Viral cis-regulatory elements as sensors of cellular states and environmental cues

被引:0
作者
Rottenberg, Jaice T. [1 ]
Taslim, Tommy H. [1 ,2 ]
Soto-Ugaldi, Luis F. [3 ]
Martinez-Cuesta, Lucia [4 ]
Martinez-Calejman, Camila [5 ]
Bass, Juan I. Fuxman [1 ,2 ]
机构
[1] Boston Univ, Dept Biol, Boston, MA 02215 USA
[2] Boston Univ, Mol & Cellular Biol & Biochem Program, Boston, MA 02215 USA
[3] Triinst Program Computat Biol & Med, New York, NY USA
[4] Univ Nebraska Lincoln, Dept Biochem, Lincoln, NE USA
[5] UBA, Ctr Estudios Farmacol & Bot CEFYBO, CONICET, Buenos Aires, Argentina
来源
TRENDS IN GENETICS | 2024年 / 40卷 / 09期
基金
美国国家卫生研究院;
关键词
HUMAN-IMMUNODEFICIENCY-VIRUS; GENE-EXPRESSION; TRANSCRIPTION FACTORS; KAPPA-B; PROMOTER ACTIVITY; LATENT RESERVOIR; ENHANCER ELEMENT; POLYOMAVIRUS BK; NUCLEAR FACTOR; LYTIC CYCLE;
D O I
10.1016/j.tig.2024.05.004
中图分类号
Q3 [遗传学];
学科分类号
071007 ; 090102 ;
摘要
To withstand a hostile cellular environment and replicate, viruses must sense, interpret, and respond to many internal and external cues. Retroviruses and DNA viruses can intercept these cues impinging on host transcription factors via cis-regulatory elements (CREs) in viral genomes, allowing them to sense and coordinate context-specific responses to varied signals. Here, we explore the characteristics of viral CREs, the classes of signals and host transcription factors that regulate them, and how this informs outcomes of viral replication, immune evasion, and latency. We propose that viral CREs constitute central hubs for signal integration from multiple pathways and that sequence variation between viral isolates can rapidly rewire sensing mechanisms, contributing to the variability observed in patient outcomes.
引用
收藏
页码:772 / 783
页数:12
相关论文
共 50 条
  • [31] Characterization of Cis-Regulatory Elements for Fgf10 Expression in the Chick Embryo
    Kawakami, Hiroko
    Johnson, Austin
    Fujita, Yu
    Swearer, Avery
    Wada, Naoyuki
    Kawakami, Yasuhiko
    DEVELOPMENTAL DYNAMICS, 2018, 247 (12) : 1253 - 1263
  • [32] Putative cis-regulatory elements in genes highly expressed in rice sperm cells
    Sharma N.
    Russell S.D.
    Bhalla P.L.
    Singh M.B.
    BMC Research Notes, 4 (1)
  • [33] Multiomic atlas with functional stratification and developmental dynamics of zebrafish cis-regulatory elements
    Baranasic, Damir
    Hortenhuber, Matthias
    Balwierz, Piotr J.
    Zehnder, Tobias
    Mukarram, Abdul Kadir
    Nepal, Chirag
    Varnai, Csilla
    Hadzhiev, Yavor
    Jimenez-Gonzalez, Ada
    Li, Nan
    Wragg, Joseph
    D'Orazio, Fabio M.
    Relic, Dorde
    Pachkov, Mikhail
    Diaz, Noelia
    Hernandez-Rodriguez, Benjamin
    Chen, Zelin
    Stoiber, Marcus
    Dong, Michael
    Stevens, Irene
    Ross, Samuel E.
    Eagle, Anne
    Martin, Ryan
    Obasaju, Oluwapelumi
    Rastegar, Sepand
    McGarvey, Alison C.
    Kopp, Wolfgang
    Chambers, Emily
    Wang, Dennis
    Kim, Hyejeong R.
    Acemel, Rafael D.
    Naranjo, Silvia
    Lapinski, Maciej
    Chong, Vanessa
    Mathavan, Sinnakaruppan
    Peers, Bernard
    Sauka-Spengler, Tatjana
    Vingron, Martin
    Carninci, Piero
    Ohler, Uwe
    Lacadie, Scott Allen
    Burgess, Shawn M.
    Winata, Cecilia
    van Eeden, Freek
    Vaquerizas, Juan M.
    Luis Gomez-Skarmeta, Jose
    Onichtchouk, Daria
    Brown, Ben James
    Bogdanovic, Ozren
    van Nimwegen, Erik
    NATURE GENETICS, 2022, 54 (07) : 1037 - +
  • [34] Epigenomics analysis of miRNA cis-regulatory elements in pig muscle and fat tissues
    Hu, Mingyang
    Kuang, Renzhuo
    Guo, Yaping
    Ma, Ruixian
    Hou, Ye
    Xu, Yueyuan
    Qi, Xiaolong
    Wang, Daoyuan
    Zhou, Honghong
    Xiong, Youcai
    Han, Xiaosong
    Zhang, Jinfu
    Ruan, Jinxue
    Li, Xinyun
    Zhao, Shuhong
    Zhao, Yunxia
    Xu, Xuewen
    GENOMICS, 2022, 114 (02)
  • [35] Creating New Cis-Regulatory Elements of HBD to Reactivate Delta-Globin
    Chen, Lini
    Liu, Diandian
    Hong, Weicong
    Xu, Luhong
    Cheng, Lin
    Luo, Ying
    Xu, Hui
    Liang, Junbin
    Fang, Jianpei
    Li, Xinyu
    HUMAN GENE THERAPY, 2025, : 765 - 773
  • [36] Transposable elements as a potent source of diverse cis-regulatory sequences in mammalian genomes
    Sundaram, Vasavi
    Wysocka, Joanna
    PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES, 2020, 375 (1795)
  • [37] Delineating MEIS1 cis-regulatory elements active in hematopoietic cells
    Xiang, P.
    Wei, W.
    Lo, C.
    Rosten, P.
    Hou, J.
    Hoodless, P. A.
    Bilenky, M.
    Bonifer, C.
    Cockerill, P. N.
    Kirkpatrick, A.
    Gottgens, B.
    Hirst, M.
    Humphries, K. R.
    LEUKEMIA, 2014, 28 (02) : 433 - 436
  • [38] Distal and proximal cis-regulatory elements sense X chromosome dosage and developmental state at the Xist locus
    Gjaltema, Rutger A. F.
    Schwaemmle, Till
    Kautz, Pauline
    Robson, Michael
    Schoepflin, Robert
    Lustig, Liat Ravid
    Brandenburg, Lennart
    Dunkel, Ilona
    Vechiatto, Carolina
    Ntini, Evgenia
    Mutzel, Verena
    Schmiedel, Vera
    Marsico, Annalisa
    Mundlos, Stefan
    Schulz, Edda G.
    MOLECULAR CELL, 2022, 82 (01) : 190 - +
  • [39] Identifying clusters of cis-regulatory elements underpinning TAD structures and lineage-specific regulatory networks
    Tonekaboni, Seyed Ali Madani
    Mazrooei, Parisa
    Kofia, Victor
    Haibe-Kains, Benjamin
    Lupien, Mathieu
    GENOME RESEARCH, 2019, 29 (10) : 1733 - 1743
  • [40] NET-CAGE characterizes the dynamics and topology of human transcribed cis-regulatory elements
    Hirabayashi, Shigeki
    Bhagat, Shruti
    Matsuki, Yu
    Takegami, Yujiro
    Uehata, Takuya
    Kanemaru, Ai
    Itoh, Masayoshi
    Shirakawa, Kotaro
    Takaori-Kondo, Akifumi
    Takeuchi, Osamu
    Carninci, Piero
    Katayama, Shintaro
    Hayashizaki, Yoshihide
    Kere, Juha
    Kawaji, Hideya
    Murakawa, Yasuhiro
    NATURE GENETICS, 2019, 51 (09) : 1369 - +
12345