Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: HUMANGGP:040116 (histone)
 44,835 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The biochemical mechanism(s) underlying the priming of the macrophage for an enhanced PMA-induced respiratory burst is not understood. Because the cellular receptor for PMA is thought to be protein kinase C (PKC), we have investigated the effects of priming agents on cellular PKC levels. Sonicates from unprimed bone marrow-derived macrophages (BMM) were found to contain PKC activity (309 +/- 51 pmol 32P-incorporated/mg/min; mean +/- SE, n = 17) as measured by the phospholipid-, diacylglycerol-, and calcium-dependent phosphorylation of histone. Exposure of BMM to priming agents such as TNF-alpha, LPS, and granulocyte/macrophage-CSF resulted in a significant increase in both histone-phosphorylating activity and levels of immunoreactive PKC protein in these cells. A minimum of 6-h exposure, with an increasing effect up to 48 h, was required for a detectable increase in PKC level. The activity from primed BMM, like that of the untreated cells, was predominantly cytosolic. The kinetics and concentration dependence of the priming agent-induced increase in the PKC content of BMM closely paralleled the enhancing effects of these agents on the PMA-stimulated respiratory burst. Furthermore, CSF-1, a cytokine that does not prime BMM, failed to increase PKC activity. We propose that the exposure of BMM to priming agents leads to an increase in the expression of a stimulatory isozyme(s) of PKC, resulting in an enhanced ability to mount a respiratory burst in response to stimulation with PMA.
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PMID:Priming of the respiratory burst of bone marrow-derived macrophages is associated with an increase in protein kinase C content. 140 16

We showed previously by using imprint electroimmunofixation that the oligoclonal IgG in sera and CSF from chronic relapsing EAE in guinea pigs were specific to spinal cord and Mycobacterium tuberculosis. We now show that most oligoclonal IgG bands are directed predominantly against isolated myelin basic protein (MBP). Activity to the latter could be removed from sera or CSF by absorption with MBP but not with histone or lysozyme. The oligoclonal IgG reacted weakly with isolated proteolipid apoprotein, and lacked reactivity to myelin-associated glycoprotein. When the oligoclonal IgG activity to myelin proteins was removed from the sera by absorption with a preparation of delipidated myelin before imprint electroimmunofixation, a few bands in some sera still reacted with whole spinal cord homogenate. These results indicate that, in some sera, a part of the oligoclonal IgG was directed against non-myelin proteins or lipids. In contrast to chronic relapsing EAE, CSF oligoclonal IgG from patients with multiple sclerosis showed no reactivity against human brain homogenate, whole myelin, delipidated myelin, and MBP in imprint electroimmunofixation.
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PMID:Specificity of oligoclonal IgG bands against myelin proteins in chronic relapsing EAE in guinea pigs. 243 29

DNA synthesis, morphology, specific RNA accumulation and rates of specific protein synthesis in GM-CSF stimulated bone marrow progenitor cells were studied. DNA synthesis increased markedly for 64 hours and then gradually decreased to 5% maximal activity by 160 hours. Morphologic examination 40 to 64 hours after stimulation revealed an increasing proportion of immature myeloid cells. After this proliferative peak, cells differentiated into segmented neutrophils and monocytes/macrophages; only mature forms were present by 160 hours. Accumulation of mRNA for c-myb and c-myc was maximal at 40 hours just prior to maximal [3H]thymidine incorporation, while maximal accumulation of histone type 3 (H3) was coincident with maximal [3H]thymidine incorporation at 64 hours. As proliferation decreased and differentiation proceeded, levels of mRNA for c-myb and H3 decreased markedly, while levels of RNA for c-myc decreased gradually and remained elevated above day 0 levels. Levels of c-fos mRNA fluctuated slightly during the first 64 hours of culture and increased 13-fold by 160 hours when mature cells were present. Similarly, beta-2 microglobulin mRNA increased steadily to maximal levels at 112 to 160 hours which were 15-fold higher than day 0 levels. Myeloperoxidase (MPO) mRNA was present in maximal amounts at 40 to 64 hours after stimulation with GM-CSF as the number of immature myeloid cells peaked. Immunoprecipitation of MPO from pulse-labeled cell lysates demonstrated a 7-fold rise in synthetic rate of MPO of 64 hours and a 28-fold decline by 160 hours when only 5% immature myeloid cells were present. Thus, MPO protein synthesis closely follows MPO mRNA accumulation. Immunoprecipitation of lactoferrin, a marker of myeloid secondary granules, demonstrated a gradual 5-fold increase in synthetic rate as the cells matured. Taken together, these data show that maximal expression of the early myeloid differentiation enzyme myeloperoxidase in GM-CSF stimulated normal bone marrow cells occurs during peak proliferation of immature myeloid cells.
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PMID:Myeloperoxidase and oncogene expression in GM-CSF induced bone marrow differentiation. 283 25

Colony-stimulating factor 1 (CSF-1) regulates the survival, proliferation, and differentiation of mononuclear phagocytes. The CSF-1 receptor was purified from cell membranes of the J774.2 mouse macrophage cell line by solubilization with Triton X-100, CSF-1 affinity chromatography, and gel filtration. The purified receptor is a protein or glycoprotein of 165 kDa comprising a single polypeptide chain that is not covalently associated, either as a homopolymer, or with any other protein. CSF-1 stimulated autophosphorylation of the purified receptor in tyrosine residues. Casein but not histone was shown to act as a substrate for the tyrosine protein kinase activity of purified receptor.
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PMID:Purification of the colony-stimulating factor 1 receptor and demonstration of its tyrosine kinase activity. 302 75

Epithelial-mesenchymal interactions control epidermal growth and differentiation, but little is known about the mechanisms of this interaction. We have examined the effects of human dermal microvascular endothelial cells (DMEC) and fibroblasts on keratinocytes in conventional (feeder layer) and organotypic cocultures (lifted collagen gels) and demonstrated the induction of paracrine growth factor gene expression. Clonal keratinocyte growth was similarly stimulated in cocultures with irradiated DMEC and fibroblasts as feeder cells. This effect is most probably caused by induction of growth factor expression in cocultured dermal cells. Keratinocytes stimulated mRNA levels for KGF and IL-6 in both mesenchymal cell types and GM-CSF in fibroblasts. The feeder effect could not be replaced by conditioned media or addition of isolated growth factors. In organotypic cocultures with keratinocytes growing on collagen gels (repopulated with dermal cells), a virtually normal epidermis was formed within 7 to 10 d. Keratinocyte proliferation was drastically stimulated by dermal cells (histone 3 mRNA expression and BrdU labeling) which continued to proliferate as well in the gel. Expression of all typical differentiation markers was provoked in the reconstituted epithelium, though with different localization as compared to normal epidermis. Keratins K1 and K10 appeared coexpressed but delayed, reflecting conditions in epidermal hyperplasia. Keratin localization and proliferation were normalized under in vivo conditions, i.e., in surface transplants on nude mice. From these data it is concluded that epidermal homeostasis is in part controlled by complex reciprocally induced paracrine acting factors in concert with cell-cell interactions and extracellular matrix influences.
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PMID:Mutual induction of growth factor gene expression by epidermal-dermal cell interaction. 832 Feb 64

A central factor in the pathogenesis of inflammatory and fibrotic lung disease (adult respiratory distress syndrome, sarcoidosis, idiopathic pulmonary fibrosis) is the locally elevated number of alveolar macrophages (AM). An elevation in the production rate of AM, chemoattraction and differentiation of monocytes, or a diminution in the death rate might be underlying mechanisms. The aim of the present study was to investigate the modulatory role of endotoxin and cytokines on the death rate of human AM. Lipopolysaccharide (LPS) treatment resulted in a 4-fold increase (7.6 to 30.2%) of AM death. AM death was apoptotic as assessed by in situ DNA end labeling (ISDE), transmission electron microscopy, DNA gel electrophoresis, fluorometry of fragmented DNA, and an ELISA specific for histone-associated DNA fragments. Among the different bacterial cell wall components tested, LPS was the only inducer of apoptosis in human AM. None of the tested cytokines (interleukin-1 beta [IL-1 beta], IL-4, IL-6, IL-10, tumor necrosis factor-alpha [TNF-alpha], transforming growth factor-beta 2 [TGF-beta 2], interferon-gamma [IFN-gamma], macrophage colony-stimulating factor [M-CSF], granulocyte colony-stimulating factor [G-CSF], and granulocyte-macrophage colony-stimulating factor [GM-CSF]) was capable of enhancing the spontaneous rate of apoptosis. However, LPS-induced apoptosis was significantly enhanced by the macrophage-activating cytokine IFN-gamma, and reduced by the macrophage-deactivating cytokines IL-4, IL-10, and TGF-beta.
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PMID:Apoptosis in human alveolar macrophages is induced by endotoxin and is modulated by cytokines. 867 23

The thymus provides an optimal humoral microenvironment for the development of immunocompetent T cells. Although yolk sac derived pre-T, committed hematopoietic stem cells enter the thymus using a homing receptor, the immigration process also requires secretion of a peptide called thymotaxin by the cells of the reticulo-epithelial (RE) network of the thymic cellular microenvironment. The majority of RE cells have a round or irregular pale nucleus, which contains few, scattered, chromatin granules with a defined, spherical nucleolus, rich in basic histones. Their cytoplasm occasionally displays RNP granules, and is rich in non-histone proteins, fine phospholipid, lipid or cholesterin granules, and vacuoles filled with secreted substances. The cells of the subcapsular, endocrine RE cell layer (giant or nurse cells), characterized by PAS positive granules, express A2B5/TE4 cell surface antigens and MHC Class I (HLA A, B, C) molecules. In contrast to medullar RE cells, these subcapsular nurse cells also produce thymosins beta 3 beta 4. Thymic nurse cells (TNCs) display a neuroendocrine cell specific immunophenotype (IP): Thy-1+, A2B5+, TT+, TE4+, UJ13/A+, UJ127.11+, UJ167.11+, UJ181.4+, and presence of common leukocyte antigen (CLA+). Medullar RE cells display MHC Class II (HLA-DP, HLA-DQ, HLA-DR) molecule restriction. These cells also contain transforming growth factor-beta (TGF-beta) type II receptors and participate in the positive selection of T cells. Transmission electron-microscopic (TEM) observations have defined four functional subtypes of medullar RE cells: undifferentiated, squamous, villous, and cystic. All subtypes are connected by desmosomes. Immunocytochemical observations have shown that the secreted thymic hormones, thymosin alpha 1 and thymopoietin (and its short form, thymopentin or TP5), are produced by the same RE cells. Thymic RE cells also produce numerous cytokines including IL1, IL6, G-CSF, M-CSF, and GM-CSF that likely are important in various stages of thymocyte activation and differentiation. The co-existence of pituitary hormone and neuropeptide secretion, such as growth hormone, prolactin, adrenocorticotropic hormone, thyroid stimulating hormone, triiodothyronine, somatostatin, oxytocin, follicle stimulating hormone, luteinizing hormone, arginine vasopressin, growth hormone releasing hormone, corticotropin releasing hormone, nerve growth factor, vasoactive intestinal peptide, (pro) enkephalin, and beta-endorphin, production of a number of interleukins and growth factors, as well as the expression of receptors for all, by the same RE cell is an unique molecular biological phenomenon. These data illustrate the immensely important and diverse immuno-neuroendocrine functions of the thymic RE cellular network. Based on our systematic observations of the thymus in humans and other mammalian species, we suggest that the thymic RE cell network represents an extremely important cellular and humoral microenvironment in homeopathic regulatory mechanisms of the multicellular organism. Intrathymic T lymphocyte selection is a complex, multistep process, influenced by several functionally specialized RE cell subtypes and under constant immuno-neuroendocrine regulation, reflecting the dynamic changes of the organism.
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PMID:Molecular biological ontogenesis of the thymic reticulo-epithelial cell network during the organization of the cellular microenvironment. 1045 6

Asthma is a chronic inflammatory disease of the airway that is characterized by cellular infiltration and activation. These processes are induced by overexpression of chemokines and cytokines, such as eotaxin, IL-1beta and GM-CSF. These mediators are downstream targets for the transcription factors activator protein-1 (AP-1) and nuclear factor-kappaB (NF-kappaB), which control the expression of most immunomodulatory genes and whose activity and expression are elevated in asthma. Glucocorticoids are the most effective anti-inflammatory drugs used in the treatment of chronic inflammatory diseases such as asthma. They act by binding to a specific glucocorticoid receptor (GR) that on activation translocates to the nucleus and either increases (transactivates) or decreases (transrepresses) the expression of responsive genes. Transrepression is the major mechanism of glucocorticoid action in inhibiting inflammatory gene expression. Thus, the ability of the transcription factors AP-1 and NF-kappaB to induce gene transcription is attenuated by GR. Although only 5-10% of asthmatic subjects are glucocorticoid-insensitive, these subjects account for over 50% of the health-care costs for asthma (> $6 billion per annum). Examining these patients also gives an insight into important aspects of glucocorticoid action in controlling inflammation and into the development of potential new drugs. Biochemical and genomic studies have indicated abnormal induction of the c-Jun N-terminal kinase (JNK) pathway in some of these patients. The ability of most patients to respond to dexamethasone with induction of histone acetylation correlated with nuclear translocation of GR. However, a subgroup of these patients had an inability to correctly interact with the basal transcription complex in spite of high levels of nuclear GR. This suggests that cross-talk between pro- and anti-inflammatory transcription factors may modulate activation of the transcriptional complex and thereby reduce steroid actions.
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PMID:Cross-talk between pro-inflammatory transcription factors and glucocorticoids. 1148 85

Glucocorticoids are highly effective in controlling chronic inflammatory diseases by inhibiting the expression of cytokines and chemokines. Glucocorticoids act through binding of their receptor resulting to inhibition of transcription factors such as nuclear factor kappa B (NF-kappa B). This may occur via the transcription integrator protein, CREB binding protein (CBP), which has intrinsic histone acetylase (HAT) activity. Interleukin (IL)-1 beta caused a significant increase in NF-kappa B-mediated granulocyte/macrophage colony stimulating factor (GM-CSF) release, which was inhibited by the glucocorticoid mometasone furoate (MF) (EC(50)=2 x 10(-11) M). This effect was inhibited by CBP over-expression. The role of histone acetylation and DNA methylation in the transcription of GM-CSF was indicated by trichostatin A (TSA), an inhibitor of histone deacetylases, and 5-azacytidine (5-aza), a DNA methylase inhibitor, to increase GM-CSF expression partially blocking glucocorticoid inhibition of IL-1 beta-stimulated GM-CSF release. These data suggest that the mechanism of glucocorticoid action in suppressing interleukin-1 beta-stimulated GM-CSF release in A549 cells may involve modulation of CBP-mediated histone-acetylase activity and DNA methylation.
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PMID:Glucocorticoid-mediated transrepression is regulated by histone acetylation and DNA methylation. 1169 53

Granulocyte macrophage-colony-stimulating factor (GM-CSF), released from alveolar macrophages (AM), is an important regulator of eosinophil, T cell, and macrophage function and survival. We determined the mechanisms of GM-CSF regulation in AM from normal volunteers activated by lipopolysaccharide (LPS) by examining the role of nuclear factor-kappaB (NF-kappaB), and of p38 mitogen-activated protein (MAP) kinase and MAP kinase kinase (MKK-1). PD 098059 (10 microM), an inhibitor of upstream activator of MKK-1, inhibited GM-CSF expression, but the expression of GM-CSF was not inhibited by SB 203580 (10 microM), an inhibitor of p38-MAP kinase. Phosphorylation of extracellular signal-regulated kinase-1 (ERK-1), ERK-2, and p38 MAP kinase by LPS were demonstrated on Western blot analysis. LPS increased NF-kappaB:DNA binding as examined by electrophoretic mobility shift assay, but this was not suppressed by PD 098059 or by SB 203580. LPS induced an increase in NF-kappaB activation as examined by p50 translocation assay without suppression by PD 098059 or by SB 203580. SN50 (100 microM), an inhibitor of NF-kappaB translocation and the specific IKK-2-Inhibitor (AS602868; 10 microM), also prevented GM-CSF expression and release induced by LPS, indicating that GM-CSF release is NF-kappaB-dependent. PD 098059, but not SB 203580, inhibited LPS-induced histone acetyltransferase (HAT) activity, indicating chromatin modification. Furthermore, AS602868 and SN 50 suppressed LPS-induced HAT activity. TSA (10 ng/ml), an inhibitor of histone deacetylase (HDAC), reversed the inhibitory effect of PD 098059, SB 203580, SN 50 and AS602868 on GM-CSF release. GM-CSF expression and release in AM is controlled by NF-kappaB activation, and this is modulated by phosphorylation of MKK-1 and p38 MAP kinase acting on histone acetylation.
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PMID:Mitogen-activated protein kinase modulation of nuclear factor-kappaB-induced granulocyte macrophage-colony-stimulating factor release from human alveolar macrophages. 1287 51


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