Photoactivatable Cre knock-in mice for spatiotemporal control of genetic engineering in vivo

被引:7
|
作者
Yoshimi, Kazuto [1 ,2 ]
Yamauchi, Yuko [1 ]
Tanaka, Takao [3 ]
Shimada, Toshio [3 ]
Sato, Moritoshi [4 ]
Mashimo, Tomoji [1 ,2 ,5 ]
机构
[1] Univ Tokyo, Inst Med Sci, Lab Anim Res Ctr, Div Anim Genet, Tokyo 1088639, Japan
[2] Univ Tokyo, Ctr Expt Med & Syst Biol, Div Genome Engn, Inst Med Sci, Tokyo 1088639, Japan
[3] KAC Co Ltd, Kyoto 6048423, Japan
[4] Univ Tokyo, Grad Sch Arts & Sci, Tokyo 1538902, Japan
[5] Osaka Univ, Inst Expt Anim Sci, Grad Sch Med, Osaka 5650871, Japan
来源
LABORATORY INVESTIGATION | 2021年 / 101卷 / 01期
基金
日本科学技术振兴机构;
关键词
SITE-SPECIFIC RECOMBINATION; EXPRESSION SYSTEM; TAMOXIFEN; REPORTER; DELIVERY;
D O I
10.1038/s41374-020-00482-5
中图分类号
R-3 [医学研究方法]; R3 [基础医学];
学科分类号
1001 ;
摘要
Photoactivatable-Cre (PA-Cre) knock-in mice was established and characterized for the spatial regulation of Cre recombinase activity with blue light exposure. Spot irradiation or long-term irradiation using a wireless LED could induce locus-specific recombination. The PA-Cre knock-in mice promise a useful resource to elucidate gene function in vivo spatiotemporally. Although the Cre-loxP recombination system has been extensively used to analyze gene function in vivo, spatiotemporal control of Cre activity is a critical limitation for easy and precise recombination. Here, we established photoactivatable-Cre (PA-Cre) knock-in (KI) mice at a safe harbor locus for the spatial and temporal regulation of Cre recombinase activity. The mice showed whole-body Cre recombination activity following light exposure for only 1 h. Almost no leaks of Cre recombination activity were detected in the KI mice under natural light conditions. Spot irradiation could induce locus-specific recombination noninvasively, enabling us to compare phenotypes on the left and right sides in the same mouse. Furthermore, long-term irradiation using an implanted wireless LED substantially improved Cre recombination activity, especially in the brain. These results demonstrate that PA-Cre KI mice can facilitate the spatiotemporal control of genetic engineering and provide a useful resource to elucidate gene function in vivo with Cre-loxP.
引用
收藏
页码:125 / 135
页数:11
相关论文
共 50 条
  • [31] Genetic background modulates phenotypes of serotonin transporter Ala56 knock-in mice
    Kerr, Travis M.
    Muller, Christopher L.
    Miah, Mahfuzur
    Jetter, Christopher S.
    Pfeiffer, Rita
    Shah, Charisma
    Baganz, Nicole
    Anderson, George M.
    Crawley, Jacqueline N.
    Sutcliffe, James S.
    Blakely, Randy D.
    Veenstra-VanderWeele, Jeremy
    MOLECULAR AUTISM, 2013, 4
  • [32] Generation of bicistronic Dmp1-Cre knock-in mice using a self-cleaving 2A peptide
    Nakamura, Takashi
    Honda, Sayako
    Ito, Shinichirou
    Mizoguchi, Toshihide
    Yamamoto, Takehiro
    Kasahara, Masataka
    Kabe, Yasuaki
    Matsuo, Koichi
    Suematsu, Makoto
    JOURNAL OF BONE AND MINERAL METABOLISM, 2023, 41 (04) : 470 - 480
  • [33] Generation of bicistronic Dmp1-Cre knock-in mice using a self-cleaving 2A peptide
    Takashi Nakamura
    Sayako Honda
    Shinichirou Ito
    Toshihide Mizoguchi
    Takehiro Yamamoto
    Masataka Kasahara
    Yasuaki Kabe
    Koichi Matsuo
    Makoto Suematsu
    Journal of Bone and Mineral Metabolism, 2023, 41 : 470 - 480
  • [34] Genetic Contributors to Intergenerational CAG Repeat Instability in Huntington's Disease Knock-In Mice
    Luis Neto, Joao
    Lee, Jong-Min
    Afridi, Ali
    Gillis, Tammy
    Guide, Jolene R.
    Dempsey, Stephani
    Lager, Brenda
    Alonso, Isabel
    Wheeler, Vanessa C.
    Pinto, Ricardo Mouro
    GENETICS, 2017, 205 (02) : 503 - 516
  • [35] Peculiarities in Creation of Genetic Engineering Constructions for Knock-In Variant of Genome Editing ofArabidopsis thalianaCell Culture
    Belavin, P. A.
    Permyakova, N. V.
    Zagorskaya, A. A.
    Marenkova, T. V.
    Sidorchuk, Yu. V.
    Uvarova, E. A.
    Rozov, S. M.
    Deineko, E. V.
    RUSSIAN JOURNAL OF PLANT PHYSIOLOGY, 2020, 67 (05) : 855 - 866
  • [36] In Vivo Imaging of Intersynaptic Vesicle Exchange Using VGLUT1Venus Knock-In Mice
    Herzog, Etienne
    Nadrigny, Fabien
    Silm, Katlin
    Biesemann, Christoph
    Helling, Imke
    Bersot, Tiphaine
    Steffens, Heinz
    Schwartzmann, Richard
    Naegerl, U. Valentin
    El Mestikawy, Salah
    Rhee, JeongSeop
    Kirchhoff, Frank
    Brose, Nils
    JOURNAL OF NEUROSCIENCE, 2011, 31 (43): : 15544 - 15559
  • [37] In vivo spatiotemporal control of voltage-gated ion channels by using photoactivatable peptidic toxins
    Jérôme Montnach
    Laila Ananda Blömer
    Ludivine Lopez
    Luiza Filipis
    Hervé Meudal
    Aude Lafoux
    Sébastien Nicolas
    Duong Chu
    Cécile Caumes
    Rémy Béroud
    Chris Jopling
    Frank Bosmans
    Corinne Huchet
    Céline Landon
    Marco Canepari
    Michel De Waard
    Nature Communications, 13
  • [38] In vivo spatiotemporal control of voltage-gated ion channels by using photoactivatable peptidic toxins
    Montnach, Jerome
    Blomer, Laila Ananda
    Lopez, Ludivine
    Filipis, Luiza
    Meudal, Herve
    Lafoux, Aude
    Nicolas, Sebastien
    Chu, Duong
    Caumes, Cecile
    Beroud, Remy
    Jopling, Chris
    Bosmans, Frank
    Huchet, Corinne
    Landon, Celine
    Canepari, Marco
    De Waard, Michel
    NATURE COMMUNICATIONS, 2022, 13 (01)
  • [39] Pomc-Cre; Sirt1 Conditional Knock-In Mice Present Lean Phenotype Due to Increased Energy Expenditure
    Sasaki, Tsutomu
    Amano, Kosuke
    Kitazumi, Tomoya
    Kikuchi, Osamu
    Kobayashi, Masaki
    Kitamura, Tadahiro
    DIABETES, 2011, 60 : A128 - A128
  • [40] Cell Type-Specific Genetic Manipulation and Impaired Circadian Rhythms in ViptTA Knock-In Mice
    Peng, Yubo
    Tsuno, Yusuke
    Matsui, Ayako
    Hiraoka, Yuichi
    Tanaka, Kohichi
    Horike, Shin-ichi
    Daikoku, Takiko
    Mieda, Michihiro
    FRONTIERS IN PHYSIOLOGY, 2022, 13
12345