10 mM citrate (with the exception of Ebeta+ units). Furthermore I cells are activated by ATP, while Ealpha and Ebeta units become inhibited. Vagotomy in some instances affected the response of some IEbeta units. An increase in spike density of IEbeta+ and Ealpha- cells is paralleled by a reduction of both the respiratory rate and the tidal volume, while a lower spike density in IEbeta+, IEbeta- and Ealpha- units is accompanied by increases in respiratory rate and tidal volume. In the case of Ebeta+ and Ebeta- cells lower activity is associated with an increased tidal volume. No metabolite-induced changes could be obtained with cardiovascular or unspecific reticular neurons.
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PMID:Metabolic control of respiratory neuronal activity and the accompanying changey-expiratory neurons. 18 81

Rat mammary (Rama 25) and dog kidney (MDCK) epithelial cell cultures formed 'domes' of cells due to fluid accumulation in focal regions between the culture dish and the cell monolayer. Addition of ouabain caused collapse of domes, suggesting that transport functions were required for maintenance of domes. Dome formation in both epithelial cell lines was stimulated by a broad spectrum of known inducers of erythroid differentiation in Fried erythroleukemia cells. Among these inducers were: 1) polar solvents such as dimethyl-sulfoxide, dimethylformamide, and hexamethylene bisacetamide; 2) purines such as hypoxanthine, inosine, and adenosine; 3) low-molecular-weight fatty acids such as n-butyrate; and 4) conditions expected to elevate levels of cyclic AMP. In the latter group were activators of adenylate cyclase such as cholera toxin and prostaglandin E 1; cyclic AMP phosphodiesterase inhibitors such as theophylline and 1-methyl-3-isobutylxanthine; and analogs of cyclic AMP. Induction of domes occurred 15--30 h after addition of inducer to the culture medium. Induction by chemicals was serum-dependent and required protein synthesis but not DNA synthesis. Induced dome formation was reversible after removal of inducer, requiring the continuous presence of inducer. Reversal was also observed after either either removal of serum or addition of inhibitors of protein synthesis. These results suggest that hypothesis that domes arise in these epithelial cultures by a process that is similar to cell differentiation and is influenced by cyclic AMP.
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PMID:Regulation of dome formation in differentiated epithelial cell cultures. 23 29

The presence of chloride conductance in basolateral membranes of proximal tubule is controversial. We measured 36Cl uptake in basolateral membranes loaded with KCl and suspended in a K(+)-free solution to create a positive intravesicular potential difference. Under these conditions, 36Cl uptake was maximal at 1 min, remained stable for at least 10 min and decreased to equilibrium levels by 60-120 min. Collapse of the voltage by valinomycin decreased 36Cl uptake by 46%, indicating the presence of K(+)-gradient-dependent chloride uptake. The chloride channel inhibitor diphenylamine-2-carboxylic acid inhibited 36Cl uptake in a dose-dependent fashion. 36Cl uptake was inhibited equally by unlabeled chloride, iodide and nitrate but not by sulfate or gluconate, indicating that the basolateral anion conductance is relatively selective. 36Cl uptake was pH independent but was calcium dependent. Phosphorylation of basolateral membranes with ATP significantly decreased 36Cl uptake, but the inhibitory effect of ATP was not further altered by exogenous cyclic AMP or the active phorbol ester PMA. These data demonstrate the presence of a relatively selective basolateral anion conductance which is regulated by pH, calcium and ATP.
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PMID:Anion channel in basolateral cortical membranes of the rabbit kidney. 133 46

The impacts of energy-yielding substrates on coronary flow autoregulation, cytoplasmic phosphorylation potential ([ATP]/([ADP][Pi])] and purine nucleoside production were studied in Langendorff-perfused guinea pig hearts. The perfusion medium was substrate-free or contained glucose alone or in combination with pyruvate, lactate, acetate, or octanoate as fatty acid. When coronary flow was adjusted for myocardial oxygen consumption, only pyruvate supported near-perfect intrinsic autoregulation at highly sustained [ATP]/([ADP][Pi]) and low interstitial adenosine concentrations ([Ado]). In contrast, hearts perfused with substrate-free medium were deenergized at very high [Ado], especially at supraphysiological pressures, which markedly impaired auto-regulatory vasoconstriction. Thus, efficient autoregulatory vasoconstriction was associated with high [ATP]/([ADP][Pi]) at low [Ado]. On the other hand, autoregulatory vasodilation at subphysiological pressures was associated with increased [Ado] and partially blocked by 28 microM theophylline demonstrating (partial) adenosine mediation. Massive accumulation of IMP, especially relative to free cytoplasmic AMP, occurred at normal intracellular pH during myocyte deenergization by substrate-free perfusion. This may indicate allosteric activation of native AMP deaminase in situ, perhaps because of collapse of [ATP]/([ADP][Pi]). Similarly, rates of adenosine plus inosine release and of total purines, also including urate, exhibited non-linear sigmoidal rather than linear or rectangular hyperbolic dependences on free cytoplasmic AMP concentration (not total AMP content). Since inclusion of IMP as a co-variable of free AMP appreciably improved the sigmoidal fits, IMP appeared to be a significant precursor of released inosine in guinea pig heart.
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PMID:Coronary autoregulation and purine release in normoxic heart at various cytoplasmic phosphorylation potentials: disparate effects of adenosine. 152 16

Studies on sphingomyelin metabolism in rat hepatocytes were facilitated by the use of choline-deficient cells which allowed for the rapid labeling of phosphatidylcholine and as a result sphingomyelin. Pulse and pulse-chase studies with [methyl-3H]choline and [methyl-3H]methionine demonstrated that both compounds were effectively used for sphingomyelin biosynthesis and that newly made and pre-existing phosphatidylcholine could be used for sphingomyelin biosynthesis. When hepatocytes were incubated with brefeldin A, there was a 2.4-fold stimulation of the conversion of phosphatidylcholine into sphingomyelin. Since brefeldin A causes collapse of the cis/medial Golgi into the endoplasmic reticulum the stimulation of sphingomyelin biosynthesis could be due to more rapid access of the labeled phosphatidylcholine in the endoplasmic reticulum to sphingomyelin synthase in the collapsed Golgi. Forskolin inhibited the brefeldin A-induced stimulation of sphingomyelin biosynthesis. To investigate whether or not phosphorylation reactions regulate sphingomyelin metabolism, hepatocytes were incubated with okadaic acid, a potent inhibitor of protein phosphatases 1 and 2A. Rather than stimulating sphingomyelin biosynthesis, okadaic acid enhanced the catabolism of sphingomyelin. In contrast, a cyclic AMP analogue and forskolin had no effect on sphingomyelin biosynthesis or catabolism. Surprisingly, other pulse-chase studies demonstrated that okadaic acid stimulated the catabolism of only newly made sphingomyelin. The brefeldin A and okadaic acid effects were independent of lysosomal involvement. Subcellular fractionation studies revealed that brefeldin A and okadaic acid effects were generalized in all sphingomyelin containing membranes. The brefeldin A studies suggest that the rate of transfer of phosphatidylcholine from the endoplasmic reticulum to the Golgi might be limiting for sphingomyelin biosynthesis. The okadaic acid studies indicate that the catabolism of sphingomyelin by a sphingomyelinase is regulated by an unidentified protein kinase and by either protein phosphatase 1 and/or 2A activity in hepatocytes.
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PMID:Stimulation of sphingomyelin biosynthesis by brefeldin A and sphingomyelin breakdown by okadaic acid treatment of rat hepatocytes. 161 52

1. Single smooth muscle cells were isolated intact from the stomach of the toad Bufo marinus. The relaxation of cells following cessation of electrical stimulation was compared with those relaxed by pressure microinjection of either metal ion chelators or cyclic nucleotides. 2. Injection of either a Ca2+ chelator or 3',5'-cyclic AMP slowed or halted shortening and promoted re-extension of a cell or collapse of membrane evaginations (blebs) in a manner similar to that following cessation of electrical stimulation. Collapse of blebs occurred first and was then followed smoothly by the next stage with cells re-extending at maximum rates in one of three ranges at 22 degrees C. These rates, in order of increasing speed, were 0.005, 0.009 and 0.03 cell lengths s-1 after electrical stimulation, 3',5'-cyclic AMP and EDTA injection, respectively. On the other hand, shortening began at a maximum rate of about 0.1 cell lengths s-1 unless a Ca2+ chelator or 3',5'-cyclic AMP was injected about 30 s or less before electrical stimulation. Injection of these agents reduced the speed of shortening by about half. 3. Injection of a liquid per se (e.g. 140 mM-KCl) neither altered action potentials nor duplicated the changes produced by the aforementioned relaxing agents. Large, sustained injections of substances that were not relaxing agents (e.g. dilute KCl) ruptured the membrane without producing any bleb collapse or re-extension of a contracted cell. Blebs not only collapsed rapidly when a relaxing agent was injected but bleb collapse was a much more sensitive indication of relaxation than cell re-extension; small injections of relaxing agents could clearly collapse blebs with no associated measurable change in cell length. This supports the idea previously inferred from fixed or permeabilized cells, that filaments in smooth muscle are organized to produce force over short distances at points along the cell membrane, in addition to shortening along the long axis. 4. Physiological relaxation of smooth muscle can evidently be mimicked by 3',5'-cyclic AMP elevation. Restoring forces may develop during shortening of isolated smooth muscle cells in elements of their cytoskeleton, surface membrane, or contractile filaments. However, these putative forces may not be able to produce physiological re-extension in the absence of a rise in cyclic AMP and/or a fall in [Ca2+].
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PMID:Effects of putative modulators of relaxation microinjected into intact amphibian smooth muscle cells. 166 60

The results presented here demonstrate that an elevation in the cellular levels of cyclic AMP (cAMP) increases the phosphorylation of an Mr = 58,000 cellular protein in quiescent cultures of Swiss 3T3 cells. The enhancement of 32Pi incorporation into the Mr 58,000 cellular protein was detected as early as 1 min and reached a maximum after 20 min of treatment. The role of cAMP in the phosphorylation of Mr = 58,000 protein is substantiated by the following lines of evidence: a) a variety of agents that cause cAMP accumulation in 3T3 cells, including cholera toxin, 5'-N-ethylcarboxamideadenosine (NECA), PGE1, and 3-isobutyl-1-methyl-xanthine (IBMX) increased the phosphorylation of the same Mr 58,000 cellular protein as demonstrated by peptide mapping; b) inhibitors of cyclic nucleotide phosphodiesterase potentiated the ability of low concentrations of the adenylate cyclase activators NECA, PGE1, and forskolin to increase Mr 58,000 phosphorylation; and c) permeable derivatives of cAMP such as 8BrcAMP were also effective and specific in promoting Mr 58,000 phosphorylation. Detergent extraction, immunoblotting, and immunoprecipitation identified the Mr = 58,000 phosphoprotein as vimentin, the main protein subunit of the intermediate filaments of mesenchymal cells including Swiss 3T3 cells. Studies with intact 3T3 cells revealed that an increase in the intracellular level of cAMP induced a marked redistribution and collapse of the intermediate filaments. These results raise the possibility that an intact intermediate filament network may restrict the reinitiation of DNA synthesis.
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PMID:Cyclic AMP increasing agents rapidly stimulate vimentin phosphorylation in quiescent cultures of Swiss 3T3 cells. 246 73

Isolated rat hepatocytes were incubated with ATP to induce high intracellular free Ca2+ concentrations as determined with the Quin-2 method. Immediately after addition of ATP, the intracellular concentration of Ca2+ rose from 200 nM to more than 2.5 microM. It stayed at this value during the first 1/2 h; the rise was absolutely dependent on extracellular Ca2+. After the first 1/2 h the Ca2+ concentration decreased to 1-2 microM (5-10 times the control value). These high intracellular free Ca2+ concentrations did not lead to an immediate loss of cell viability. Only after 2 h of incubation a substantial number of cells lost viability. This was preceded by a decrease in cellular NADH (greater than 40%) and accompanied by a sharp increase in the intracellular Ca2+ concentration. Under these conditions the NADPH concentration was not affected. Cellular GSH was decreased to 30% of the initial value, but no lipid peroxidation or protein-thiol depletion was observed. Intracellular ATP, ADP and AMP were increased in the presence of extracellular ATP. Ca2+-dependent proteases seemed not to be involved in cell death. These observations are consistent with a collapse of mitochondrial functions as a final trigger of cell death.
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PMID:Prolonged high intracellular free calcium concentrations induced by ATP are not immediately cytotoxic in isolated rat hepatocytes. Changes in biochemical parameters implicated in cell toxicity. 259 7

Haemorrhagic shock was induced in anaesthetized, open-chest dogs by controlled arterial bleeding, sufficient to reduce and maintain mean arterial blood pressure at 40 mmHg for 30 min. The blood volume was then restored to the pre-shock level by rapid, intravenous reinfusion of the blood shed during the shock period. Haemorrhagic shock produced significant haemodynamic changes, characterized by a marked depression of myocardial function. Cardiac output (1226 +/- 57 ml min-1), peak aortic blood flow (6030 +/- 383 ml min-1) and maximum rate of rise of left ventricular pressure (2708 +/- 264 mmHg s-1) were all reduced by more than 50%. The haemodynamic profile was markedly improved by reinfusion of shed blood but this improvement was not sustained. There was a gradual decline such that 50% of the untreated animals suffered complete circulatory collapse and death between 60 and 120 min following reinfusion. Neither haemorrhagic shock, nor reinfusion of shed blood produced any consistent or significant changes in the myocardial adenine nucleotide pool. The ATP, ADP and AMP levels were, respectively, 25.9 +/- 4.2; 15.6 +/- 1.0; 4.3 +/- 1.9 nmol g-1 protein, before haemorrhagic shock; 21.6 +/- 3.4; 21.5 +/- 2.5; 10.2 +/- 2.7 nmol g-1 protein, after 30 min haemorrhagic shock; and 29.9 +/- 3.9; 16.5 +/- 1.2; 4.2 +/- 1.1 nmol g-1 protein, 60 min following reinfusion of shed blood. Pretreatment with allopurinol (50.0 mg kg-1 i.v.), 60 min before inducing haemorrhagic shock, had no significant effect upon the haemodynamic response to shock, but did prevent the gradual decline seen following reinfusion in the untreated animals. All of the allopurinol-treated animals displayed significantly better haemodynamic profiles than the untreated animals, furthermore, there was a 100% survival rate in this group. 5 Allopurinol had no significant effect upon the myocardial adenine nucleotide pool either during haemorrhagic shock or following reinfusion of shed blood.
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PMID:The protective action of allopurinol in an experimental model of haemorrhagic shock and reperfusion. 380 69


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