Lipid-coated microbubbles (MBs) with an indocyanine green (ICG) derivative were fabricated for ultrasound and near-infrared (NIR) fluorescence dual imaging. We characterized the NIR-fluorescence intensity, stability and viscoelastic properties of the encapsulating lipid shell, focusing on the influence of the ICG derivative and lipid compositions. In terms of the NIR fluorescence intensity, the fluorescence intensity of the MBs (with the ICG derivative) was significantly affected by the lipid composition of the MB shell. Regarding the contrast agent used for ultrasound imaging, the stability of the MBs and viscoelastic properties of shell also depended on the lipid compositions, while the incorporation of the ICG derivative into the MB shells had a negligible effect. The performance of this contrast agent for ultrasound and NIR fluorescence dual-imaging exhibited a significant trade-off relationship for the lipid composition.
Ingestion of plant and fungal glucosylceramides is known to reduce colon carcinogenesis and skin barrier damage in mice and humans. However, such effects in animal experiments have not been revealed for plant and fungal ceramides because the content of ceramides contained in plants and fungi is so low that the large amount required for animal experiments is difficult to obtain. Noting that the fungus shiitake mushroom (Lentinus edodes) is rich in a glucosylceramide, (4E,8E)-N-d-2′-hydroxypalmitoyl-1-O-β-d-glucopyranosyl-9-methyl-4,8-sphingadienine [Glc-d19:2(4E,8E,9Me)-h16:0], a new method for purifying the fungal glucosylceramide was developed using ethanol precipitation and a high performance liquid chromatography. We also developed a new method to produce large amounts of a ceramide [d19:2(4E,8E,9Me)-h16:0] from this purified glucosylceramide using human glycoside hydrolase family 30 glucocerebrosidase (imiglucerase). These methods will be useful for elucidating the physiological function by ingestion of fungal ceramides in animal experiments.
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