Inactivation of calcium channels in mammalian heart cells: joint dependence on membrane potential and intracellular calcium.

Ca channel currents were recorded in Cs-loaded calf cardiac Purkinje fibres and Cs-dialysed myocytes from guinea-pig ventricle to evaluate the dependence of Ca channel inactivation on membrane depolarization and intracellular free Ca concentration ([Ca]i). The decay of Ca channel current during a maintained depolarization was slowed when external Ca was replaced by Sr or Ba. The decay reflected a genuine inactivation of Ca channel conductance, as assessed by the decreased amplitude of inward tail currents following progressively longer depolarizing pulses in ventricular cells.

Changes of free calcium levels with stages of the cell division cycle.

Although the regulation of events in the cell division cycle by calcium or other cations has been the subject of much interest and speculation, experimental studies have been hampered by the difficulty of measuring submicromolar intracellular free calcium concentrations ([Ca2+]i) over an entire cell cycle. We now describe experiments using a new fluorescent calcium chelator, fura-2 (see Fig. 1c for structure), for continuous measurement of [Ca2+]i from fertilization through the first cleavage of individual eggs of the sea urchin Lytechinus pictus.

Measurement of cytosolic free Ca2+ in individual small cells using fluorescence microscopy with dual excitation wavelengths.

Free Ca2+ concentrations in the cytosol of individual small cells can be recorded with a new fluorescent Ca2+ indicator, "fura-2", and a fluorescence microscope modified to chop rapidly between two wavelengths of excitation. Both fura-2 and its Ca2+ complex fluoresce strongly, but their excitation peaks differ in wavelength. Alternation between the two preferred wavelengths allows assessment of the ratio of Ca2+-bound dye to free dye and hence cytosolic free Ca2+.

Long-opening mode of gating of neuronal calcium channels and its promotion by the dihydropyridine calcium agonist Bay K 8644.

A large-conductance calcium channel in chicken dorsal root ganglion neurons was studied with patch-clamp recordings of unitary currents. In addition to the conventional pattern of Ca-channel gating previously described in neurons ("mode 1"), we observed a different form of gating behavior ("mode 2"). Unlike the brief (approximately equal to 1 ms) openings in mode 1, mode 2 openings tend to be longer (greater than 10 ms) and often outlast the test pulse.

A new generation of Ca2+ indicators with greatly improved fluorescence properties.

A new family of highly fluorescent indicators has been synthesized for biochemical studies of the physiological role of cytosolic free Ca2+. The compounds combine an 8-coordinate tetracarboxylate chelating site with stilbene chromophores. Incorporation of the ethylenic linkage of the stilbene into a heterocyclic ring enhances the quantum efficiency and photochemical stability of the fluorophore.

Cytosolic Ca2+ homeostasis in Ehrlich and Yoshida carcinomas. A new, membrane-permeant chelator of heavy metals reveals that these ascites tumor cell lines have normal cytosolic free Ca2+.

The intracellularly trappable fluorescent Ca2+ indicator quin-2 was used to measure free cytosolic Ca2+, [Ca2+]i, in the two highly dedifferentiated tumor cell lines, Ehrlich and Yoshida ascites carcinomas. It was found that these carcinoma cells can trap quin-2 similarly to normal cells, but [Ca2+]i was apparently significantly lower than in any normal cell tested previously with this method. By using a new lipid-soluble heavy metal chelator TPEN (N,N,N',N'-tetrakis(2-pyridylmethyl)ethylenediamine), which crosses artificial and natural membranes, it was found that endogenous heavy metals are responsible for partially quenching quin-2 fluorescence trapped inside the cells.

Na+-H+ exchange in gastric glands as measured with a cytoplasmic-trapped, fluorescent pH indicator.

We have used the pH-sensitive, fluorescent, cytoplasmic-trapped dye 2',7'-bis(carboxyethyl)-5(6)-carboxyfluorescein (BCECF) to identify Na+-H+ exchange in gastric glands isolated from rabbit stomachs by high-pressure perfusion and collagenase digestion. The fluorescence of BCECF-loaded glands was calibrated in terms of cytosolic pH (pHc) by permeabilizing the cell membranes and titrating the extracellular solution to different pH values. In one set of experiments in Cl--free solutions, glands were treated with 0.

Different modes of Ca channel gating behaviour favoured by dihydropyridine Ca agonists and antagonists.

Single cardiac transmembranous Ca channels have three modes of gating behaviour in the absence of drugs, expressed as current records with brief openings (mode 1), with no openings because of channel unavailability (mode 0 or null mode) and with long-lasting openings and very brief closings that appear only rarely (mode 2). The dihydropyridine Ca agonist Bay K 8644 enhances Ca channel current by promoting mode 2, while the Ca antagonists nitrendipine and nimodipine inhibit the current by favouring mode 0.

High selectivity of calcium channels in single dialysed heart cells of the guinea-pig.

Membrane currents and action potentials were recorded in single ventricular cells obtained from guinea-pig hearts by enzymatic dissociation. Ca2+ channel currents carried by Ba2+ or Ca2+ were recorded with a suction pipette (5-10 microns diameter) for voltage clamp and internal dialysis. Currents through Na+, K+ and non-selective monovalent cation channels were suppressed by suitable holding potentials and external and internal solutions.

Maximal upstroke velocity as an index of available sodium conductance. Comparison of maximal upstroke velocity and voltage clamp measurements of sodium current in rabbit Purkinje fibers.

We compared the maximal upstroke velocity of action potentials in short rabbit Purkinje fibers with sodium currents measured with a two-microelectrode voltage clamp. The number of sodium channels available to open during a sudden depolarization was varied either by blockade with tetrodotoxin or by inactivation with steady depolarizations. In both cases, the maximal upstroke velocity was found to be a very nonlinear measure of the number of available sodium channels.

Mechanism of ion permeation through calcium channels.

Calcium channels carry out vital functions in a wide variety of excitable cells but they also face special challenges. In the medium outside the channel, Ca2+ ions are vastly outnumbered by other ions. Thus, the calcium channel must be extremely selective if it is to allow Ca2+ influx rather than a general cation influx.

Beta-adrenergic modulation of calcium channels in frog ventricular heart cells.

Adrenergic modulation of calcium channels profoundly influences cardiac function, and has served as a prime example of neurohormonal regulation of voltage-gated ion channels. Channel modulation and increased Ca influx are mediated by elevation of intracellular cyclic AMP and protein phosphorylation. The molecular mechanism of the augmented membrane Ca conductance has attracted considerable interest.

Free cytoplasmic Ca2+ and neurotransmitter release: studies on PC12 cells and synaptosomes exposed to alpha-latrotoxin.

The relationship between the free cytoplasmic Ca2+ concentration, [Ca2+]i, and neurotransmitter release was investigated in guinea pig brain synaptosomes and the neurosecretory cell line PC12. Release was induced by alpha-latrotoxin, which acts in both Ca2+ -containing and Ca2+ -free incubation media, or by the classical depolarizing agents high K+ and veratridine, which require extracellular Ca2+. Two complementary approaches were used to reveal changes of [Ca2+]i: (i) direct measurement by a fluorescent Ca2+ indicator (quin2) and (ii) study of the Ca2+ -dependent phosphorylation of a protein, synapsin I, located at the cytoplasmic surface of synaptic vesicles.

Is cytosolic ionized calcium regulating neutrophil activation?

The concentration of cytosolic ionized calcium, [Ca2+]i, was measured in intact neutrophils by use of a fluorescent indicator trapped in the icytoplasm. A given rise of [Ca2+]i elicited by the chemotactic peptide formylmethionylleucylphenylalanine (FMLP) was associated with a much greater degree of superoxide generation and myeloperoxidase secretion than was the same or larger [Ca2+]i produced by a specific calcium ionophore, ionomycin, which bypasses cell surface receptors. Thus, FMLP appears to generate some important excitatory signal in addition to a rise in [Ca2+]i and exocytosis and superoxide generation in neutrophils may not be simply dependent on [Ca2+]i as is widely supposed.

Na+/H+ exchange and cytoplasmic pH in the action of growth factors in human fibroblasts.

The mechanisms by which growth factors stimulate metabolism and cell proliferation are largely unknown. Recent evidence suggests that mitogens rapidly activate a Na+/H+ exchange mechanism in the plasma membrane of their target cells, implicating cytoplasmic pH (pH1) as a potential 'messenger'. Indeed, growth stimulation of quiescent fibroblasts leads to intracellular alkalinization at approximately 1 h after mitogen addition, as measured by weak-acid distribution methods.

Lidocaine block of cardiac sodium channels.

Lidocaine block of cardiac sodium channels was studied in voltage-clamped rabbit purkinje fibers at drug concentrations ranging from 1 mM down to effective antiarrhythmic doses (5-20 muM). Dose-response curves indicated that lidocaine blocks the channel by binding one-to-one, with a voltage-dependent K(d). The half-blocking concentration varied from more than 300 muM, at a negative holding potential where inactivation was completely removed, to approximately 10 muM, at a depolarized holding potential where inactivation was nearly complete.

Mechanism of calcium channel blockade by verapamil, D600, diltiazem and nitrendipine in single dialysed heart cells.

Organic inhibitors of calcium influx prevent outward as well as inward current through cardiac calcium channels but do not slow current activation. Although block is antagonized by raising external calcium or barium concentrations, the competitive effect of permeant cations does not occur at the same cation binding site at which inorganic blockers act. Organic drugs show varying degrees of use-dependent block, due in part to blockade of open channels.

Cytoplasmic free Ca2+ in human platelets: Ca2+ thresholds and Ca-independent activation for shape-change and secretion.

Cytoplasmic free [Ca2+], [Ca2+]i, was measured in human platelets using the intracellularly-trapped, fluorescent indicator quin2. Basal [Ca2+]i with the Ca2+ -ionophore ionomycin revealed apparent thresholds for shape-change, 5-HT release and aggregation of approx. 0.

Cytoplasmic pH and free Mg2+ in lymphocytes.

Measurements have been made of cytoplasmic pH, (pHi) and free Mg2+ concentration, ( [Mg2+]i), in pig and mouse lymphocytes. pHi was measured in four ways: by a digitonin null-point technique; by direct measurement of the pH of freeze-thawed cell pellets; from the 31P nuclear magnetic resonance (NMR) spectrum of intracellular inorganic phosphate; and by the use of a newly synthesized, intracellularly-trappable fluorescent pH indicator. In HEPES buffered physiological saline with pH 7.