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1.
Cell ; 187(10): 2411-2427.e25, 2024 May 09.
Artículo en Inglés | MEDLINE | ID: mdl-38608704

RESUMEN

We set out to exhaustively characterize the impact of the cis-chromatin environment on prime editing, a precise genome engineering tool. Using a highly sensitive method for mapping the genomic locations of randomly integrated reporters, we discover massive position effects, exemplified by editing efficiencies ranging from ∼0% to 94% for an identical target site and edit. Position effects on prime editing efficiency are well predicted by chromatin marks, e.g., positively by H3K79me2 and negatively by H3K9me3. Next, we developed a multiplex perturbational framework to assess the interaction of trans-acting factors with the cis-chromatin environment on editing outcomes. Applying this framework to DNA repair factors, we identify HLTF as a context-dependent repressor of prime editing. Finally, several lines of evidence suggest that active transcriptional elongation enhances prime editing. Consistent with this, we show we can robustly decrease or increase the efficiency of prime editing by preceding it with CRISPR-mediated silencing or activation, respectively.


Asunto(s)
Sistemas CRISPR-Cas , Cromatina , Epigénesis Genética , Edición Génica , Humanos , Cromatina/metabolismo , Cromatina/genética , Sistemas CRISPR-Cas/genética , Edición Génica/métodos , Histonas/metabolismo , Factores de Transcripción/metabolismo , Código de Histonas
2.
Nature ; 632(8027): 1073-1081, 2024 Aug.
Artículo en Inglés | MEDLINE | ID: mdl-39020177

RESUMEN

Measurements of gene expression or signal transduction activity are conventionally performed using methods that require either the destruction or live imaging of a biological sample within the timeframe of interest. Here we demonstrate an alternative paradigm in which such biological activities are stably recorded to the genome. Enhancer-driven genomic recording of transcriptional activity in multiplex (ENGRAM) is based on the signal-dependent production of prime editing guide RNAs that mediate the insertion of signal-specific barcodes (symbols) into a genomically encoded recording unit. We show how this strategy can be used for multiplex recording of the cell-type-specific activities of dozens to hundreds of cis-regulatory elements with high fidelity, sensitivity and reproducibility. Leveraging signal transduction pathway-responsive cis-regulatory elements, we also demonstrate time- and concentration-dependent genomic recording of WNT, NF-κB and Tet-On activities. By coupling ENGRAM to sequential genome editing via DNA Typewriter1, we stably record information about the temporal dynamics of two orthogonal signalling pathways to genomic DNA. Finally we apply ENGRAM to integratively record the transient activity of nearly 100 transcription factor consensus motifs across daily windows spanning the differentiation of mouse embryonic stem cells into gastruloids, an in vitro model of early mammalian development. Although these are proof-of-concept experiments and much work remains to fully realize the possibilities, the symbolic recording of biological signals or states within cells, to the genome and over time, has broad potential to complement contemporary paradigms for how we make measurements in biological systems.


Asunto(s)
ADN , Edición Génica , Transducción de Señal , Transcripción Genética , Animales , Ratones , Diferenciación Celular/genética , ADN/genética , ADN/metabolismo , Elementos de Facilitación Genéticos/genética , Edición Génica/métodos , Genómica , Células Madre Embrionarias de Ratones/citología , FN-kappa B/metabolismo , Reproducibilidad de los Resultados , ARN Guía de Sistemas CRISPR-Cas/genética , ARN Guía de Sistemas CRISPR-Cas/metabolismo , Transducción de Señal/genética , Factores de Tiempo , Factores de Transcripción/metabolismo , Transcripción Genética/genética , Vía de Señalización Wnt/genética , Motivos de Nucleótidos , Secuencia de Consenso/genética , Biología Evolutiva , Prueba de Estudio Conceptual
3.
J Invest Dermatol ; 144(5): 936-949, 2024 May.
Artículo en Inglés | MEDLINE | ID: mdl-38643988

RESUMEN

The epidermis is the body's first line of protection against dehydration and pathogens, continually regenerating the outermost protective skin layers throughout life. During both embryonic development and wound healing, epidermal stem and progenitor cells must respond to external stimuli and insults to build, maintain, and repair the cutaneous barrier. Recent advances in CRISPR-based methods for cell lineage tracing have remarkably expanded the potential for experiments that track stem and progenitor cell proliferation and differentiation over the course of tissue and even organismal development. Additional tools for DNA-based recording of cellular signaling cues promise to deepen our understanding of the mechanisms driving normal skin morphogenesis and response to stressors as well as the dysregulation of cell proliferation and differentiation in skin diseases and cancer. In this review, we highlight cutting-edge methods for cell lineage tracing, including in organoids and model organisms, and explore how cutaneous biology researchers might leverage these techniques to elucidate the developmental programs that support the regenerative capacity and plasticity of the skin.


Asunto(s)
Diferenciación Celular , Linaje de la Célula , Humanos , Animales , Piel/citología , Células Madre/citología , Proliferación Celular , Regeneración/fisiología
4.
bioRxiv ; 2023 Apr 12.
Artículo en Inglés | MEDLINE | ID: mdl-37090511

RESUMEN

Prime editing is a powerful means of introducing precise changes to specific locations in mammalian genomes. However, the widely varying efficiency of prime editing across target sites of interest has limited its adoption in the context of both basic research and clinical settings. Here, we set out to exhaustively characterize the impact of the cis- chromatin environment on prime editing efficiency. Using a newly developed and highly sensitive method for mapping the genomic locations of a randomly integrated "sensor", we identify specific epigenetic features that strongly correlate with the highly variable efficiency of prime editing across different genomic locations. Next, to assess the interaction of trans -acting factors with the cis -chromatin environment, we develop and apply a pooled genetic screening approach with which the impact of knocking down various DNA repair factors on prime editing efficiency can be stratified by cis -chromatin context. Finally, we demonstrate that we can dramatically modulate the efficiency of prime editing through epigenome editing, i.e. altering chromatin state in a locus-specific manner in order to increase or decrease the efficiency of prime editing at a target site. Looking forward, we envision that the insights and tools described here will broaden the range of both basic research and therapeutic contexts in which prime editing is useful.

5.
Sci Adv ; 7(3)2021 01.
Artículo en Inglés | MEDLINE | ID: mdl-33523889

RESUMEN

The G1-S checkpoint is thought to prevent cells with damaged DNA from entering S phase and replicating their DNA and efficiently arrests cells at the G1-S transition. Here, using time-lapse imaging and single-cell tracking, we instead find that DNA damage leads to highly variable and divergent fate outcomes. Contrary to the textbook model that cells arrest at the G1-S transition, cells triggering the DNA damage checkpoint in G1 phase route back to quiescence, and this cellular rerouting can be initiated at any point in G1 phase. Furthermore, we find that most of the cells receiving damage in G1 phase actually fail to arrest and proceed through the G1-S transition due to persistent cyclin-dependent kinase (CDK) activity in the interval between DNA damage and induction of the CDK inhibitor p21. These observations necessitate a revised model of DNA damage response in G1 phase and indicate that cells have a G1 checkpoint.


Asunto(s)
Daño del ADN , Ciclo Celular/genética , División Celular , Inhibidor p21 de las Quinasas Dependientes de la Ciclina/genética , Inhibidor p21 de las Quinasas Dependientes de la Ciclina/metabolismo , Fase S
6.
Nat Commun ; 11(1): 24, 2020 01 07.
Artículo en Inglés | MEDLINE | ID: mdl-31911655

RESUMEN

The spindle assembly checkpoint (SAC) prevents premature chromosome segregation by inactivating the anaphase promoting complex/cyclosome (APC/C) until all chromosomes are properly attached to mitotic spindles. Here we identify a role for Cullin-RING ubiquitin ligase complex 4 (CRL4), known for modulating DNA replication, as a crucial mitotic regulator that triggers the termination of the SAC and enables chromosome segregation. CRL4 is recruited to chromatin by the replication origin binding protein RepID/DCAF14/PHIP. During mitosis, CRL4 dissociates from RepID and replaces it with RB Binding Protein 7 (RBBP7), which ubiquitinates the SAC mediator BUB3 to enable mitotic exit. During interphase, BUB3 is protected from CRL4-mediated degradation by associating with promyelocytic leukemia (PML) nuclear bodies, ensuring its availability upon mitotic onset. Deficiencies in RepID, CRL4 or RBBP7 delay mitotic exit, increase genomic instability and enhance sensitivity to paclitaxel, a microtubule stabilizer and anti-tumor drug.


Asunto(s)
Anafase , Proteínas de Ciclo Celular/metabolismo , Péptidos y Proteínas de Señalización Intracelular/metabolismo , Metafase , Proteínas de Unión a Poli-ADP-Ribosa/metabolismo , Ubiquitina-Proteína Ligasas/metabolismo , Proteínas de Ciclo Celular/genética , Línea Celular , Humanos , Péptidos y Proteínas de Señalización Intracelular/genética , Mitosis , Proteínas de Unión a Poli-ADP-Ribosa/genética , Proteína de la Leucemia Promielocítica/genética , Proteína de la Leucemia Promielocítica/metabolismo , Unión Proteica , Proteolisis , Proteína 7 de Unión a Retinoblastoma/genética , Proteína 7 de Unión a Retinoblastoma/metabolismo , Huso Acromático/metabolismo , Ubiquitina-Proteína Ligasas/genética
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