Clec4e-flox Mouse
一般名
Clec4e-flox
製品ID
S-CKO-12172
背景情報
C57BL/6JCya
系統ID
CKOCMP-56619-Clec4e-B6J-VA
状況
このマウス系統を論文で使用する場合は、「Clec4e-flox Mouse(カタログ番号S-CKO-12172)はサイアジェンから購入しました。」と引用してください。
製品タイプ
年齢
遺伝子型
性別
数量
標準的な配送方法では、少なくとも3匹のヘテロ接合体キャリアを保証しています。ホモ接合体キャリアや指定された性別の個体の繁殖サービスも利用可能です。
基本情報
系統名
Clec4e-flox
系統ID
CKOCMP-56619-Clec4e-B6J-VA
遺伝子名
製品ID
S-CKO-12172
遺伝子別名
Mincle, Clecsf9
遺伝子別名
C57BL/6JCya
NCBI ID
修正
Conditional knockout
染色体
Chr 6
表現型
アプリケーション
--
さらに
系統詳細
EnsemblトランスクリプトID
ENSMUST00000032239
NCBIトランスクリプトID
NM_019948
ターゲット領域
Exon 3~4
有効領域の大きさ
~0.8 kb
遺伝子研究の概要
Clec4e, also known as Mincle, is a C-type lectin domain family 4 member. It plays a role in the immune response and is involved in various pathways such as those related to host-pathogen interactions [4,5]. It has significance in biological processes like sterile inflammation and host defense against pathogens [1,5]. Genetic models, especially KO mouse models, are valuable for studying its functions.
In myocardial ischemia-reperfusion injury, loss of Clec4e signaling in KO mice led to reduced acute cardiac injury, neutrophil infiltration, and infarct size, with improved left ventricular structural and functional remodeling at 4-week follow-up. The early transcriptome of KO mice showed upregulation of transcripts involved in myocardial metabolism, radical scavenging, angiogenesis, and extracellular matrix organization, indicating its role in myocardial repair [1].
In the context of pulmonary tuberculosis, genetic variations in Clec4e, such as rs10841847, were associated with an increased risk of developing pulmonary tuberculosis in a Guinea-Bissau population [2], while in a northern Chinese population, variations at rs10841845 and rs10841847 were associated with increased individual protection against pulmonary tuberculosis [6].
In gastric cancer, Clec4e was significantly upregulated, and high expression was associated with poor prognosis. In vitro experiments showed that targeting Clec4e inhibited cancer cell migration and invasion [3].
In dendritic cell function against Candida albicans, the TLR2/CLEC4E signaling pathway was down-regulated in FAM21-cKO (conditional knockout) mice, making them more susceptible to the infection [4]. Also, in intestinal barrier disruption, Clec4e was essential for Enterococcus faecalis-induced trained immunity in bone-marrow-derived progenitors [7].
In conclusion, Clec4e is crucial in the immune response and various disease conditions. Gene knockout and conditional knockout mouse models have revealed its roles in myocardial repair after ischemia-reperfusion injury, susceptibility to pulmonary tuberculosis, gastric cancer progression, host defense against Candida albicans, and in the context of intestinal barrier disruption. These findings enhance our understanding of the biological functions of Clec4e and its potential as a therapeutic target in related diseases.
References:
1. Veltman, Denise, Wu, Ming, Pokreisz, Peter, Sinnaeve, Peter R, Janssens, Stefan P. 2021. Clec4e-Receptor Signaling in Myocardial Repair After Ischemia-Reperfusion Injury. In JACC. Basic to translational science, 6, 631-646. doi:10.1016/j.jacbts.2021.07.001. https://pubmed.ncbi.nlm.nih.gov/34466750/
2. Olvany, Jasmine M, Sausville, Lindsay N, White, Marquitta J, Williams, Scott M, Sirugo, Giorgio. 2020. CLEC4E (Mincle) genetic variation associates with pulmonary tuberculosis in Guinea-Bissau (West Africa). In Infection, genetics and evolution : journal of molecular epidemiology and evolutionary genetics in infectious diseases, 85, 104560. doi:10.1016/j.meegid.2020.104560. https://pubmed.ncbi.nlm.nih.gov/32971250/
3. Jiang, Qin, Xiao, Dan, Wang, Ao, Kuang, Baicheng, Jia, Yegui. 2024. CLEC4E upregulation in gastric cancer: A potential therapeutic target correlating with tumor-associated macrophages. In Heliyon, 10, e27172. doi:10.1016/j.heliyon.2024.e27172. https://pubmed.ncbi.nlm.nih.gov/38463883/
4. Kulkarni, Rakesh, Kasani, Siti Khadijah, Tsai, Ching-Yen, Yu, Chen-Hsin Albert, Chang, Wen. 2023. FAM21 is critical for TLR2/CLEC4E-mediated dendritic cell function against Candida albicans. In Life science alliance, 6, . doi:10.26508/lsa.202201414. https://pubmed.ncbi.nlm.nih.gov/36717248/
5. Pahari, Susanta, Negi, Shikha, Aqdas, Mohammad, Schlesinger, Larry S, Agrewala, Javed N. 2019. Induction of autophagy through CLEC4E in combination with TLR4: an innovative strategy to restrict the survival of Mycobacterium tuberculosis. In Autophagy, 16, 1021-1043. doi:10.1080/15548627.2019.1658436. https://pubmed.ncbi.nlm.nih.gov/31462144/
6. Kabuye, Deo, Chu, Yang, Lao, Wenting, Jin, Guojiang, Kang, Hui. 2019. Association between CLEC4E gene polymorphism of mincle and pulmonary tuberculosis infection in a northern Chinese population. In Gene, 710, 24-29. doi:10.1016/j.gene.2019.05.011. https://pubmed.ncbi.nlm.nih.gov/31075410/
7. Robles-Vera, Iñaki, Jarit-Cabanillas, Aitor, Brandi, Paola, Iborra, Salvador, Sancho, David. 2025. Microbiota translocation following intestinal barrier disruption promotes Mincle-mediated training of myeloid progenitors in the bone marrow. In Immunity, 58, 381-396.e9. doi:10.1016/j.immuni.2024.12.012. https://pubmed.ncbi.nlm.nih.gov/39848243/
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