D. Goldschmidt scite author profile

Binding of [3H] 1,25(OH)2D3 and effects of 1,25(OH)2D3 on cell ultrastructure were evaluated in vascular smooth muscle cells (VSMC) primary cultures (aortic media). Specific reversible binding of [3H] 1,25(OH)2D3 by a 3.5 S macromolecule with DNA binding, KD 6.2 X 10(-10) M and Nmax 16 fmol/mg protein was demonstrated. Incubation of VSMC with 10(-8) M 1,25(OH)2D3, but not 25(OH)D3, in the presence of 10% FCS for up to three weeks caused rapid reversible appearance in the cytoplasm of membrane-bounded electron-dense lysosomal particles which on electronspectroscopic imaging contained Ca and Pi. VSMC are targets for vitamin D.

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Only one of the two interconvertible forms of mitochondrial creatine kinase binds to heart mitoplasts

Marcillat

Goldschmidt

Eichenberger

et al. 1987

Biochimica et Biophysica Acta (BBA) - Bioenergetics

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Blockade of a mitochondrial cationic channel by an addressing peptide: An electrophysiological study

Henry

Chich

Goldschmidt³

et al. 1989

J. Membrain Biol.

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Summary.A voltage-dependent cationic channel of large conductance is observed in phospholipid bilayers formed at the tip of microelectrodes from proteoliposomes derived from mitochondrial membranes. This channel was blocked by a 13-residue peptide with the sequence of the amino terminal extremity of the nuclear-coded subunit IV of cytochrome c oxidase. The blockade was reversible, voltage-and dose-dependent. The peptide did not affect the activity of a Torpedo chloride channel observed under the same conditions. From experiments with phospholipid monolayers, it is unlikely that the peptide inserts into bilayers under the experimental conditions used. The blockade was observed from both sides of the membrane, being characterized by more frequent transitions to the lower conductance states, and a maximum effect was observed around 0 mV. Channels, the gating mechanism of which had been eliminated by exposure to trypsin, were also blocked by the peptide. For trypsinized channels, the duration of the closure decreased and the blockade saturated at potentials below -30 inV. These observations are consistent with a translocation of the peptide through the channel. Dynorphin B, which has the same length and charge as the peptide, had some blocking activity. Introduction of negative charges in the peptide by succinylation suppressed the activity.

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Incorporation in lipid bilayers of a large conductance cationic channel from mitochondrial membranes.

et al. 1988

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Membranes from subcellular fractions of adrenal medulla were incorporated in phospholipid bilayers formed at the tip of microelectrodes. Current fluctuations recorded in the presence of a transmembrane potential revealed the existence of a voltage‐dependent channel of large conductance. This channel is characterized by fast kinetics and four conductance levels separated by jumps of 100, 220 and 220 pS in 150 mM NaCl. It is permeant to Na+,K+, tetraethylammonium, Cl‐ and acetate and has some cation selectivity. Exposure to trypsin or pronase abolished the voltage‐dependence. Upon subcellular fractionation, the activity was found to be associated with mitochondria. A similar activity was observed in mitochondrial fractions from other organs. By its kinetics, its selectivity and its potential‐dependence, this channel differs from the voltage‐dependent anion channel of outer mitochondrial membranes.

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D. Goldschmidt

Demonstration of 1,25(OH)2 vitamin D3 receptors and actions in vascular smooth muscle cellsIn vitro

Only one of the two interconvertible forms of mitochondrial creatine kinase binds to heart mitoplasts

Blockade of a mitochondrial cationic channel by an addressing peptide: An electrophysiological study

Incorporation in lipid bilayers of a large conductance cationic channel from mitochondrial membranes.

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