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1.
Nat Methods ; 21(1): 72-82, 2024 Jan.
Artículo en Inglés | MEDLINE | ID: mdl-38049699

RESUMEN

Gene expression programs result from the collective activity of numerous regulatory factors. Studying their cooperative mode of action is imperative to understand gene regulation, but simultaneously measuring these factors within one sample has been challenging. Here we introduce Multiplexing Antibodies by barcode Identification (MAbID), a method for combinatorial genomic profiling of histone modifications and chromatin-binding proteins. MAbID employs antibody-DNA conjugates to integrate barcodes at the genomic location of the epitope, enabling combined incubation of multiple antibodies to reveal the distributions of many epigenetic markers simultaneously. We used MAbID to profile major chromatin types and multiplexed measurements without loss of individual data quality. Moreover, we obtained joint measurements of six epitopes in single cells of mouse bone marrow and during mouse in vitro differentiation, capturing associated changes in multifactorial chromatin states. Thus, MAbID holds the potential to gain unique insights into the interplay between gene regulatory mechanisms, especially for low-input samples and in single cells.


Asunto(s)
Cromatina , Histonas , Ratones , Animales , Cromatina/genética , Histonas/metabolismo , Inmunoprecipitación de Cromatina/métodos , Código de Histonas , Procesamiento Proteico-Postraduccional , Epigénesis Genética
2.
Proc Natl Acad Sci U S A ; 117(34): 20706-20716, 2020 08 25.
Artículo en Inglés | MEDLINE | ID: mdl-32764145

RESUMEN

Cytotoxic T cell differentiation is guided by epigenome adaptations, but how epigenetic mechanisms control lymphocyte development has not been well defined. Here we show that the histone methyltransferase DOT1L, which marks the nucleosome core on active genes, safeguards normal differentiation of CD8+ T cells. T cell-specific ablation of Dot1L resulted in loss of naïve CD8+ T cells and premature differentiation toward a memory-like state, independent of antigen exposure and in a cell-intrinsic manner. Mechanistically, DOT1L controlled CD8+ T cell differentiation by ensuring normal T cell receptor density and signaling. DOT1L also maintained epigenetic identity, in part by indirectly supporting the repression of developmentally regulated genes. Finally, deletion of Dot1L in T cells resulted in an impaired immune response. Through our study, DOT1L is emerging as a central player in physiology of CD8+ T cells, acting as a barrier to prevent premature differentiation and controlling epigenetic integrity.


Asunto(s)
Linfocitos T CD8-positivos/metabolismo , N-Metiltransferasa de Histona-Lisina/metabolismo , Animales , Antígenos de Diferenciación/genética , Antígenos de Diferenciación/metabolismo , Diferenciación Celular/genética , Epigénesis Genética/genética , Epigenómica , Femenino , Histona Metiltransferasas/metabolismo , N-Metiltransferasa de Histona-Lisina/fisiología , Histonas/metabolismo , Masculino , Metiltransferasas/metabolismo , Ratones
3.
Genome Res ; 30(4): 635-646, 2020 04.
Artículo en Inglés | MEDLINE | ID: mdl-32188699

RESUMEN

Transcription of a chromatin template involves the concerted interaction of many different proteins and protein complexes. Analyses of specific factors showed that these interactions change during stress and upon developmental switches. However, how the binding of multiple factors at any given locus is coordinated has been technically challenging to investigate. Here we used Epi-Decoder in yeast to systematically decode, at one transcribed locus, the chromatin binding changes of hundreds of proteins in parallel upon perturbation of transcription. By taking advantage of improved Epi-Decoder libraries, we observed broad rewiring of local chromatin proteomes following chemical inhibition of RNA polymerase. Rapid reduction of RNA polymerase II binding was accompanied by reduced binding of many other core transcription proteins and gain of chromatin remodelers. In quiescent cells, where strong transcriptional repression is induced by physiological signals, eviction of the core transcriptional machinery was accompanied by the appearance of quiescent cell-specific repressors and rewiring of the interactions of protein-folding factors and metabolic enzymes. These results show that Epi-Decoder provides a powerful strategy for capturing the temporal binding dynamics of multiple chromatin proteins under varying conditions and cell states. The systematic and comprehensive delineation of dynamic local chromatin proteomes will greatly aid in uncovering protein-protein relationships and protein functions at the chromatin template.


Asunto(s)
Ensamble y Desensamble de Cromatina , Cromatina/genética , Cromatina/metabolismo , Proteínas de Unión al ADN/metabolismo , Sitios Genéticos , Proteoma , Proteómica , Transcripción Genética , Secuenciación de Inmunoprecipitación de Cromatina , Biblioteca Genómica , Unión Proteica , Proteómica/métodos , ARN Polimerasa II/metabolismo , Factores de Transcripción/metabolismo , Levaduras/genética , Levaduras/metabolismo
4.
Methods Mol Biol ; 2049: 87-103, 2019.
Artículo en Inglés | MEDLINE | ID: mdl-31602606

RESUMEN

The assembly and regulation of chromatin requires coordinated activity of multiple mechanisms. Many factors feed into signaling networks that control the epigenome of a cell. It is this complexity that makes understanding the layers of epigenetic regulation a challenge. Genetic screens have been indispensable for studying chromatin processes. However, they can be laborious and the readout for chromatin changes is often indirect. Epi-ID is a screening strategy in yeast that enables the direct assessment of chromatin status in thousands of gene mutants in parallel. Epi-ID takes advantage of DNA sequences called DNA barcodes that are introduced into a library of yeast knockout mutants at a common chromosomal location in the genome. Chromatin immunoprecipitation on pools of barcoded mutant strains followed by barcode counting by high throughput sequencing will report on the abundance of the chromatin mark of interest in each mutant strain. Epi-ID is applicable to a wide range of chromatin proteins and modifications that are present and can be immunoprecipitated at or around the barcoded region.


Asunto(s)
Cromatina/genética , Epigénesis Genética/genética , Saccharomyces cerevisiae/genética , Inmunoprecipitación de Cromatina , Secuenciación de Inmunoprecipitación de Cromatina , Código de Barras del ADN Taxonómico/métodos , Mutación/genética
5.
EMBO J ; 38(14): e101564, 2019 07 15.
Artículo en Inglés | MEDLINE | ID: mdl-31304633

RESUMEN

DOT1L methylates histone H3K79 and is aberrantly regulated in MLL-rearranged leukemia. Inhibitors have been developed to target DOT1L activity in leukemia, but cellular mechanisms that regulate DOT1L are still poorly understood. We have identified the histone deacetylase Rpd3 as a negative regulator of budding yeast Dot1. At its target genes, the transcriptional repressor Rpd3 restricts H3K79 methylation, explaining the absence of H3K79me3 at a subset of genes in the yeast genome. Similar to the crosstalk in yeast, inactivation of the murine Rpd3 homolog HDAC1 in thymocytes led to an increase in H3K79 methylation. Thymic lymphomas that arise upon genetic deletion of Hdac1 retained the increased H3K79 methylation and were sensitive to reduced DOT1L dosage. Furthermore, cell lines derived from Hdac1Δ/Δ thymic lymphomas were sensitive to a DOT1L inhibitor, which induced apoptosis. In summary, we identified an evolutionarily conserved crosstalk between HDAC1 and DOT1L with impact in murine thymic lymphoma development.


Asunto(s)
Histona Desacetilasa 1/genética , Histona Desacetilasa 2/metabolismo , N-Metiltransferasa de Histona-Lisina/genética , Histonas/metabolismo , Linfoma/metabolismo , Neoplasias del Timo/metabolismo , Acetilación , Animales , Línea Celular Tumoral , Eliminación de Gen , Histona Desacetilasas/genética , Humanos , Linfoma/genética , Metilación , Ratones , Saccharomyces cerevisiae/metabolismo , Proteínas de Saccharomyces cerevisiae/genética , Proteínas de Saccharomyces cerevisiae/metabolismo , Neoplasias del Timo/genética
6.
Nucleic Acids Res ; 46(21): 11251-11261, 2018 11 30.
Artículo en Inglés | MEDLINE | ID: mdl-30203048

RESUMEN

The histone methyltransferase Dot1 is conserved from yeast to human and methylates lysine 79 of histone H3 (H3K79) on the core of the nucleosome. H3K79 methylation by Dot1 affects gene expression and the response to DNA damage, and is enhanced by monoubiquitination of the C-terminus of histone H2B (H2Bub1). To gain more insight into the functions of Dot1, we generated genetic interaction maps of increased-dosage alleles of DOT1. We identified a functional relationship between increased Dot1 dosage and loss of the DUB module of the SAGA co-activator complex, which deubiquitinates H2Bub1 and thereby negatively regulates H3K79 methylation. Increased Dot1 dosage was found to promote H2Bub1 in a dose-dependent manner and this was exacerbated by the loss of SAGA-DUB activity, which also caused a negative genetic interaction. The stimulatory effect on H2B ubiquitination was mediated by the N-terminus of Dot1, independent of methyltransferase activity. Our findings show that Dot1 and H2Bub1 are subject to bi-directional crosstalk and that Dot1 possesses chromatin regulatory functions that are independent of its methyltransferase activity.


Asunto(s)
N-Metiltransferasa de Histona-Lisina/metabolismo , Histonas/metabolismo , Proteínas Nucleares/metabolismo , Proteínas de Saccharomyces cerevisiae/metabolismo , Saccharomyces cerevisiae/metabolismo , Ubiquitinación , Cromatina/genética , Cromatina/metabolismo , N-Metiltransferasa de Histona-Lisina/genética , Proteínas Nucleares/genética , Unión Proteica , Mapas de Interacción de Proteínas/genética , Saccharomyces cerevisiae/genética , Proteínas de Saccharomyces cerevisiae/genética
7.
PLoS Biol ; 16(7): e2005542, 2018 07.
Artículo en Inglés | MEDLINE | ID: mdl-30005073

RESUMEN

Transcription, replication, and repair involve interactions of specific genomic loci with many different proteins. How these interactions are orchestrated at any given location and under changing cellular conditions is largely unknown because systematically measuring protein-DNA interactions at a specific locus in the genome is challenging. To address this problem, we developed Epi-Decoder, a Tag-chromatin immunoprecipitation-Barcode-Sequencing (TAG-ChIP-Barcode-Seq) technology in budding yeast. Epi-Decoder is orthogonal to proteomics approaches because it does not rely on mass spectrometry (MS) but instead takes advantage of DNA sequencing. Analysis of the proteome of a transcribed locus proximal to an origin of replication revealed more than 400 interacting proteins. Moreover, replication stress induced changes in local chromatin proteome composition prior to local origin firing, affecting replication proteins as well as transcription proteins. Finally, we show that native genomic loci can be decoded by efficient construction of barcode libraries assisted by clustered regularly interspaced short palindromic repeats and CRISPR-associated protein 9 (CRISPR/Cas9). Thus, Epi-Decoder is an effective strategy to identify and quantify in an unbiased and systematic manner the proteome of an individual genomic locus by DNA sequencing.


Asunto(s)
Cromatina/metabolismo , Sitios Genéticos , Genoma Fúngico , Proteoma/metabolismo , Saccharomyces cerevisiae/genética , Análisis de Secuencia de ADN , Código de Barras del ADN Taxonómico , Hidroxiurea/farmacología , Regiones Promotoras Genéticas/genética , Unión Proteica , Saccharomyces cerevisiae/efectos de los fármacos , Regiones Terminadoras Genéticas
8.
Elife ; 52016 12 06.
Artículo en Inglés | MEDLINE | ID: mdl-27922451

RESUMEN

Given the frequent misregulation of chromatin in cancer, it is important to understand the cellular mechanisms that regulate chromatin structure. However, systematic screening for epigenetic regulators is challenging and often relies on laborious assays or indirect reporter read-outs. Here we describe a strategy, Epi-ID, to directly assess chromatin status in thousands of mutants. In Epi-ID, chromatin status on DNA barcodes is interrogated by chromatin immunoprecipitation followed by deep sequencing, allowing for quantitative comparison of many mutants in parallel. Screening of a barcoded yeast knock-out collection for regulators of histone H3K79 methylation by Dot1 identified all known regulators as well as novel players and processes. These include histone deposition, homologous recombination, and adenosine kinase, which influences the methionine cycle. Gcn5, the acetyltransferase within the SAGA complex, was found to regulate histone methylation and H2B ubiquitination. The concept of Epi-ID is widely applicable and can be readily applied to other chromatin features.


Asunto(s)
Cromatina/química , ADN de Hongos/metabolismo , Regulación Fúngica de la Expresión Génica , N-Metiltransferasa de Histona-Lisina/metabolismo , Histonas/metabolismo , Proteínas Nucleares/metabolismo , Procesamiento Proteico-Postraduccional , Proteínas de Saccharomyces cerevisiae/metabolismo , Saccharomyces cerevisiae/genética , Inmunoprecipitación de Cromatina , ADN de Hongos/química , ADN de Hongos/genética , Pruebas Genéticas , Genética Microbiana/métodos , Metilación , Biología Molecular/métodos , Análisis de Secuencia de ADN
9.
Bioessays ; 38(1): 4-7, 2016 Jan.
Artículo en Inglés | MEDLINE | ID: mdl-26568467

RESUMEN

Understanding epigenetic modifications to chromatin that regulate gene expression and cell-fate decisions is now possible in single cells thanks to recent technological advances. As interdisciplinary approaches are required to derive biological principles, this workshop brought together some of Europe's leading researchers in single-cell epigenetics to share technologies and biological insights.


Asunto(s)
Cromatina/genética , Metilación de ADN/genética , Epigénesis Genética , Análisis de la Célula Individual , Diferenciación Celular/genética , Expresión Génica , Histonas/genética
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