How Genetic Polymorphisms Shape DNA Clearance and Inflammation In Vivo

アクセス数 : 10
ダウンロード数 : 2

今月のアクセス数 : 10
今月のダウンロード数 : 2
File
Title ( eng )
How Genetic Polymorphisms Shape DNA Clearance and Inflammation In Vivo
Creator
EHASAN Ahmmed Ameemul
MD TANVIR Rahman
Source Title
Shimane Journal of Medical Science
Volume 43
Issue 1-2
Start Page 1
End Page 5
Journal Identifire
ISSN 03865959
EISSN 24332410
Descriptions
Abstract
Self-DNA must be efficiently cleared from extracellular spaces, lysosomes, and the cytosol to prevent activation of innate immune sensors such as TLR9 and cGAS–STING. Genetic polymorphisms in nucleases including dnase1, dnase1l3, dnase2 and trex1 impair DNA degradation by reducing catalytic activity, secretion, stability, or expression. These defects allow accumulation of immunostimulatory DNA in vivo, promoting type I interferon production, autoantibody formation, and inflammatory diseases. This mini review summarizes key nuclease variants across cellular compartments and their impact on DNA metabolism and immunity.
Subjects
dnase1
dnase1l3
dnase2
trex1
cGAS– STING pathway
TLR9
Language
eng
Resource Type departmental bulletin paper
Publisher
Faculty of Medicine, Shimane University
島根大学医学部
Shimane University Faculty of Medicine
Date of Issued 2026-06
Rights
Faculty of Medicine, Shimane University
権利関係(リンク) Creative Commons License
This article is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Publish Type Version of Record
Access Rights open access
Relation
[NCID] AA00841586