Saori Matsushita scite author profile

Fucoxanthin exhibits a preventative function with degenerative diseases such as cancer and metabolic syndrome without side effects. Therefore, commercial-scale preparation of fucoxanthin is needed, but it has been very difficult to find the required resources to do so. The aim of this study is to develop a preparation method of fucoxanthin using waste parts of cultured kombu (Laminalia japonica). Around 79,000 t of cultured kombu is discarded in Japan during thinning out and forming processes, which includes a high amount of fucoxanthin (21.3-17.8 mg/100 g fresh weight). Waste parts of kombu were examined to obtain better quality fucoxanthin. Heating increased fucoxanthin recovery, and additional washing with tap water reduced the salt content of the fucoxanthin extract. Cutting waste parts of kombu into 5-mm wide strips made extraction easier without the leakage of fucoxanthin during handling. After freezing and transportation to the extraction factory, kombu showed the best recovery of fucoxanthin and the lowest content of salt following two extractions with 3 volumes of absolute ethanol. To remove chlorophylls the extract was subjected to silica gel column chromatography. Finally, 1490 g fucoxanthin was obtained from 10 t of waste parts of kombu and the recovery ratio was 82%. The fucoxanthin obtained was stable and reduced by only 2% in 6 months storage at 4℃. Thus, waste parts of cultured kombu are a good bioresource for fucoxanthin extraction.

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Dicetyl Phosphate-Tetraethylenepentamine-Based Liposomes for Systemic siRNA Delivery

Asai

Matsushita

Kenjo

et al. 2011

Bioconjugate Chem.

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Dicetyl phosphate-tetraethylenepentamine (DCP-TEPA) conjugate was newly synthesized and formed into liposomes for efficient siRNA delivery. Formulation of DCP-TEPA-based polycation liposomes (TEPA-PCL) complexed with siRNA was examined by performing knockdown experiments using stable EGFP-transfected HT1080 human fibrosarcoma cells and siRNA for GFP. An adequate amount of DCP-TEPA in TEPA-PCL and N/P ratio of TEPA-PCL/siRNA complexes were determined based on the knockdown efficiency. Then, the biodistribution of TEPA-PCL modified with poly(ethylene glycol) (PEG) was examined in BALB/c mice. As a result, TEPA-PCL modified with PEG6000 avoided reticuloendothelial system uptake and showed long circulation in the bloodstream. On the other hand, PEGylation of TEPA-PCL/siRNA complexes caused dissociation of a portion of the siRNA from the liposomes. However, we found that the use of cholesterol-conjugated siRNA improved the interaction between TEPA-PCL and siRNA, which allowed PEGylation of TEPA-PCL/siRNA complexes without siRNA dissociation. In addition, TEPA-PCL complexed with cholesterol-conjugated siRNA showed potent knockdown efficiency in stable luciferase-transfected B16-F10 murine melanoma cells. Finally, the biodistribution of cholesterol-conjugated siRNA formulated in PEGylated TEPA-PCL was examined by performing near-infrared fluorescence imaging in Colon26 NL-17 murine carcinoma-bearing mice. Our results showed that tumor targeting with siRNA via systemic administration was achieved by using PEGylated TEPA-PCL combined with active targeting with Ala-Pro-Arg-Pro-Gly, a peptide used for targeting angiogenic endothelium.

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Disappearance of the angiogenic potential of endothelial cells caused by Argonaute2 knockdown

Asai

Matsushita

Yonezawa

et al. 2008

Biochemical and Biophysical Research Communications

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Sequence variation in Japanese HLA-DRw8 specificity

et al. 1992

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Diffusion Coefficient of Intracrystalline Water in Intrinsic Hen Egg-White Lysozyme Crystals Determined by Confocal Raman Spectroscopy

et al. 2022

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Protein crystals composed of protein molecules are expected as a novel porous material. They have high porosity, and the knowledge of the diffusion of intracrystalline water is important. In this study, the diffusion coefficient of intracrystalline water in intrinsic hen egg-white lysozyme (HEWL) crystals was determined by a method that combines confocal Raman spectroscopy and air convection with controlled relative humidity. Similar to common porous materials, the drying process of the protein crystals includes three periods: constant-rate drying, falling-rate drying, and equilibrium state. During the falling-rate drying period, the drying rate depends on the diffusion of intracrystalline water in the protein crystal. The gradient of the water content was measured using confocal Raman spectroscopy. The diffusion coefficient of the intrinsic HEWL crystals was determined as 3.1 × 10 −7 cm 2 /s with a water content of 36.3 vol %. The estimated diffusion coefficients of the intrinsic HEWL crystals without cross-linking were in close agreement with those of the cross-linked protein crystals. This study is timely as the knowledge of the intrinsic diffusion coefficient is useful not only for understanding the mechanism of hydration of proteins but also in practical applications such as porous materials, drug binding, and cryoprotectant soaks.

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