Single chloride-permeable channels of large conductance in cultured cardiac cells of new-born rats

Large conductance channels were observed in the membrane of cultured cardiac cells of newborn rats studied with the patch-clamp technique in cell-attached and inside-out configurations. These channels were observed in 4% of the patches. In the cell-attached configuration they exhibited outward rectification and partial inactivation. In the inside-out configuration no rectification occurred but inactivation was present, mainly during hyperpolarizations. Two channels with large single unit conductances (400–450 pS) and one with a smaller conductance (200–250 pS) were frequently observed in the same patch. The two large channels generally had different kinetics. Under steady-state conditions the opening probability of the faster channel appeared to be voltage-independent. The slower channel was activated by depolarization. In asymmetrical solutions the permeability ratios P _Na/P _Cl were 0.03 and 0.24 for the larger and smaller channels, respectively; corresponding values for P _Ba/P _Cl were 0.04 and 0.09. It is proposed that in cardiac membranes the chloride permeability system is composed of widely dispersed microclusters forming grouped channels of different types and sizes.     

In vivo P-31 NMR measurements of phosphate metabolism in Platymonas subcordiformis as related to external pH

The phosphate metabolism of Platymonas subcordiformis was investigated by 31P-NMR spectroscopy with special attention on the effect of external pH. Glycolyzing cells and cells energized by respiration or photosynthesis gave spectra dependent upon their metabolic state. The transition from deenergized to energized states is accompanied by a shift of cytoplasmic pH from 7.1–7.4, an increase of ATP level and-in well energized cells-the appearance of a new signal tentatively assigned to phosphoarginine.The spectra remain stable over a wide range of external pH. Cytoplasmic pH is well regulated in respiring cells for external pH in the range 5.3–12.3. The typical 0.4 units difference of internal pH in energized as compared to deenergized cells is not affected by external pH in the range 6–12. The intensity of a signal attributed to PEP is markedly increased at high external pH. pH regulation is less efficient below external pH of 6 in deenergized cells. Below pH 3.8 oxidative phosphorylation ceases. Upon raising cytoplasmic pH to 7.4 in deenergized cells polyphosphate chains start to disintegrate.Abbreviations PEP Phosphoenolpyruyate - P _i inorganic phosphate - PP _i inorganic pyrophosphate - poly P polyphosphates - PP-1, PP-2, PP-3 terminal, second, and third phosphate residue of polyphosphates - PP-4 core phosphate residues of polyphosphates - pH _i , pH _o internal (cytoplasmic) and external pH - NTP/NDP nucleotide triphosphate/-diphosphate - S/N signal to noise ratio     

Patch-clamp study of isolated taste receptor cells of the frog

Summary Taste discs were dissected from the tongue ofR. ridibunda and their cells dissociated by a collagenase/low Ca/mechanical agitation protocol. The resulting cell suspension contained globular epithelial cells and, in smaller number, taste receptor cells. These were identified by staining properties and by their preserved apical process, the tip of which often remained attached to an epithelial (associated) cell. When the patch pipette contained 110mm KCl and the cells were superfused with NaCl Ringer's during whole-cell recording, the mean zero-current potential of 22 taste receptor cells was –65.2 mV and the slope resistance 150 to 750 M. Pulse-depolarization from a holding voltage of –80 mV activated a transient TTX-blockable inward Na current. Activation became noticeable at –25 mV and was half-maximal at –8 mV. Steady-state inactivation was half-maximal at –67 mV and complete at –50 mV. Peak Na current averaged –0.5 nA/cell. The Ca-ionophore A23187 shifted the activation and inactivation curve to more negative voltages. Similar shifts occurred when the pipette Ca was raised. External Ni (5mm) shifted the activation curve towards positive voltages by 10 mV. Pulse depolarization also activated outward K currents. Activation was slower than that of Na current and inactivation slower still. External TEA (7.5mm) and 4-aminopyridine (1mm) did not block, but 5mm Ba blocked the K currents. K-tail currents were seen on termination of depolarizing voltage pulses. A23187 shifted theI _K(V)-curve to more negative voltages. Action potentials were recorded when passing pulses of depolarizing outward current. Of the frog gustatory stimulants, 10mm Ca caused a reversible 5-to 10-mV depolarization in the current-clamp mode. Quinine (0.1mm, bitter) produced a reversible depolarization accompanied by a full block of Na current and, with slower time-course, a partial block of K currents. Cyclic AMP (5mm in the external solution or 0.5 m in the pipette) caused reversible depolarization (to –40 to –20 mV) due to partial blockage of K currents, but only if ATP was added to the pipette solution. Similar responses were elicited by stimulating the adenylate cyclase with forskolin. Blockage of cAMP-phosphodiesterase enhanced the response to cAMP. These results suggest that cAMP may be one of the cytosolic messengers in taste receptor cells. Replacement of ATP by AMP-PNP in the pipette abolished the depolarizing response to cAMP. Inclusion of ATP--S in the pipette caused slow depolarization to –40 to –20 mV, due to partial blockage of K currents. Subsequently, cAMP was without effect. The remaining K currents were blockable by Ba. These results suggest that cAMP initiates phosphorylation of one set of K channels to a nonconducting conformation.     

Effects of reagents modifying carboxyl groups on the gating current of the myelinated nerve fiber

Summary K⁺ channels in inside-out patches from hamster insulin tumor (HIT) cells were studied using the patch-clamp technique. HIT cells provide a convenient system for the study of ion channels and insulin secretion. They are easy to culture, form gigaohm seals readily and secrete insulin in response to glucose. The properties of the cells changed with the passage number. For cell passage numbers 48 to 56, five different K⁺-selective channels ranging from 15 to 211 pS in symmetrical 140mm KCl solutions were distinguished. The channels were characterized by the following features: a channel with a conductance (in symmetrical 140mm KCl solutions) of 210 pS that was activated by noncyclic purine nucleotides and closed by H⁺ ions (pH=6.8); a 211 pS channel that was Ca²⁺-activated and voltage dependent; a 185 pS channel that was blocked by TEA but was insensitive to quinine or nucleotides; a 130 pS channel that was activated by membrane hyperpolarization; and a small conductance (15 pS) channel that was not obviously affected by any manipulation. As determined by radioimmunoassay, cells from passage number 56 secreted 917±128 ng/mg cell protein/48 hr of insulin. In contrast, cells from passage number 77 revealed either no channel activity or an occasional nonselective channel, and secreted only 29.4±8.5 ng/mg cell protein/48 hr of insulin. The nonselective channel found in the passage 77 cells had a conductance of 25 pS in symmetrical 140mm KCl solutions. Thus, there appears to be a correlation between the presence of functional K⁺ channels and insulin secretion.     

The effect of excitation on the rate of respiration in the liverwort Conocephalum conicum

Simultaneous measurements were taken of the electrical activity and the rate of respiration of thalli of Conocephalum conicum L. stimulated electrically and mechanically (by cutting). The measurements of the rate of respiration employed a modified Warburg apparatus for O₂ consumption and an infra-red gas analyzer with computer recording and data processing for CO₂ evolution. The action potential, produced by either a cut (a damaging stimulus) or an electrical stimulus (a non-damaging stimulus), caused a transient rise in the rate of respiration. The course of changes in the rate of respiration depends on the character of the excitation and the area of the thallus covered by it. If stimulation does not produce excitation, the increase in the rate of respiration does not take place, regardless of the magnitude and type of the stimulus applied.     

Microsome protein phosphorylation in Acer pseudoplatanus cells as influenced by intracellular alkalinization

Abstract. The authors have previously shown that cell treatments causing intra-cellular alkalinization stimulate the in vivo phosphorylation of a 33-K Dalton polypeptide (33 KP) (Tognoli & Basso, 1987). Here, the authors report that this polypeptide belongs to a protein associated with the microsomal membranes. They show that treatment of cells which induce intracellular alkalinization stimulate 33-KP phosphorylation, whether the phosphorylation is performed in vivo (cells loaded with ³²Pi before treatments) or in vitro (microsomes from control and treated cells, incubated with γ³²P ATP). In both cases, 33 KP is phosphorylated on a serine residue. Microsomes do not show any phosphatase activity towards this phosphorylated protein, indicating involvement of a protein kinase reaction as an effector of changes induced by intracellular alkalinization. The number of phosphorylated sites or molecules of this protein increases as a result of intracellular alkalinization, suggesting that intracellular alkalinization causes topological or conformational modifications to a protein kinase or its substrate protein. The in vitro phosphorylation is not specifically influenced by the pH of the in vitro phosphorylation medium, suggesting that protein phosphorylation is not directly controlled by cytoplasmic pH.     

Electrical recording and ultrastructure of stylet penetration by the greenhouse whitefly

Earlier studies have indicated that interior (physical and/or chemical) properties of a plant may be responsible for feeding-site selection by the greenhouse whitefly, Trialeurodes vaporariorum (Westw.). In order to study the process of feeding-site selection further, stylet-penetration activities and the pathway followed by the stylets in host-plant tissue were investigated using a DC electrical recording method and transmission electron microscopy (TEM). Penetrating whiteflies attached to a gold wire were included in an electrical circuit to record electrical penetration graphs (EPGs). Seven EPG patterns have been distinguished, five of which could be correlated with components of the stylet-penetration process: 1) one with penetration of the leaf surface, 2) one with intercellular penetration and salivary-sheath secretion, 3) one with sieve element penetration and ingestion, 4) one with short penetration of a cell, and 5) one with xylem penetration. The stylet pathway is almost completely intercellular before the phloem is reached and in contrast to aphids, brief symplast punctures are very rare. In general, it takes T. vaporariorum more than half an hour from the start of a penetration to reach a sieve element. Rejection of feeding sites occurs within a few minutes of penetration by adult whiteflies, a time span in which stylets are presumed to penetrate just beyond the epidermis. Properties of the apoplast close to the leaf surface seem therefore to play a major role in feeding-site selection.

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Résumé De précédentes études ont montré que les propriétés internes (physiques et/ou chimiques) d'une plante peuvent induire la sélection du site de nutrition de la mouche blanche de serres, Trialeurodes vaporariorum (Westw.). Afin d'étudier plus avant le processus de sélection du site de nutrition, les activités de piqûre et le chemin suivi par le stylet dans les tissus de la plante-hôte ont été étudiés par une méthode d'enregistrement électrique en courant continu ainsi que par microscopie à transmission d'électrons (TEM). Des aleurodes en activité de piqûre attachées à un fil d'or ont été incluses dans un circuit électrique pour enregistrer des graphes de pénétration électriques (EPG). Sept motifs d'EPG ont été distingués, dont cinq peuvent être corrélés aux composantes du processus de pénétration du stylet: 1) un avec pénétration de la surface foliaire, 2) un avec pénétration interecellulaire et sécrétion d'une gaine de salive, 3) un avec pénétration du phloème, 4) un avec courte pénétration d'une cellule, et 5) un avec pénétration du xylème. Le parcours du stylet est presque entièrement intercellulaire avant que le phloème soit atteint. Contrairement aux pucerons, les ponctions brèves dans le symplasme sont rares. Généralement, T. vaporariorum met plus d'une demi-heure, à partir du début d'une piqûre, pour atteindre un vaisseau. Le rejet des sites de nutrition par les aleurodes adultes se passe quelques minutes après la pénétration du stylet; pendant ce laps de temps, le stylet pénétrerait juste sous l'épiderme. Le rôle des propriétés de l'apoplaste près de la surface foliaire semble donc majeur dans la sélection des sites de nutrition.