Insights Into the Function of the NuA4 Complex in Plants

Espinosa-Cores, Loreto; Bouza-Morcillo, Laura; Barrero-Gil, Javier; Jiménez-Suárez, Verónica; Lázaro, A. M.; Piqueras, Raquel; Jarillo, José A.; Piñeiro, Manuel

doi:10.3389/fpls.2020.00125

Cited by 24 publications

(28 citation statements)

References 141 publications

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“…Either the complex is attached to the actin filament and moves along the filament propelled by the filament polymerization-depolymerization, or the monomeric actin directly interacts with the chromatin, or other unconventional forms of actin oligomers, performing some (currently unknown) functions in the chromatin remodeling complexes [ 16 ]. Another chromatin-modifying complex is the histone acetyltransferase complex NuA4/TIP60, which is involved in chromatin-binding, histone modifications, transcription, DNA damage response, control of the cell cycle, nonhomologous end joying, and homologous recombination [ 16 , 111 , 112 , 113 ]. Recent studies showed that the SWR1 remodeling complex deposits Htz1 histone into the chromatin and prevents genome instability, which is often associated with tumorigenesis [ 114 , 115 ].…”

Section: Actin Role In Chromatin Organization and Remodelingmentioning

confidence: 99%

New Insights into Cellular Functions of Nuclear Actin

Kloc

Chanana

Vaughn

et al. 2021

Biology

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Actin is one of the most abundant proteins in eukaryotic cells. There are different pools of nuclear actin often undetectable by conventional staining and commercial antibodies used to identify cytoplasmic actin. With the development of more sophisticated imaging and analytical techniques, it became clear that nuclear actin plays a crucial role in shaping the chromatin, genomic, and epigenetic landscape, transcriptional regulation, and DNA repair. This multifaceted role of nuclear actin is not only important for the function of the individual cell but also for the establishment of cell fate, and tissue and organ differentiation during development. Moreover, the changes in the nuclear, chromatin, and genomic architecture are preamble to various diseases. Here, we discuss some of the newly described functions of nuclear actin.

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Section: Actin Role In Chromatin Organization and Remodelingmentioning

confidence: 99%

New Insights into Cellular Functions of Nuclear Actin

Kloc

Chanana

Vaughn

et al. 2021

Biology

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“…The covalent histone modifications methylation and acetylation are regulated by the antagonistic activity of methyltransferases and demethylases [ 32 – 34 ] and of acetyltransferases/deacetylases [ 35 – 37 ], which emerge as complexes such as SET complexes (SET-C) [ 38 ] and histone acetyltransferases complexes (HAT-C). NuA3 [ 39 – 41 ] and NuA4 [ 42 ] are two classes of HAT-C that function in the acetylation of the histone H3 [ 43 ] and of the histones H4, H2A, and H2A.Z, respectively [ 44 , 45 ]. Each of these complexes comprises multiple members that associate with each other directly or indirectly, and each exhibits different and non-redundant functions [ 46 ], indicating that chromatin remodeling and histone modification are complex processes involving the coordinated action of multiple regulatory elements [ 43 ].…”

Section: Introductionmentioning

confidence: 99%

“…In addition, these complexes share common subunits. For example, ARP4, SWC4, YAF9, and RUVBL2 have been found in both NuA4-C and SWR1-C [ 42 , 44 , 47 , 48 ]. The significance of this sharing of components among different complexes is still not clear.…”

Section: Introductionmentioning

confidence: 99%

CaSWC4 regulates the immunity-thermotolerance tradeoff by recruiting CabZIP63/CaWRKY40 to target genes and activating chromatin in pepper

Cai

Yang

et al. 2022

PLoS Genet

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Pepper (Capsicum annuum) responds differently to high temperature stress (HTS) and Ralstonia solanacearum infection (RSI) but employs some shared transcription factors (TFs), such as CabZIP63 and CaWRKY40, in both cases. How the plant activates and balances these distinct responses, however, was unclear. Here, we show that the protein CaSWC4 interacts with CaRUVBL2 and CaTAF14b and they all act positively in pepper response to RSI and thermotolerance. CaSWC4 activates chromatin of immunity or thermotolerance related target genes of CaWRKY40 or CabZIP63 by promoting deposition of H2A.Z, H3K9ac and H4K5ac, simultaneously recruits CabZIP63 and CaWRKY40 through physical interaction and brings them to their targets (immunity- or thermotolerance-related genes) via binding AT-rich DNA element. The above process relies on the recruitment of CaRUVBL2 and TAF14 by CaSWC4 via physical interaction, which occurs at loci of immunity related target genes only when the plants are challenged with RSI, and at loci of thermotolerance related target genes only upon HTS. Collectively, our data suggest that CaSWC4 regulates rapid, accurate responses to both RSI and HTS by modulating chromatin of specific target genes opening and recruiting the TFs, CaRUVBL2 and CaTAF14b to the specific target genes, thereby helping achieve the balance between immunity and thermotolerance.

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“…Previous studies on Arabidopsis homologs of NuA4 subunits by affinity purification followed by mass spectrometry (AP-MS/MS) suggested that plant NuA4 resembles its yeast counterpart [15][16][17][18] . Importantly, the scaffold subunits Esa1-Associated Factor 1A/B (AtEAF1A/B), Transcription-Associated Protein 1 (AtTRA1) and Enhancer of Polycomb-Like 1A/B (AtEPL1A/B) were shown to be physically associated with the catalytic subunit homologs Histone Acetyltransferase of the MYST family 1/2 (HAM1/2) [16][17][18][19] .…”

mentioning

confidence: 99%

“…Notably, AtTRA1 was also copurified with components of complexes responsible for H2A-H2A.Z exchange, suggesting a link between NuA4dependent histone acetylation and H2A.Z deposition 20,21 . AtEPL1 and AtEAF1 seem to be specific for NuA4, as they were not copurified with other chromatin complexes; thus, they are key to understanding NuA4 function 15,22,23 . In genetic studies, plant homologs of NuA4 subunits have been linked to gametogenesis, ABA responses, flowering time regulation, chlorophyll synthesis, cell growth, and ploidy 17,[24][25][26] .…”

mentioning

confidence: 99%

NuA4 and H2A.Z control environmental responses and autotrophic growth in Arabidopsis

et al. 2022

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Nucleosomal acetyltransferase of H4 (NuA4) is an essential transcriptional coactivator in eukaryotes, but remains poorly characterized in plants. Here, we describe Arabidopsis homologs of the NuA4 scaffold proteins Enhancer of Polycomb-Like 1 (AtEPL1) and Esa1-Associated Factor 1 (AtEAF1). Loss of AtEAF1 results in inhibition of growth and chloroplast development. These effects are stronger in the Atepl1 mutant and are further enhanced by loss of Golden2-Like (GLK) transcription factors, suggesting that NuA4 activates nuclear plastid genes alongside GLK. We demonstrate that AtEPL1 is necessary for nucleosomal acetylation of histones H4 and H2A.Z by NuA4 in vitro. These chromatin marks are diminished genome-wide in Atepl1, while another active chromatin mark, H3K9 acetylation (H3K9ac), is locally enhanced. Expression of many chloroplast-related genes depends on NuA4, as they are downregulated with loss of H4ac and H2A.Zac. Finally, we demonstrate that NuA4 promotes H2A.Z deposition and by doing so prevents spurious activation of stress response genes.

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Insights Into the Function of the NuA4 Complex in Plants

Cited by 24 publications

References 141 publications

New Insights into Cellular Functions of Nuclear Actin

New Insights into Cellular Functions of Nuclear Actin

CaSWC4 regulates the immunity-thermotolerance tradeoff by recruiting CabZIP63/CaWRKY40 to target genes and activating chromatin in pepper

NuA4 and H2A.Z control environmental responses and autotrophic growth in Arabidopsis

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