Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P10412 (H1.4)
75 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The H1 histones serve as general repressors of gene expression by inducing the formation of a compact chromatin structure, whereas the high-mobility-group (HMG) non-histone chromosomal proteins have roles in maintaining the structure and function of transcriptionally active chromatin. The distribution of the H1 histone subtypes and HMG proteins among various trout tissues (liver, hepatocellular carcinoma, testis and erythrocyte) was determined. Histone H1b was present in the chromatin of liver, but not in the chromatin of hepatocellular carcinoma, testis or erythrocyte. Nuclease-resistant regions of liver chromatin had elevated levels of histone H1b. Histone H1b was isolated, and the N-terminal amino acid sequence of histone H1b was found to be highly similar to that of mammalian histone H1(0) and duck H5. HMG proteins T1, T2, T3, H6, C, D and F were associated with liver and hepatocellular-carcinoma chromatin, with hepatocellular carcinoma containing higher levels of HMG T1 and F. Testis and erythrocyte had HMG T2 and H6 as their predominant HMG proteins. Most of the HMG H6 of hepatocellular carcinoma, but not of liver, was located in a chromatin fraction that was soluble at physiological ionic strength and enriched in transcriptionally active DNA. These alterations in the chromatin distribution and content of hepatocyte HMG proteins and H1 histone subtypes may contribute to aberrant hepatocyte gene expression in the hepatocellular carcinoma.
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PMID:Characterization and chromatin distribution of the H1 histones and high-mobility-group non-histone chromosomal proteins of trout liver and hepatocellular carcinoma. 174 24

The effect of doxorubicin (DX) treatment on H1 synthesis and acetylation was studied in two human colon adenocarcinoma cell lines, sensitive (LoVo) and resistant (LoVo/DX) to this drug. Histone variants were resolved by a high resolution two-dimensional gel electrophoresis system coupled to fluorography for the detection of radioactive incorporation. The relative synthesis of H1.4 and H1.5 variants was slightly reduced by DX. This is probably related to the inhibition of DNA synthesis consequent to drug treatment. The main effect is that DX induces the acetylation of H1 isoproteins in the LoVo/DX resistant line but not in the parental line, which is 30 times more sensitive to anthracyclines. The different behavior of the two cell lines cannot be attributed to different cellular drug retention since the DX doses chosen (1.25 for LoVo and 40 micrograms/ml for LoVo/DX cells) correspond to similar intracellular drug concentrations. H1 acetylation persisted after exposure to cycloheximide in DX treated LoVo/DX cells, indicating that it is a postranslational event. The induction of H1 acetylation appears rather specific since no increase was found in 3H-acetate incorporation on the total cellular TCA-precipitable fraction. In addition DX treatment did not modify the acetylation of core histones in either LoVo or LoVo/DX cell lines.
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PMID:Doxorubicin induces the acetylation of histone H1 in a human colon cancer cell line (LoVo/DX) selected for resistance to the drug, but not in the sensitive parental line (LoVo). 317 5

Five main type H1 histones have been described in man (H1.1-H1.5) in addition to the testis specific type H1t and the replacement subtype H1 degrees, which is found mainly in highly differentiated cells. We have isolated this whole complement of H1 genes and have studied the expression of the seven human H1 subtype genes in several cell lines. The RNAase protection assay was used to discriminate between the very similar transcripts derived from the seven H1 subtype genes. With the exception of H1.2 and H1.4, we found substantial differences between the H1 mRNA levels in the different cell lines tested. No H1.1 mRNA was detected in most of the cell lines and just a low level of H1.1 mRNA was found in human testis. In contrast to the differential patterns of the other subtypes, H1.2 and H1.4 were in all cells expressed at a high level, indicating a basal function compared with the other H1 histones. Because differences in the timing of H1 protein subtype synthesis have been reported, we have analyzed the kinetics of accumulation of H1 subtypes in synchronized HeLa cells and observed that all H1 subtypes examined (H1 degrees, H1.2-H1.5) were expressed in a replication-dependent manner. The analysis showed a differential rise of mRNA levels during S-phase, from four-fold (H1 degrees) to 15-fold (H1.5). Our results may point at a specific function of each subtype and suggest that expression of the H1 histone subtype genes depends on common S-phase-depent factors as well as on individual regulatory systems. Thus, the data presented here provide a basis for further analysis of the regulation and function of the complex H1 gene and protein family.
DNA Cell Biol 1997 Sep
PMID:Varied expression patterns of human H1 histone genes in different cell lines. 932 6

Characteristic steps in the course of cellular apoptosis are the induction of chromatin condensation and cleavage of the DNA, leading to the formation of oligomers of nucleosomes. Since the H1 histones represent functional elements that are essential for the generation of highly condensed chromatin structures, we analysed the total cellular H1 histones of five leukaemic and three solid human tumour cell lines, comparing the H1 pattern of exponentially growing cells with that of apoptotic cells. For the induction of apoptosis, cell lines were treated with the water-soluble camptothecin derivative, topotecan (a topoisomerase I inhibitor), or with an apoptosis-inducing monoclonal anti-CD95 (Fas/APO-1) antibody. Total histone H1 proteins were isolated by extraction with 5% perchloric acid and were analysed by means of capillary zone electrophoresis (CZE) separation. The identities of the peaks representing different histone H1 subtypes on CZE electropherograms were confirmed by analysis of preparations (recombinant proteins purified from transformed yeast used as internal standards) mixed with each of the subtypes respectively. The progress of topotecan- or anti-CD95-induced cell death was monitored by flow cytometry analysis and also by agarose electrophoresis of fragmented DNA. During early apoptosis of three of these cell lines, we observed the induction of internucleosomal DNA cleavage and, simultaneously, a typical change in the histone H1 protein pattern, leading to an increase in the relative amounts of histone subtypes H1.4 and H1.5. Upon apoptosis induction, these changes were only observed in correlation with the occurrence of DNA fragmentation, thus possibly reflecting a prerequisite for DNA accessibility and/or endonuclease activity.
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PMID:Changes in the protein pattern of H1 histones associated with apoptotic DNA fragmentation. 988 31

Histone post-translational modifications have been implicated in a variety of biological processes such as gene expression, DNA replication, and chromatin assembly. The modifications include methylation, acetylation, phosphorylation, ubiquitination, glycosylation, and ADP-ribosylation. For several years, we have been investigating the role of histone H1 phosphorylation in transcription using the hormone inducible mouse mammary tumor virus (MMTV) promoter. When mouse cells were exposed to prolonged treatment with dexamethasone, a significant decrease in the level of histone H1 phosphorylation was observed. Traditionally, Western analyses with anti-histone H1 and phospho-specific H1 antibodies were performed to observe changes in phosphorylation levels of the bulk H1 histones. More recently, we have applied electrospray ionization mass spectrometry to the analysis of histone H1 isoforms. Utilizing this approach, we have investigated the phosphorylation state of the specific H1 isoforms before and after prolonged treatment with dexamethasone. Specifically, we could determine that the relative phosphorylation levels of the histone H1.3, H1.4, and H1.5 isoforms decrease after prolonged hormone exposure. Recent advancements in mass spectrometry have proven invaluable toward the analysis of post-translational modifications on proteins. The continued developments in the area of mass spectrometry should provide new insights into not only the function of proteins but also into the basic regulatory mechanisms that control cellular functions.
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PMID:Understanding global changes in histone H1 phosphorylation using mass spectrometry. 1503 87

In humans, eight types of histone H1 exist (H1.1-H1.5, H1 degrees , H1t and H1oo), all consisting of a highly conserved globular domain and less conserved N- and C-terminal tails. Although the precise functions of these isoforms are not yet understood, and H1 subtypes have been found to be dispensable for mammalian development, it is now clear that specific functions may be assigned to certain individual H1 subtypes. Moreover, microsequence variations within the isoforms, such as polymorphisms or mutations, may have biological significance because of the high degree of sequence conservation of these proteins. This study used a hydrophilic interaction liquid chromatographic method to detect sequence variants within the subtypes. Two deviations from wild-type H1 sequences were found. In K562 erythroleukemic cells, alanine at position 17 in H1.2 was replaced by valine, and, in Raji B lymphoblastoid cells, lysine at position 173 in H1.4 was replaced by arginine. We confirmed these findings by DNA sequencing of the corresponding gene segments. In K562 cells, a homozygous GCC-->GTC shift was found at codon 18, giving rise to H1.2 Ala17Val because the initial methionine is removed in H1 histones. Raji cells showed a heterozygous AAA-->AGA codon change at position 174 in H1.4, corresponding to the Lys173Arg substitution. The allele frequency of these sequence variants in a normal Swedish population was found to be 6.8% for the H1.2 GCC-->GTC shift, indicating that this is a relatively frequent polymorphism. The AAA-->AGA codon change in H1.4 was detected only in Raji cells and was not present in a normal population or in six other cell lines derived from individuals suffering from Burkitt's lymphoma. The significance of these sequence variants is unclear, but increasing evidence indicates that minor sequence variations in linker histones may change their binding characteristics, influence chromatin remodeling, and specifically affect important cellular functions.
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PMID:Characterization of sequence variations in human histone H1.2 and H1.4 subtypes. 1600 66

Until a few years ago, the H1 histones were exclusively considered to be the architectural proteins of chromatin involved in chromatin condensation. However there is now increasing data to support the hypothesis that the H1 subtypes are involved in genomic integrity and that they may have unexpected functional roles in various biological processes such as in differentiation and DNA repair, apoptosis and lifespan. Moreover, the H1 histones are phosphorylated to a great extent. Recent work has implicated phosphorylation of H1 in the regulation of chromatin remodeling. In light of the fact that chromatin reorganization and heterochromatin formation has been shown to take place during ageing and senescence, in the present investigation, we have analyzed the changes that take place in the somatic H1 linker histone subtype profile and their phosphorylation states in human peripheral blood lymphocytes as a function of donor age. Results from this work show that there is a significant age-related dephosphorylation of H1.4 and H1.5 and an increase in the heterochromatin protein HP1alpha as a function of donor age. These results indicate that dephosphorylation of H1 histones may be related to an increase in senescence-associated heterochromatin formation during the in vivo ageing of human peripheral blood lymphocytes.
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PMID:H1 histone subtype constitution and phosphorylation state of the ageing cell system of human peripheral blood lymphocytes. 1823 61

At least six histone H1 variants exist in somatic mammalian cells that bind to the linker DNA and stabilize the nucleosome particle contributing to higher order chromatin compaction. In addition, H1 seems to be actively involved in the regulation of gene expression. However, it is not well known whether the different variants have distinct roles or if they regulate specific promoters. We have explored this by inducible shRNA-mediated knock-down of each of the H1 variants in a human breast cancer cell line. Rapid inhibition of each H1 variant was not compensated for by changes of expression of other variants. Microarray experiments have shown a different subset of genes to be altered in each H1 knock-down. Interestingly, H1.2 depletion caused specific effects such as a cell cycle G1-phase arrest, the repressed expression of a number of cell cycle genes, and decreased global nucleosome spacing. On its side, H1.4 depletion caused cell death in T47D cells, providing the first evidence of the essential role of an H1 variant for survival in a human cell type. Thus, specific phenotypes are observed in breast cancer cells depleted of individual histone H1 variants, supporting the theory that distinct roles exist for the linker histone variants.
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PMID:Depletion of human histone H1 variants uncovers specific roles in gene expression and cell growth. 1892 31

Linker histones H1 are key modulators of chromatin structure. Tightness of their binding to DNA is regulated by posttranslational modifications. In this study we have analyzed posttranslational modifications of five major variants of H1 in human tissue - H1.0, H1.2, H1.3, H1.4, and H1.5. To improve sequence coverage, tryptic peptides of H1 were separated by HPLC and the individual fractions were analyzed using a peptide on-chip implementation of nanoelectrospray (TriVersa), coupled to a linear ion trap-orbitrap hybrid instrument. For quantitative analysis of lysine methylation, ionization efficiencies of methylated and nonmethylated peptides were determined using synthetic peptides. Our analysis revealed that monomethylation of lysine residues alongside with phosphorylation of serine and threonine residues is the major modification of H1 in tissue. We found that most prominent methylation sites are in the N-terminal tail and the globular domain of H1. In the C- terminal domains we identified only few and less abundant methylation sites. Quantitative analysis revealed that up to 25% of H1.4 is methylated at K-26 in human tissues. Another prominent methylation site was mapped to K-27 in H1.5, which resembles the K-26 site in H1.4. In H1.0 five less abundant (<1% of H1.0) sites were identified. Analysis of patient matched pairs of cancer and adjacent normal breast demonstrated high variation in H1 methylation between individuals.
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PMID:Mapping of lysine monomethylation of linker histones in human breast and its cancer. 1955 82

Lysine methylation is one of the most prominent histone posttranslational modifications that regulate chromatin structure. Changes in histone lysine methylation status have been observed during cancer formation, which is thought to be a consequence of the dysregulation of histone lysine methyltransferases or the opposing demethylases. KDM4/JMJD2 proteins are demethylases that target histone H3 on lysines 9 and 36 and histone H1.4 on lysine 26. This protein family consists of three ~130-kDa proteins (KDM4A-C) and KDM4D/JMJD2D, which is half the size, lacks the double PHD and Tudor domains that are epigenome readers and present in the other KDM4 proteins, and has a different substrate specificity. Various studies have shown that KDM4A/JMJD2A, KDM4B/JMJD2B, and/or KDM4C/JMJD2C are overexpressed in breast, colorectal, lung, prostate, and other tumors and are required for efficient cancer cell growth. In part, this may be due to their ability to modulate transcription factors such as the androgen and estrogen receptor. Thus, KDM4 proteins present themselves as novel potential drug targets. Accordingly, multiple attempts are under way to develop KDM4 inhibitors, which could complement the existing arsenal of epigenetic drugs that are currently limited to DNA methyltransferases and histone deacetylases.
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PMID:KDM4/JMJD2 histone demethylases: epigenetic regulators in cancer cells. 2364 28


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