Rtn4ip1-flox Mouse
一般名
Rtn4ip1-flox
製品ID
S-CKO-03486
背景情報
C57BL/6JCya
系統ID
CKOCMP-170728-Rtn4ip1-B6J-VA
状況
このマウス系統を論文で使用する場合は、「Rtn4ip1-flox Mouse(カタログ番号S-CKO-03486)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
Rtn4ip1-flox
系統ID
CKOCMP-170728-Rtn4ip1-B6J-VA
遺伝子名
製品ID
S-CKO-03486
遺伝子別名
NIMP, D10Ertd690e
遺伝子別名
C57BL/6JCya
NCBI ID
修正
Conditional knockout
染色体
Chr 10
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
ENSMUST00000054418
NCBIトランスクリプトID
NM_130892
ターゲット領域
Exon 2
有効領域の大きさ
~1.3 kb
遺伝子研究の概要
Rtn4ip1, also known as optic atrophy-10 (OPA10), is a mitochondrial NAD(P)H oxidoreductase. It plays a crucial role in coenzyme Q (CoQ) biosynthesis by regulating the O-methylation activity of COQ3, which is essential for mitochondrial respiration activity in muscle tissue [1]. Additionally, it may be involved in processes related to amino acid transport as well as having implications in cell cycle regulation, drug resistance, and metastasis based on bioinformatics analysis [2,3].
In Rtn4ip1-knockout myoblasts, CoQ9 levels were markedly decreased and cellular respiration was impaired [1]. Muscle-specific knockdown of dRtn4ip1 in flies led to impaired muscle function, which could be reversed by dietary CoQ supplementation [1]. In esophageal squamous cell carcinoma (ESCC), depletion of RTN4IP1 impaired cell proliferation, induced apoptosis, abrogated amino acid uptake, and down-regulated amino acid transporters, highlighting its role in ESCC carcinogenesis [2]. In breast cancer, high expression of RTN4IP1 was associated with a poor prognosis [3]. In thyroid cancer, knockdown of RTN4IP1 increased cellular proliferation, invasion, migration, colony formation, and tumor spheroid formation, suggesting a tumor-suppressive function [6]. In optic neuropathy and rod-cone dystrophy, biallelic variants in RTN4IP1 have been identified as causative factors [4,5,7,8,9,10].
In conclusion, Rtn4ip1 is essential for mitochondrial respiration through its role in CoQ synthesis. Studies using gene knockout and knockdown models in various organisms have revealed its significance in multiple disease areas, including muscle-related disorders, different types of cancers, and optic neuropathies with or without associated retinal dystrophies. These models have provided valuable insights into the biological functions of Rtn4ip1 and its potential as a therapeutic target in these diseases.
References:
1. Park, Isaac, Kim, Kwang-Eun, Kim, Jeesoo, Suh, Jae Myoung, Rhee, Hyun-Woo. 2023. Mitochondrial matrix RTN4IP1/OPA10 is an oxidoreductase for coenzyme Q synthesis. In Nature chemical biology, 20, 221-233. doi:10.1038/s41589-023-01452-w. https://pubmed.ncbi.nlm.nih.gov/37884807/
2. Wei, Huifang, Zhao, Dengyun, Zhi, Yafei, Dong, Zigang, Liu, Kangdong. 2025. RTN4IP1 Contributes to ESCC via Regulation of Amino Acid Transporters. In Advanced science (Weinheim, Baden-Wurttemberg, Germany), 12, e2406220. doi:10.1002/advs.202406220. https://pubmed.ncbi.nlm.nih.gov/39757767/
3. Wang, Xiu, Li, Xinyu, Jiang, Wenying. 2023. High expression of RTN4IP1 predicts adverse prognosis for patients with breast cancer. In Translational cancer research, 12, 859-872. doi:10.21037/tcr-22-2350. https://pubmed.ncbi.nlm.nih.gov/37180657/
4. Gupta, Priya R, O'Connell, Kaitlin, Sullivan, Jack M, Huckfeldt, Rachel M. 2024. RTN4IP1-associated non-syndromic optic neuropathy and rod-cone dystrophy. In Ophthalmic genetics, 45, 289-293. doi:10.1080/13816810.2024.2303683. https://pubmed.ncbi.nlm.nih.gov/38224077/
5. Aldosary, Mazhor, Alsagob, Maysoon, AlQudairy, Hanan, AlOwain, Mohammed, Kaya, Namik. 2022. A Novel Homozygous Founder Variant of RTN4IP1 in Two Consanguineous Saudi Families. In Cells, 11, . doi:10.3390/cells11193154. https://pubmed.ncbi.nlm.nih.gov/36231115/
6. Rahbari, Reza, Kitano, Mio, Zhang, Lisa, Bommareddi, Swaroop, Kebebew, Electron. 2013. RTN4IP1 is down-regulated in thyroid cancer and has tumor-suppressive function. In The Journal of clinical endocrinology and metabolism, 98, E446-54. doi:10.1210/jc.2012-3180. https://pubmed.ncbi.nlm.nih.gov/23393170/
7. Angebault, Claire, Guichet, Pierre-Olivier, Talmat-Amar, Yasmina, Hamel, Christian P, Lenaers, Guy. 2015. Recessive Mutations in RTN4IP1 Cause Isolated and Syndromic Optic Neuropathies. In American journal of human genetics, 97, 754-60. doi:10.1016/j.ajhg.2015.09.012. https://pubmed.ncbi.nlm.nih.gov/26593267/
8. Meunier, Isabelle, Bocquet, Béatrice, Charif, Majida, Zanlonghi, Xavier, Lenaers, Guy. . A ROD-CONE DYSTROPHY IS SYSTEMATICALLY ASSOCIATED TO THE RTN4IP1 RECESSIVE OPTIC ATROPHY. In Retina (Philadelphia, Pa.), 41, 1771-1779. doi:10.1097/IAE.0000000000003054. https://pubmed.ncbi.nlm.nih.gov/33315831/
9. Okamoto, Nobuhiko, Miya, Fuyuki, Hatsukawa, Yoshikazu, Kanemura, Yonehiro, Kosaki, Kenjiro. 2017. Siblings with optic neuropathy and RTN4IP1 mutation. In Journal of human genetics, 62, 927-929. doi:10.1038/jhg.2017.68. https://pubmed.ncbi.nlm.nih.gov/28638143/
10. Jurkute, Neringa, Arno, Gavin, Webster, Andrew R, Yu-Wai-Man, Patrick. 2022. Whole Genome Sequencing Identifies a Partial Deletion of RTN4IP1 in a Patient With Isolated Optic Atrophy. In Journal of neuro-ophthalmology : the official journal of the North American Neuro-Ophthalmology Society, 43, e142-e145. doi:10.1097/WNO.0000000000001589. https://pubmed.ncbi.nlm.nih.gov/35439212/
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