C.M. Gary-Bobo scite author profile

The selective toxicity of the polyene antibiotic amphotericin B between pathogenic eukaryotic organisms and animal cells has often been said to originate in the presence of ergosterol in fungal membranes instead of cholesterol, found in membranes of animal cells. We have tested this hypothesis by measuring the proton efflux induced by amphotericin B in egg yolk phosphatidylcholine small unilamellar vesicles. By measuring circular dichroism under the same conditions, we monitored the interaction of the antibiotic and its conformational changes. Sterol-free vesicles are sensitive to amphotericin B, but the sensitivity of sterol-containing vesicles is always greater and increasingly so with increasing sterol concentration. Ergosterol-containing vesicles are more sensitive than cholesterol-containing vesicles. On the other hand, numerous amphotericin B conformers can be detected in sterol-containing vesicles, depending upon both the concentration of sterol and the amphotericin B sterol ratio. It appears that one conformer, or maybe two at high amphotericin B concentration, is responsible for the induced permeability. From their circular dichroism spectra, these two conformers are the same in the presence of ergosterol or cholesterol. The concentration of amphotericin B necessary to obtain the two conformers is higher with cholesterol than with ergosterol, which agrees with the permeability results.

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Properties of Hemoglobin Solutions in Red Cells

Gary-Bobo

Solomon

1968

161

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The present studies are concerned with a detailed examination of the apparent anomalous osmotic behavior of human red cells. Red cell water has been shown to behave simultaneously as solvent water for nonelectrolytes and nonsolvent water, in part, for electrolytes. The nonsolvent properties are based upon assumptions inherent in the conventional van't Holt equation. However, calculations according to the van't Hoff equation give osmotic volumes considerably in excess of total cell water when the pH is lowered beyond the isoelectric point for hemoglobin; hence the van't Hoff equation is inapplicable for the measurement of the solvent properties of the red cell. Furthermore, in vitro measurements of osmotic and other properties of 3.7 miUimolal solutions of hemoglobin have failed to reveal the presence of any salt exclusion. A new hypothesis has been developed from thermodynamic principles alone, which predicts that, at constant pH, the net charge on the hemoglobin molecule decreases with increased hemoglobin concentration. The existence of such cooperative interaction may be inferred from the effect of pH on the changes in hemoglobin net charge as the spacing between the molecules decreases. The resultant movement of counterions across the cell membrane causes the apparent anomalous osmotic behavior. Quantitative agreement has been found between the anion shift predicted by the equation and that observed in response to osmotic gradients. The proposed mechanism appears to be operative in a variety of tissues and could provide an electrical transducer for osmotic signals.R e d cells adjust their volume according to the osmolality of the medium in which they are suspended. It has long been known that the volume change observed is less than that expected according to the van't Hoff law. Ponder (1) has developed an equation to express the deviation from the expected van't H o f f behavior in terms of the ratio, R, of the observed volume change to the expected one. M a n y studies have been made which indicate this ratio to be less than unity, though there has been disagreement over the exact fraction of the cell water involved (2-4). Recently Savitz, Sidel, and Solomon (5) measured cell volume by isotope dilution and found that 2 0 % of the cell water was apparently unable to participate in osmotic phenomena.

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Permeability of Red Cell Membranes to Small Hydrophilic and Lipophilic Solutes

1971

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The permeability coefficients of a series of amides, ureas, and diols have been measured on red cells of man and dog using the minimum volume method of Sha'afi et al. When the molecules are grouped according to their ether-water partition coefficients, kther, the behavior of the hydrophilic molecules, with kether less than water, is different from that of the lipophilic molecules, characterized by kther greater than water. The rate of permeation of the hydrophilic molecules through an aqueous pathway is determined by the molar volume, a parameter in which the geometrical measure of molecular volume is modified by hydrogen-bonding ability. This indicates the importance of chemical interactions within the aqueous path. The permeation of the lipophilic molecules is determined in the first instance by kether, taken as a measure of the ease with which the molecule can escape from its aqueous environment. Within the membrane, lipophilic permeability is modified both by steric factors and by the formation of hydrogen bonds with membrane components. These data allow one to infer that lipid-soluble molecules travel through an organized structure within the lipid membrane and come into contact with polar moieties.Numerous classical studies have been carried out on the permeability of red cells to homologous series of nonelectrolytes, particularly by Jacobs and H6-ber and Orskov (see Danielli [1]). These investigators computed permeability coefficients indirectly from the time required for red cells to hemolyze when placed in a solution containing the permeant nonelectrolyte. The red cells swell because the entrance of a permeant solute moving down its concentration gradient causes an imbalance of water activity. Water then moves down its own activity gradient and the process is terminated when

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C.M. Gary-Bobo

Differences in the interaction of the polyene antibiotic amphotericin B with cholesterol- or ergosterol-containing phospholipid vesicles. A circular dichroism and permeability study

Properties of Hemoglobin Solutions in Red Cells

Permeability of Red Cell Membranes to Small Hydrophilic and Lipophilic Solutes

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