Academic Thesis

Basic information

Name Kakegawa Tomohito
Belonging department
Occupation name
researchmap researcher code
researchmap agency

Title

Shikonin changes the lipopolysaccharideinduced expression of inflammation-related genes in macrophages 

Bibliography Type

Joint Author

Author

 

OwnerRoles

 

Summary

We aimed to find candidate molecules possibly involved in the anti-inflammatory activity of shikonin (active compound of "Shikon") by analyzing its effects on gene expression of lipopolysaccharide (LPS)-treated THP-1 macrophages. Polysome-associated mRNAs (those expected to be under translation: translatome) from cells treated with LPS alone (LPS: 5 µg/mL), shikonin alone (S: 100 nM), or LPS plus shikonin (LPS&S) for 3 h were analyzed by DNA microarray followed by detection of enriched pathways/gene ontologies using the tools of the STRING database. Candidate genes in enriched pathways in the comparison of LPS&S cells vs. LPS cells were analyzed by reverse-transcription quantitative real-time PCR (RT-qPCR; 1, 2, and 3 h). DNA microarray showed shikonin significantly influences gene expression. Gene expression changes between LPS&S cells and LPS cells were compared to detect relevant proteins and/or mRNAs underlying its anti-inflammatory effects: shikonin downregulated pathways which were upregulated in LPS cells, for example, 'innate immune response'. Within changed pathways, three genes were selected for RT-qPCR analyses as key candidates influencing inflammatory responses: CYBA (component of the superoxide-generating Nox2 enzyme), GSK3B (controller of cell responses after toll-like receptor stimulation), and EIF4E (a key factor of the eukaryotic translation initiation factor 4F complex that regulates abundance of other proteins involved in immune functions). All three mRNAs were decreased at 2 h, and CYBA continued low at 3 h relative to LPS cells. Given that shikonin decreased the expression of CYBA gene of Nox2, in addition to the direct inhibition of the Nox2 activity that we have previously shown, it is suggested that one of its anti-inflammatory mechanisms could be attenuation of oxidative stress.
vol.71 no.4 PP723-734. doi: 10.1007/s11418-017-1106-5
共同研究により本人担当部分の抽出不可能

Magazine(name)

Journal of Natunal Medicines

Publisher

 

Volume

 

Number Of Pages

 

StartingPage

 

EndingPage

 

Date of Issue

2017/07

Referee

 

Invited

 

Language

 

Thesis Type

 

International Journal

 

International Collaboration

 

ISSN

 

eISSN

 

DOI

 

NAID

 

Cinii Books Id

 

PMID

 

PMCID

 

URL

Format

 

Download

 

J-GLOBAL ID

 

arXiv ID

 

ORCID Put Code

 

DBLP ID

 

Subject1

 

Subject2

 

Subject3

 

Major Achivement