Niki Kourmouli scite author profile

Tri-methylated lysine 20 on histone H4 (Me(3)K20H4) is a marker of constitutive heterochromatin in murine interphase and metaphase cells. Heterochromatin marked by Me(3)K20H4 replicates late during S phase of the cell cycle. Serum starvation increases the number of cells that exhibit high levels of Me(3)K20H4 at constitutive heterochromatin. Me(3)K20H4 is also present at the centromeric heterochromatin of most meiotic chromosomes during spermatogenesis and at the pseudoautosomal region, as well as at some telomeres. It is not present on the XY-body. During murine embryogenesis the maternal pronucleus contains Me(3)K20H4; Me(3)K20H4 is absent from the paternal pronucleus. On Drosophila polytene chromosomes Me(3)K20H4 is present in a 'punctate pattern' at many chromosomal bands, including the chromocenter. In coccids it is present on the facultatively heterochromatinised paternal chromosome set. We also present evidence that Me(3)K20H4 is dependent upon H3-specific Suv(3)9 histone methyltransferase activity, suggesting that there may be 'epigenetic cross-talk' between histones H3 and H4

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Histones H3/H4 form a tight complex with the inner nuclear membrane protein LBR and heterochromatin protein 1

Polioudaki

et al. 2001

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We have recently shown that heterochromatin protein 1 (HP1) interacts with the nuclear envelope in an acetylationdependent manner. Using purified components and in vitro assays, we now demonstrate that HP1 forms a quaternary complex with the inner nuclear membrane protein LBR and a sub-set of core histones. This complex involves histone H3/H4 oligomers, which mediate binding of LBR to HP1 and crosslink these two proteins that do not interact directly with each other. Consistent with previous observations, HP1 and LBR binding to core histones is strongly inhibited when H3/H4 are modified by recombinant CREB-binding protein, revealing a new mechanism for anchoring domains of under-acetylated chromatin to the inner nuclear membrane.

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The Inner Nuclear Membrane Protein Lamin B Receptor Forms Distinct Microdomains and Links Epigenetically Marked Chromatin to the Nuclear Envelope

Makatsori

Kourmouli

Polioudaki

et al. 2004

Journal of Biological Chemistry

143

109

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Using heterochromatin-enriched fractions, we have detected specific binding of mononucleosomes to the N-terminal domain of the inner nuclear membrane protein lamin B receptor. Mass spectrometric analysis reveals that LBR-associated particles contain complex patterns of methylated/acetylated histones and are devoid of "euchromatic" epigenetic marks. LBR binds heterochromatin as a higher oligomer and forms distinct nuclear envelope microdomains in vivo. The organization of these membrane assemblies is affected significantly in heterozygous ic (ichthyosis) mutants, resulting in a variety of structural abnormalities and nuclear defects.A significant proportion of heterochromatin is localized in the periphery of the cell nucleus and maintains a close spatial association with the inner nuclear membrane (1-5). This spatial association reflects a multiplicity of interactions between chromatin components and integral or peripheral proteins of the nuclear envelope (NE) 1 (6, 7).Because chromatin is extensively and differentially modified (8, 9), it is tempting to think that certain epigenetic marks or factors associated with histone modifying enzymes provide binding sites for NE proteins. However, it is equally possible that transcriptionally active, noncondensed chromatin is subjected to silencing and "heterochromatinization" upon contact to the NE. Both of these hypotheses receive experimental support: chromatin that is silenced through binding to SIRs can tether itself to the NE (10), whereas targeting of marker genes to the inner nuclear membrane suppresses their expression (11).One of the factors that have been implicated in chromatin anchorage to the NE is the lamin B receptor (12). LBR is a polytopic inner nuclear membrane protein consisting of a long, N-terminal domain, seven or eight hydrophobic transmembrane regions, and a C-terminal tail (13). The N-terminal part of the molecule protrudes to the nucleoplasm and contains multiple serine-arginine motifs that are phosphorylated by the SRPK1 and the cdc2 kinases (14, 15); the hydrophobic region represents, instead, a (functional) form of sterol reductase and is involved in cholesterol metabolism (16).Immunodepletion of LBR from detergent-solubilized NE vesicles results in proteoliposomes with a diminished ability to bind chromatin. Furthermore, direct binding of electrophoretically purified LBR to metaphase chromosomes can be demonstrated by in vitro assays (17). Corroborating these observations, anti-LBR antibodies block nuclear assembly in sea urchin egg extracts (18), whereas direct (19) and indirect (20) interactions with heterochromatin protein 1 (HP1) have been claimed in the literature.Two critical parameters in LBR-chromatin interactions are the physical state of LBR and the molecular features of LBRassociated chromatin. To address these issues, we have isolated fragments of peripheral heterochromatin attached to the inner nuclear membrane. These subcellular fractions were utilized to affinity select mononucleosomes that associate with LBR and investigate L...

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Mitotic phosphorylation of histone H3 at threonine 3

et al. 2004

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Nuclear envelope-peripheral heterochromatin fractions contain multiple histone kinase activities. In vitro assays and amino-terminal sequencing show that one of these activities co-isolates with heterochromatin protein 1 (HP1) and phosphorylates histone H3 at threonine 3. Antibodies recognizing this post-translational modification reveal that in vivo phosphorylation at threonine 3 commences at early prophase in the vicinity of the nuclear envelope, spreads to pericentromeric chromatin during prometaphase and is fully reversed by late anaphase. This spatio-temporal pattern is distinct from H3 phosphorylation at serine 10, which also occurs during cell division, suggesting segregation of differentially phosphorylated chromatin to different regions of mitotic chromosomes.

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Dynamic associations of heterochromatin protein 1 with the nuclear envelope

et al. 2000

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To study the dynamics of mammalian HP1 proteins we have microinjected recombinant forms of mHP1a, M31 and M32 into the cytoplasm of living cells. As could be expected from previous studies, the three fusion proteins were ef®ciently transported into the nucleus and targeted speci®c chromatin areas. However, before incorporation into these areas the exogenous proteins accumulated in a peripheral zone and associated closely with the nuclear envelope. This transient association did not occur when the cells were treated with deacetylase inhibitors, indicating an acetylation-inhibited interaction. In line with these observations, recombinant HP1 proteins exhibited saturable binding to puri®ed nuclear envelopes and stained the nuclei of detergent-permeabilized cells in a rim-like fashion. Competition experiments with various M31 mutants allowed mapping of the nuclear envelope-binding site within an N-terminal region that includes the chromodomain. A His 6 -tagged peptide representing this region inhibited recruitment of LAP2b and B-type lamins around the surfaces of condensed chromosomes, suggesting involvement of HP1 proteins in nuclear envelope reassembly.

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Niki Kourmouli

Heterochromatin andtri-methylated lysine 20 of histone H4 in animals

Histones H3/H4 form a tight complex with the inner nuclear membrane protein LBR and heterochromatin protein 1

The Inner Nuclear Membrane Protein Lamin B Receptor Forms Distinct Microdomains and Links Epigenetically Marked Chromatin to the Nuclear Envelope

Mitotic phosphorylation of histone H3 at threonine 3

Dynamic associations of heterochromatin protein 1 with the nuclear envelope

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