Nobuko Saito scite author profile

Liposomes have been used as carriers of various materials and as tools for gene transfer: for the latter purpose, positively charged liposomes are usually used. To evaluate the stability in the presence of serum and the in vivo behavior of such liposomes as well as those aspects of neutral and negatively charged liposomes, we investigated liposomal agglutinability in the presence of serum, serum protein binding to these liposomes, and real-time liposomal trafficking by a non-invasive method using positron emission tomography (PET). Liposomes composed of dipalmitoylphosphatidylcholine, cholesterol without or with charged lipid were prepared in the presence of mannitol, and the turbidity change in the presence of serum was determined. Turbidity increase was not observed for so-called long-circulating liposomes, i.e., liposomes modified with glucuronic acid or with poly(ethylene glycol), or for negatively charged liposomes containing dicetyl phosphate (DCP), phosphatidylglycerol, or phosphatidylserine. On the contrary, a significant turbidity increase was observed when positively charged liposomes modified with stearylamine, stearyltrimethylammonium chloride or 1,2-dimyristyloxypropyl-3-dimethylhydroxyethyl bromide (DMRIE), which is known as a component of liposomes for gene transfer, were used. These liposomes were found to have bound a high amount of serum proteins after separation of unbound serum proteins by use of a spin column. The liposomal trafficking in vivo was determined for three kinds of liposomes, i.e., liposomes with DMRIE, those with DCP, and those without charged lipids. These liposomes were prepared in the presence of 2-[18F]fluoro-2-deoxy-D-glucose ([2-18F]FDG), and the [2-18F]FDG-labeled liposomes were administered to mice to perform PET scans. Positively charged liposomes containing DMRIE showed high accumulation in the liver compared with neutral and negatively charged liposomes. Since DMRIE-liposomes tended to aggregate in the presence of serum, and to be associated with serum protein, these characteristics may lead to the high uptake of DMRIE-liposomes by the liver.

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Permeability Change of Liposomal Membrane Induced by Interleukin-1α1

Oku

Saito²,

Okada³

et al. 1995

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Interleukin-1 (IL-1) is produced and released by various cells, including activated macrophages, and plays important roles in inflammation as well as immune responses. Since the precursor of IL-1 has no signal peptide, the mechanism of IL-1 release has been an enigma. To investigate the possibility of direct interaction of IL-1 with the lipid bilayer, the interleukin-1 alpha (IL-1 alpha)- or beta (IL-1 beta)-induced permeability change of the liposomal membrane was determined. IL-1 alpha, but not IL-1 beta, caused an increase in the permeability of liposomes composed of phosphatidylserine (PS), at neutral and acidic pHs, as demonstrated by measuring the efflux of calcein. On the other hand, liposomes composed of phosphatidylcholine (PC) showed no increase in permeability when incubated with IL-1 alpha, suggesting the importance of acidic phospholipids in the interaction of IL-1 alpha with the membrane. Furthermore, permeability of liposomal membrane was markedly increased by IL-1 alpha in the presence of 1 microM calcium ions, although a permeability change was observed even in the absence of calcium ions. IL-1 alpha also induced the efflux of fluorescent dextran (average M(r) of 39,600), raising the possibility of translocation of IL-1 alpha through the cell membrane.

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Roles of prostaglandins, nitric oxide, and the capsaicin-sensitive sensory nerve in the gastroprotection by the locally acting antiulcer drug ecabet sodium

Kinoshila¹,

Saito²

1995

Japanese Journal of Pharmacology

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Nobuko Saito

Application of Long-Circulating Liposomes to Cancer Photodynamic Therapy.

Effect of serum protein binding on real-time trafficking of liposomes with different charges analyzed by positron emission tomography

Permeability Change of Liposomal Membrane Induced by Interleukin-1α1

Roles of prostaglandins, nitric oxide, and the capsaicin-sensitive sensory nerve in the gastroprotection by the locally acting antiulcer drug ecabet sodium

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