RNA-based controllers for engineering gene and cell therapies

被引:1
作者
Takahashi, Kei [1 ]
Galloway, Kate E. [1 ]
机构
[1] MIT, Dept Chem Engn, 25 Ames St, Cambridge, MA 02139 USA
来源
CURRENT OPINION IN BIOTECHNOLOGY | 2024年 / 85卷
基金
美国国家卫生研究院;
关键词
EXPRESSION; RIBOSWITCHES; VIRUS; PROLIFERATION; SWITCHES; PLATFORM; APTAMER; DESIGN;
D O I
10.1016/j.copbio.2023.103026
中图分类号
Q5 [生物化学];
学科分类号
071010 ; 081704 ;
摘要
Engineered RNA-based genetic controllers provide compact, tunable, post-transcriptional gene regulation. As RNA devices are generally small, these devices are portable to DNA and RNA viral vectors. RNA tools have recently expanded to allow reading and editing of endogenous RNAs for profiling and programming of transcriptional states. With their expanded capabilities and highly compact, modular, and programmable nature, RNA-based controllers will support greater safety, efficacy, and performance in gene and cell-based therapies. In this review, we highlight RNA-based controllers and their potential as user-guided and autonomous systems for control of gene and cell-based therapies.
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页数:7
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  • [1] A deep learning approach to programmable RNA switches
    Angenent-Mari, Nicolaas M.
    Garruss, Alexander S.
    Soenksen, Luis R.
    Church, George
    Collins, James J.
    [J]. NATURE COMMUNICATIONS, 2020, 11 (01)
  • [2] A ligand-dependent hammerhead ribozyme switch for controlling mammalian gene expression
    Auslaender, Simon
    Ketzer, Patrick
    Hartig, Joerg S.
    [J]. MOLECULAR BIOSYSTEMS, 2010, 6 (05) : 807 - 814
  • [3] Synthetic RNA-based switches for mammalian gene expression control
    Auslander, Simon
    Fussenegger, Martin
    [J]. CURRENT OPINION IN BIOTECHNOLOGY, 2017, 48 : 54 - 60
  • [4] Engineering the next generation of cell-based therapeutics
    Bashor, Caleb J.
    Hilton, Isaac B.
    Bandukwala, Hozefa
    Smith, Devyn M.
    Veiseh, Omid
    [J]. NATURE REVIEWS DRUG DISCOVERY, 2022, 21 (09) : 655 - 675
  • [5] Design of small molecule-responsive microRNAs based on structural requirements for Drosha processing
    Beisel, Chase L.
    Chen, Yvonne Y.
    Culler, Stephanie J.
    Hoff, Kevin G.
    Smolke, Christina D.
    [J]. NUCLEIC ACIDS RESEARCH, 2011, 39 (07) : 2981 - 2994
  • [6] The Biochemical Landscape of Riboswitch Ligands
    Breaker, Ronald R.
    [J]. BIOCHEMISTRY, 2022, 61 (03) : 137 - 149
  • [7] Current Status and Future Perspectives on Stem Cell-Based Therapies for Parkinson?s Disease
    Cha, Young
    Park, Tae-Yoon
    Leblanc, Pierre
    Kim, Kwang-Soo
    [J]. JOURNAL OF MOVEMENT DISORDERS, 2023, 16 (01) : 22 - 41
  • [8] Creating small transcription activating RNAs
    Chappell, James
    Takahashi, Melissa K.
    Lucks, Julius B.
    [J]. NATURE CHEMICAL BIOLOGY, 2015, 11 (03) : 214 - U165
  • [9] Nontoxic, double-deletion-mutant rabies viral vectors for retrograde targeting of projection neurons
    Chatterjee, Soumya
    Sullivan, Heather A.
    MacLennan, Bryan J.
    Xu, Ran
    Hou, YuanYuan
    Lavin, Thomas K.
    Lea, Nicholas E.
    Michalski, Jacob E.
    Babcock, Kelsey R.
    Dietrich, Stephan
    Matthews, Gillian A.
    Beyeler, Anna
    Calhoon, Gwendolyn G.
    Glober, Gordon
    Whitesell, Jennifer D.
    Yao, Shenqin
    Cetin, Ali
    Harris, Julie A.
    Zeng, Hongkui
    Tye, Kay M.
    Reid, R. Clay
    Wickersham, Ian R.
    [J]. NATURE NEUROSCIENCE, 2018, 21 (04) : 638 - +
  • [10] Genetic control of mammalian T-cell proliferation with synthetic RNA regulatory systems
    Chen, Yvonne Y.
    Jensen, Michael C.
    Smolke, Christina D.
    [J]. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 2010, 107 (19) : 8531 - 8536
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