Hmgcl-flox Mouse
一般名
Hmgcl-flox
製品ID
S-CKO-18302
背景情報
C57BL/6JCya
系統ID
CKOCMP-15356-Hmgcl-B6J-VB
状況
このマウス系統を論文で使用する場合は、「Hmgcl-flox Mouse(カタログ番号S-CKO-18302)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
Hmgcl-flox
系統ID
CKOCMP-15356-Hmgcl-B6J-VB
遺伝子名
製品ID
S-CKO-18302
遺伝子別名
HL
遺伝子別名
C57BL/6JCya
NCBI ID
修正
Conditional knockout
染色体
Chr 4
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
ENSMUST00000030432
NCBIトランスクリプトID
NM_008254
ターゲット領域
Exon 5
有効領域の大きさ
~0.6 kb
遺伝子研究の概要
Hmgcl, also known as 3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) lyase, is a key enzyme. It catalyzes the cleavage of HMG-CoA into acetyl-CoA and acetoacetic acid, serving as a rate-limiting enzyme in ketone body metabolism and also involved in leucine degradation [3,8]. It is associated with multiple metabolic pathways and has significant biological importance in energy metabolism and cell-related processes. Genetic models, such as KO/CKO mouse models, are valuable for studying its functions.
In various cancers, Hmgcl shows diverse roles. In hepatocellular carcinoma (HCC), Hmgcl depletion promotes HCC proliferation and metastasis, while overexpression reverses this trend. Hmgcl increases acetylation at histone H3K9, promoting DPP4 transcription, leading to HCC cells' vulnerability to ferroptosis [1]. In glioblastoma, Hmgcl promotes progression and glioma stem cell maintenance. Knockdown of Hmgcl suppresses proliferation and invasion, as it decreases acetyl-CoA, reducing NFAT1 nuclear accumulation and H3K27ac level, and down-regulating FOXM1 and β-catenin [2]. In osteosarcoma, Hmgcl is downregulated, and its overexpression inhibits cell proliferation, migration, invasion, and tumor growth in vivo by inhibiting the PI3K/AKT/mTOR signaling pathway via β-HB [3]. In lung cancer, Hmgcl is downregulated, and overexpression inhibits tumorigenicity. TNFα treatment decreases HMGCL protein level through IKKβ-mediated phosphorylation and NEDD4-mediated degradation [4]. In pancreatic cancer, Hmgcl promotes tumor progression, and its depletion impedes migration, invasiveness, and tumor growth [5]. In nasopharyngeal carcinoma, Hmgcl inactivation promotes proliferation and metastasis by suppressing oxidative stress [6]. In benign prostatic hyperplasia, miR-1202 targets Hmgcl to regulate cell proliferation, apoptosis, and epithelial-to-mesenchymal transition [7].
In conclusion, Hmgcl plays crucial roles in energy-related metabolic processes and is significantly involved in multiple cancer-related biological processes. Studies using KO/CKO mouse models and other loss-of-function experiments have revealed its functions in cancer development, providing potential molecular targets for cancer treatment.
References:
1. Cui, Xiaohan, Yun, Xiao, Sun, Meiling, Qin, Xihu, Yu, Wenbin. 2022. HMGCL-induced β-hydroxybutyrate production attenuates hepatocellular carcinoma via DPP4-mediated ferroptosis susceptibility. In Hepatology international, 17, 377-392. doi:10.1007/s12072-022-10459-9. https://pubmed.ncbi.nlm.nih.gov/36508088/
2. Sun, Yanfei, Mu, Guangjing, Zhang, Xuehai, Han, Mingzhi, Huang, Bin. . Metabolic modulation of histone acetylation mediated by HMGCL activates the FOXM1/β-catenin pathway in glioblastoma. In Neuro-oncology, 26, 653-669. doi:10.1093/neuonc/noad232. https://pubmed.ncbi.nlm.nih.gov/38069906/
3. Liu, Wenda, Xia, Kezhou, Huang, Xinghan, Xiong, Chen, Guo, Weichun. 2025. HMGCL activates autophagy in osteosarcoma through β-HB mediated inhibition of the PI3K/AKT/mTOR signaling pathway. In Journal of translational medicine, 23, 219. doi:10.1186/s12967-025-06227-6. https://pubmed.ncbi.nlm.nih.gov/39985081/
4. Zhong, Chenxi, Xiong, Guosheng, Yang, Haitang, Fang, Wentao, Deng, Yuezhen. 2023. Phosphorylation by IKKβ Promotes the Degradation of HMGCL via NEDD4 in Lung Cancer. In International journal of biological sciences, 19, 1110-1122. doi:10.7150/ijbs.82015. https://pubmed.ncbi.nlm.nih.gov/36923932/
5. Gouirand, Victoire, Gicquel, Tristan, Lien, Evan C, Vander Heiden, Matthew G, Vasseur, Sophie. 2022. Ketogenic HMG-CoA lyase and its product β-hydroxybutyrate promote pancreatic cancer progression. In The EMBO journal, 41, e110466. doi:10.15252/embj.2021110466. https://pubmed.ncbi.nlm.nih.gov/35307861/
6. Luo, Wenqi, Qin, Liting, Li, Bo, Zhou, Xiaoying, Li, Ping. 2017. Inactivation of HMGCL promotes proliferation and metastasis of nasopharyngeal carcinoma by suppressing oxidative stress. In Scientific reports, 7, 11954. doi:10.1038/s41598-017-11025-2. https://pubmed.ncbi.nlm.nih.gov/28931870/
7. Wang, Zhenting, Yin, Xianlai, Yang, Peng, Gong, Binghao, Liu, Haifang. . miR-1202 regulates BPH-1 cell proliferation, apoptosis, and epithelial-to-mesenchymal transition through targeting HMGCL. In Acta biochimica et biophysica Sinica, 56, 675-687. doi:10.3724/abbs.2024001. https://pubmed.ncbi.nlm.nih.gov/38551020/
8. Jones, Dylan E, Perez, Leanne, Ryan, Robert O. 2019. 3-Methylglutaric acid in energy metabolism. In Clinica chimica acta; international journal of clinical chemistry, 502, 233-239. doi:10.1016/j.cca.2019.11.006. https://pubmed.ncbi.nlm.nih.gov/31730811/
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凍結前の精子濃度を測定し、精子の生存能力の判定します。
凍結後の精子では、各バッチから1本の凍結保存された精子を選び出し、体外受精に使用します。
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