Suppression of atopic dermatitis in mice model by reducing inflammation utilizing phosphatidylserine-coated biodegradable microparticles

Purnima Kumar; Md Zahangir Hosain; Jeong Hun Kang; Masafumi Takeo; Akihiro Kishimura; Takeshi Mori; Yoshiki Katayama

doi:10.1080/09205063.2015.1100844

Suppression of atopic dermatitis in mice model by reducing inflammation utilizing phosphatidylserine-coated biodegradable microparticles

Purnima Kumar, Md Zahangir Hosain, Jeong Hun Kang, Masafumi Takeo, Akihiro Kishimura, Takeshi Mori, Yoshiki Katayama

Applied Chemistry

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

Controlling inflammatory response is important to avoid chronic inflammation in many diseases including atopic dermatitis (AD). In this research, we tried using a phosphatidylserine (PS)-coated microparticles in the AD mouse model for achieving the modulation of the macrophage phenotype to an anti-inflammatory state. Here, we prepared poly (D,L-lactic acid) microparticle coated with PS on the outside shell. We confirmed the cellular uptake of the PS-coated microparticle, which leads to the significant downregulation of the inflammatory cytokine production. In the mouse model of AD, the PS-coated microparticle was injected subcutaneously for a period of 12 days. The mice showed significant reduction in the development of AD symptoms comparing with the mice treated with the PC-coated microparticle.

Original language	English
Pages (from-to)	1465-1474
Number of pages	10
Journal	Journal of Biomaterials Science, Polymer Edition
Volume	26
Issue number	18
DOIs	https://doi.org/10.1080/09205063.2015.1100844
Publication status	Published - Dec 12 2015

All Science Journal Classification (ASJC) codes

Biophysics
Bioengineering
Biomaterials
Biomedical Engineering

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10.1080/09205063.2015.1100844

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title = "Suppression of atopic dermatitis in mice model by reducing inflammation utilizing phosphatidylserine-coated biodegradable microparticles",

abstract = "Controlling inflammatory response is important to avoid chronic inflammation in many diseases including atopic dermatitis (AD). In this research, we tried using a phosphatidylserine (PS)-coated microparticles in the AD mouse model for achieving the modulation of the macrophage phenotype to an anti-inflammatory state. Here, we prepared poly (D,L-lactic acid) microparticle coated with PS on the outside shell. We confirmed the cellular uptake of the PS-coated microparticle, which leads to the significant downregulation of the inflammatory cytokine production. In the mouse model of AD, the PS-coated microparticle was injected subcutaneously for a period of 12 days. The mice showed significant reduction in the development of AD symptoms comparing with the mice treated with the PC-coated microparticle.",

author = "Purnima Kumar and Hosain, {Md Zahangir} and Kang, {Jeong Hun} and Masafumi Takeo and Akihiro Kishimura and Takeshi Mori and Yoshiki Katayama",

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AU - Kumar, Purnima

AU - Hosain, Md Zahangir

AU - Kang, Jeong Hun

AU - Takeo, Masafumi

AU - Kishimura, Akihiro

AU - Mori, Takeshi

AU - Katayama, Yoshiki

PY - 2015/12/12

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AB - Controlling inflammatory response is important to avoid chronic inflammation in many diseases including atopic dermatitis (AD). In this research, we tried using a phosphatidylserine (PS)-coated microparticles in the AD mouse model for achieving the modulation of the macrophage phenotype to an anti-inflammatory state. Here, we prepared poly (D,L-lactic acid) microparticle coated with PS on the outside shell. We confirmed the cellular uptake of the PS-coated microparticle, which leads to the significant downregulation of the inflammatory cytokine production. In the mouse model of AD, the PS-coated microparticle was injected subcutaneously for a period of 12 days. The mice showed significant reduction in the development of AD symptoms comparing with the mice treated with the PC-coated microparticle.

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Suppression of atopic dermatitis in mice model by reducing inflammation utilizing phosphatidylserine-coated biodegradable microparticles

Abstract

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