Your search keyword '"Diono, Wahyu"' showing total 3 results

1. Intranasal administration of ceramide liposome suppresses allergic rhinitis by targeting CD300f in murine models.

Author

Ide T, Izawa K, Diono W, Kamei A, Ando T, Kaitani A, Maehara A, Yoshikawa A, Yamamoto R, Uchida S, Wang H, Kojima M, Maeda K, Nakano N, Nakamura M, Shimizu T, Ogawa H, Okumura K, Matsumoto F, Ikeda K, Goto M, and Kitaura J

Subjects

Animals, Mice, Administration, Intranasal, Sneezing, Ceramides, Disease Models, Animal, Immunoglobulin E, Nasal Mucosa, Mice, Inbred BALB C, Ovalbumin, Liposomes, Rhinitis, Allergic drug therapy

Abstract

Allergic rhinitis (AR) is caused by type I hypersensitivity reaction in the nasal tissues. The interaction between CD300f and its ligand ceramide suppresses immunoglobulin E (IgE)-mediated mast cell activation. However, whether CD300f inhibits the development of allergic rhinitis (AR) remains elusive. We aimed to investigate the roles of CD300f in the development of AR and the effectiveness of intranasal administration of ceramide liposomes on AR in murine models. We used ragweed pollen-induced AR models in mice. Notably, CD300f deficiency did not significantly influence the ragweed-specific IgE production, but increased the frequency of mast cell-dependent sneezing as well as the numbers of degranulated mast cells and eosinophils in the nasal tissues in our models. Similar results were also obtained for MCPT5-exprssing mast cell-specific loss of CD300f. Importantly, intranasal administration of ceramide liposomes reduced the frequency of sneezing as well as the numbers of degranulated mast cells and eosinophils in the nasal tissues in AR models. Thus, CD300f-ceramide interaction, predominantly in mast cells, alleviates the symptoms and progression of AR. Therefore, intranasal administration of ceramide liposomes may be a promising therapeutic approach against AR by targeting CD300f., (© 2024. The Author(s).)

Published

2024

2. Extraction of Phytochemicals from Maypole Apple by Subcritical Water.

Author

Tsai M, Zhu L, Maeda S, Wang T, Diono W, Goto M, and Kanda H

Abstract

The Maypole apple is a new, promising species of small apples with a prominent flavor and deep red flesh and peel. This study divided Maypole apples into outer flesh, inner flesh, and peel, and used subcritical water at 100-175 °C for 10-30 min to extract various phytochemicals (procyanidin B2 (PB2), 5-caffeoylquinic acid (5CQA), and epicatechin). The obtained Maypole apple extracts and extraction residues in this work were analyzed using a SEM, HPLC, FT-IR, and UV-Vis spectrophotometer. Under different subcritical water extraction conditions, this work found the highest extraction rate: to be PB2 from the peel (4.167 mg/mL), 5CQA (2.296 mg/mL) and epicatechin (1.044 mg/mL) from the inner flesh. In addition, this work regressed the quadratic equations of the specific yield through ANOVA and found that temperature is a more significant affecting factor than extraction time. This aspect of the study suggests that phytochemicals could be obtained from the Maypole apple using the new extraction method of subcritical water.

Published

2022

3. Improved Carotenoid Processing with Sustainable Solvents Utilizing Z -Isomerization-Induced Alteration in Physicochemical Properties: A Review and Future Directions.

Author

Honda M, Kageyama H, Hibino T, Zhang Y, Diono W, Kanda H, Yamaguchi R, Takemura R, Fukaya T, and Goto M

Subjects

Chemical Phenomena, Emulsions, Isomerism, Molecular Structure, Solubility, Carotenoids chemistry, Solvents chemistry

Abstract

Carotenoids-natural fat-soluble pigments-have attracted considerable attention because of their potential to prevent of various diseases, such as cancer and arteriosclerosis, and their strong antioxidant capacity. They have many geometric isomers due to the presence of numerous conjugated double bonds in the molecule. However, in plants, most carotenoids are present in the all- E -configuration. (all- E )-Carotenoids are characterized by high crystallinity as well as low solubility in safe and sustainable solvents, such as ethanol and supercritical CO 2 (SC-CO 2 ). Thus, these properties result in the decreased efficiency of carotenoid processing, such as extraction and emulsification, using such sustainable solvents. On the other hand, Z -isomerization of carotenoids induces alteration in physicochemical properties, i.e., the solubility of carotenoids dramatically improves and they change from a "crystalline state" to an "oily (amorphous) state". For example, the solubility in ethanol of lycopene Z -isomers is more than 4000 times higher than the all- E -isomer. Recently, improvement of carotenoid processing efficiency utilizing these changes has attracted attention. Namely, it is possible to markedly improve carotenoid processing using safe and sustainable solvents, which had previously been difficult to put into practical use due to the low efficiency. The objective of this paper is to review the effect of Z -isomerization on the physicochemical properties of carotenoids and its application to carotenoid processing, such as extraction, micronization, and emulsification, using sustainable solvents. Moreover, aspects of Z -isomerization methods for carotenoids and functional difference, such as bioavailability and antioxidant capacity, between isomers are also included in this review.

Published

2019