Min Koo Choi scite author profile

Although many reports have revealed the importance of defective microglia-mediated amyloid β phagocytosis in Alzheimer’s disease (AD), the underlying mechanism remains to be explored. Here we demonstrate that neurons in the brains of patients with AD and AD mice show reduction of sphingosine kinase1 (SphK1), leading to defective microglial phagocytosis and dysfunction of inflammation resolution due to decreased secretion of specialized proresolving mediators (SPMs). Elevation of SphK1 increased SPMs secretion, especially 15-R-Lipoxin A4, by promoting acetylation of serine residue 565 (S565) of cyclooxygenase2 (COX2) using acetyl-CoA, resulting in improvement of AD-like pathology in APP/PS1 mice. In contrast, conditional SphK1 deficiency in neurons reduced SPMs secretion and abnormal phagocytosis similar to AD. Together, these results uncover a novel mechanism of SphK1 pathogenesis in AD, in which impaired SPMs secretion leads to defective microglial phagocytosis, and suggests that SphK1 in neurons has acetyl-CoA-dependent cytoplasmic acetyltransferase activity towards COX2.

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Antitumor Effect of Paclitaxel-Loaded PEGylated Immunoliposomes Against Human Breast Cancer Cells

Tao

et al. 2007

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N , N ′-Diacetyl- p -phenylenediamine restores microglial phagocytosis and improves cognitive defects in Alzheimer’s disease transgenic mice

Park

Lee

Nam

et al. 2019

Proc. Natl. Acad. Sci. U.S.A.

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As a central feature of neuroinflammation, microglial dysfunction has been increasingly considered a causative factor of neurodegeneration implicating an intertwined pathology with amyloidogenic proteins. Herein, we report the smallest synthetic molecule (N,N′-diacetyl-p-phenylenediamine [DAPPD]), simply composed of a benzene ring with 2 acetamide groups at the para position, known to date as a chemical reagent that is able to promote the phagocytic aptitude of microglia and subsequently ameliorate cognitive defects. Based on our mechanistic investigations in vitro and in vivo, 1) the capability of DAPPD to restore microglial phagocytosis is responsible for diminishing the accumulation of amyloid-β (Aβ) species and significantly improving cognitive function in the brains of 2 types of Alzheimer’s disease (AD) transgenic mice, and 2) the rectification of microglial function by DAPPD is a result of its ability to suppress the expression of NLRP3 inflammasome-associated proteins through its impact on the NF-κB pathway. Overall, our in vitro and in vivo investigations on efficacies and molecular-level mechanisms demonstrate the ability of DAPPD to regulate microglial function, suppress neuroinflammation, foster cerebral Aβ clearance, and attenuate cognitive deficits in AD transgenic mouse models. Discovery of such antineuroinflammatory compounds signifies the potential in discovering effective therapeutic molecules against AD-associated neurodegeneration.

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Pharmacokinetics and pharmacodynamics of ketoprofen plasters

Heo

Cho

Cheon

et al. 2007

Biopharm & Drug Disp

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Ketoprofen plasters of 70 cm(2) size using DuroTak acrylic adhesive polymers were developed either containing 30 mg (Ketotop-L) or 60 mg drug (Ketotop-P). The in vitro skin permeation profile was obtained in hairless mouse skin and showed the permeation rate of Ketotop-P to be twice that of Ketotop-L. The plasma concentration profile of ketoprofen was determined in Sprague-Dawley rats after applying a 3 x 3 cm(2) plaster. AUC(0-24h) and C(max) of Ketotop-P were 260.92 microg.h/ml and 25.09 microg/ml, respectively, which were about twice the values of Ketotop-L. The hind paw edema induced by carrageenan injection was measured for 6 h after applying a 2 x 2 cm(2) plaster, and the area under the time-response curve (AUR) value was significantly lower in Ketotop-P attached rats (180.70%.h) than in those with the Ketotop-L (298.65%.h) and the control (407.04%.h) groups, indicating a stronger anti-inflammatory action of Ketotop-P. However, the analgesic effect of the two formulations did not show a statistically significant difference. In conclusion, Ketotop-P was able to achieve higher plasma concentration of ketoprofen, thereby exhibiting higher and more constant anti-inflammatory effect compared with Ketotop-L.

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Min Koo Choi

Enhanced solubility and stability of PEGylated liposomal paclitaxel: In vitro and in vivo evaluation

Neuronal SphK1 acetylates COX2 and contributes to pathogenesis in a model of Alzheimer’s Disease

Antitumor Effect of Paclitaxel-Loaded PEGylated Immunoliposomes Against Human Breast Cancer Cells

N , N ′-Diacetyl- p -phenylenediamine restores microglial phagocytosis and improves cognitive defects in Alzheimer’s disease transgenic mice

Pharmacokinetics and pharmacodynamics of ketoprofen plasters

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