Manami Kawabata scite author profile

Manami Kawabata

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Effect of Aggregation of Amphotericin B on Lysophosphatidylcholine Micelles as Related to Its Complex Formation with Cholesterol or Ergosterol

Kawabata¹,

Onda²,

Mita³

2001

Journal of Biochemistry

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The effect of aggregation of amphotericin B (AmB), as well as the complex formation of AmB with cholesterol or ergosterol, was investigated in micelles and vesicles. AmB in lysophosphatidylcholine (LPC) micelles adopted a more favorable monomeric form than that in other drug formulations. At an LPC/AmB ratio of 200, AmB existed only in monomeric form. Such monomeric behavior is likely dependent upon the fluidity and size of the micelles. In LPC micelles composed of 90% monomeric AmB, AmB-ergosterol complex formation occurred with an increase in the sterol concentration, but the complex formation of AmB-cholesterol was slight. On the other hand, in LPC micelles composed of 40% monomeric AmB, the complex formation of AmB-cholesterol as well as AmB-ergosterol was extensive. These results suggest that the complex formation of AmB with both sterols is highly dependent upon the aggregated state of AmB. In addition, using monolayers, mixtures of AmB/LPC/ergosterol were became more stable with rising temperature, while the stability of mixtures of AmB/LPC/cholesterol remained unchanged, implying that complex formation of AmB with cholesterol is different from that of AmB with ergosterol.

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Susceptibilities of Phospholipid Vesicles Containing Different Sterols to Amphotericin B-Loaded Lysophosphatidylcholine Micelles

Onda

Inoue²,

Kawabata³

et al. 2003

Journal of Biochemistry

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To investigate the susceptibilities of fungal and mammalian cells to amphotericin B (AmB), AmB-loaded lysophosphatidylcholine (LPC)micelles as drug delivery vehicles were incubated at 37 degrees C with phosphatidylcholine vesicles containing different sterols as model systems for fungal and mammalian cells. The binding and kinetics of AmB to sterols in the membranes were judged by UV-visible spectroscopy. In the 91% monomeric form, AmB interacted rapidly with ergosterol and slowly with 7-dehydrocholesterol (7-DHC), while it did not interact with cholesterol. In the 50% monomeric form, AmB formed complexes more rapidly with ergosterol or 7-DHC than in the monomeric form, whereas it did not still interact with cholesterol. The interaction was also characterized by resonance energy transfer between the fluorescent probe trimethylammonium diphenylhexatriene (TMA-DPH) and AmB. In the 91% monomeric form, AmB caused initial fluorescence quenching in bilayer membranes containing any sterol as well as sterol-free bilayer membranes due to the release of AmB and its incorporation within the membranes. However, a second phase of increasing fluorescence was found in the case of ergosterol alone. On the other hand, in the 47% monomeric form, AmB gave a biphasic intensity profile in membranes containing any sterol as well as sterol-free membranes. However, the extent of the second phase of increasing fluorescence intensity was markedly dependent upon sterol composition. Studies using sterol-containing vesicles provide important insights into the role of the aggregation state of AmB in its effects on cells.

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Manami Kawabata

Effect of Aggregation of Amphotericin B on Lysophosphatidylcholine Micelles as Related to Its Complex Formation with Cholesterol or Ergosterol

Susceptibilities of Phospholipid Vesicles Containing Different Sterols to Amphotericin B-Loaded Lysophosphatidylcholine Micelles

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