Methylation of the N-terminal region of histones was first described more than 35 years ago, but its biological significance has remained unclear. Proposed functions range from transcriptional regulation to the higher order packing of chromatin in progress of mitotic condensation. Primarily because of the recent discovery of the SET domain-depending H3-specific histone methyltransferases SUV39H1 and Suv39h1, which selectively methylate lysine 9 of the H3 N terminus, this posttranslational modification has regained scientific interest. In the past, investigations concerning the biological significance of histone methylation were largely limited because of a lack of simple and sensitive analytical procedures for detecting this modification. The present work investigated the methylation pattern of histone H4 both in different mammalian organs of various ages and in cell lines by applying mass spectrometric analysis and a newly developed hydrophilic-interaction liquid chromatographic method enabling the simultaneous separation of methylated and acetylated forms, which obviates the need to work with radioactive materials. In rat kidney and liver the dimethylated lysine 20 was found to be the main methylation product, whereas the monomethyl derivative was present in much smaller amounts. In addition, for the first time a trimethylated form of lysine 20 of H4 was found in mammalian tissue. A significant increase in this trimethylated histone H4 was detected in organs of animals older than 30 days, whereas the amounts of mono-and dimethylated forms did not essentially change in organs from young (10 days old) or old animals (30 and 450 days old). Trimethylated H4 was also detected in transformed cells; although it was present in only trace amounts in logarithmically growing cells, we found an increase in trimethylated lysine 20 in cells in the stationary phase.In vivo methylation of the side chains of specific lysines, histidines, and arginines in proteins is a very common phenomenon in nature involving numerous classes of proteins in both prokaryotic and eukaryotic cells (1, 2). During the last several years, studies on the methylation of proteins have yielded many important observations. While these studies were under way, it was generally realized that protein methylation is far more complex and has more ramifications than originally assumed.Methylation is also a well known posttranslational modification reaction of histone proteins on lysine and/or arginine residues with a site selectivity for lysine methylation at specific positions in the N termini of histones H3 and H4. In combination with other posttranslational modifications, i.e. acetylation and phosphorylation, methylation seems to play a significant role in regulating nuclear functions. Thus, it has been suggested that distinct combinations of covalent histone modifications, also referred to as "histone code," provide a specific mark on the hydrophilic histone tails, which, when read by other proteins, cause specific downstream events finally inducing transi...
Psoriasis is an inflammatory skin disorder characterized by the hyperproliferation of basal epidermal cells. It is regarded as T-cell mediated, but the role of keratinocytes (KCs) in the disease pathogenesis has reemerged, with genetic studies identifying KC-associated genes. We applied flow cytometry on KCs from lesional and nonlesional epidermis to characterize the phenotype in the germinative compartment in psoriasis, and we observed an overall increase in the stemness markers CD29 (2.4-fold), CD44 (2.9-fold), CD49f (2.8-fold), and p63 (1.4-fold). We found a reduced percentage of cells positive for the early differentiation marker cytokeratin 10 and a greater fraction of CD29 þ and involucrin þ cells in the psoriasis KCs than in nonlesional KCs. The upregulation of stemness markers was more pronounced in the K10 þ cells. Furthermore, the psoriasis cells were smaller, indicating increased proliferation. Treatment with IL-17 and IL-22 induced a similar expression pattern of an up-regulation of p63, CD44, and CD29 in normal KCs and increased the colony-forming efficiency and long-term proliferative capacity, reflecting increased stem cell-like characteristics in the KC population. These data suggest that IL-17 and IL-22 link the inflammatory response to the immature differentiation and epithelial regeneration by acting directly on KCs to promote cell stemness.
The H1 histones are small basic proteins occurring in all higher eukaryotes in multiple subtypes that differ only slightly in their primary sequences. H1 histones consist of a central, highly conserved globular domain, while the hydrophilic N-and C-terminal tails exhibit less sequence conservation. In addition to the heterogeneity of their primary structures, the H1 tails are also extensively post-translationally modified (e.g. phosphorylated or ADP-ribosylated) under various biological conditions. Moreover, the proportion of H1 In humans, eight types of histone H1 exist (H1.1-H1.5, H1°, 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 GCCfiGTC 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 AAAfiAGA 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 GCCfiGTC shift, indicating that this is a relatively frequent polymorphism. The AAAfiAGA 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.Abbreviations CE, capillary electrophoresis; HILIC, hydrophilic interaction liquid chromatography; HPCE, high performance capillary electrophoresis; RFLP, restriction fragment length polymorphism; SNP, single nucleotide polymorphism; TEAP, triethylammonium phosphate.
Blood flow was examined in sciatic nerves of pentobarbital-anesthetized rats by means of laser Doppler flowmetry (LDF) and intravenous [14C]iodoantipyrine infusion. Continuous LDF signals demonstrated slow oscillations and acute, pressure-related changes in flow. The steady-state LDF signal was related linearly to nerve blood flow, as measured with [14C]iodoantipyrine, in intact nerves and nerves stripped of the epineurium. In 14 intact nerves, nerve blood flow averaged 0.27 +/- 0.03 (SE) ml X min-1 X g-1, whereas it averaged 0.13 +/- 0.01 in 5 stripped nerves. Autoradiographs of [3H]-nicotine-infused nerves and intra-arterial injection of 57Co-labeled microspheres demonstrated that flow was not uniform throughout the nerve cross section. The results indicate that LDF can be used to examine nerve blood flow in vivo, demonstrate a linear relation between the LDF signal and flow, and establish absolute values for blood flow in intact and stripped nerves of the anesthetized rat.
A method for measurement of phagolysosomal pH in individual alveolar macrophages based on a cytofluorometric technique with fluorescein-labeled silica particles (FSP) as a probe was developed. The size of the FSP, 3.0 or 5.0 microns, did not affect the result of the pH measurements. The average pH values, range 5.1-5.5, of individual particles in macrophages from three rabbits agreed well with the pH values obtained in a macrophage population using a fluorescence spectrometer and the FSP. The variation of pH in phagolysosomes in alveolar macrophages from five rabbits was investigated. Measurements were performed 3, 6, and 24 h after addition of the FSP in cells containing one particle as well as in cells containing two particles. The variation in pH was small, with a coefficient of variation less than 10% in all rabbits at all times. There was a significant correlation between values obtained from two phagolysosomes in the same cell, indicating a cell factor responsible for 10-30% of the total variance. The fact that the variation of pH is small in normal, untreated rabbit alveolar macrophages should be of importance when estimating alveolar clearance of inorganic particles due to dissolution in the acid phagolysosomal milieu.
Histone H1(0) is a linker histone subvariant present in tissues of low proliferation rate. It is supposed to participate in the expression and maintenance of the terminal differentiation phenotype. The aim of this work was to study histone H1(0) distribution in human breast carcinoma and its relationship with the processes of proliferation and differentiation. Most of the cells in carcinomas of moderate and high level of differentiation expressed histone H1(0) including cells invading connective and adipose tissues. In low differentiated tumours, the number of H1(0) expressing cells was considerably lower. Staining of myoepithelial cells, when seen, and of stromal fibroblasts was variable. The metastatic malignant cells in the lymph nodes also accumulated H1(0) but lymphocytes were always negative. All immunopositive malignant cells exhibited signs of polymorphism. Double H1(0)/Ki-67 staining showed that the growth fraction in more differentiated tumours belonged to the H1(0)-positive cells, while in poorly differentiated carcinomas it also included a cell subpopulation not expressing H1(0). If expressed, p27Kip1 was always found in H1(0)-positive cells. These findings are inconsistent with the widespread view that histone H1(0) is expressed only in terminally differentiated cells. Rather, they suggest that the protein is expressed in cells in a prolonged intermitotic period irrespective of their level of differentiation. Double H1(0)/Ki-67 immunostaining could be a useful tool in studying the growth fraction in tumours.
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