EC:3.4.25.1 - FACTA Search

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Query: EC:3.4.25.1 (proteasome)
28,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We studied cytokine-related functional properties of four mouse endotheliomas from different anatomical sites obtained by transformation with middle T oncogene. We examined mRNA expression of IL-6, IL-1 alpha, macrophage-CSF, granulocyte/macrophage-CSF, and two members of an emerging super-family of chemotactic cytokines (JE/monocyte chemoattractant protein-1 (MCP-1) and KC). Exposure to IL-1 augmented or induced cytokine gene transcripts in three endothelioma lines (eEnd.1, sEnd.1, and tEnd) with maximal expression in tEnd.1 cells. Endothelioma cells also responded to TNF-alpha and LPS. Levels of IL-6 and monocyte chemotactic activity (a JE/MCP activity) correlated with mRNA expression. IL-1 also induced production of procoagulant activity and platelet-activating factor in endothelioma cells, with heterogeneity in the levels of response among individuals lines. Murine melanoma B16-F1, human colon carcinoma HT29 cells, CB33MT lymphoblastoid cells, and monocytes adhered to endothelioma monolayers and the adhesive properties of these cell lines were modulated by IL-1 beta, with marked differences among themselves. Murine EC derived from brain capillaries, used as control, shared several properties with bEnd.4 line. Endothelioma lines cause tumors by recruiting host cells. The capacity to produce cytokines that directly or indirectly attract host vascular cells, may play an important role in hemangioma induction in vivo. Murine endothelioma lines, generated by transformation with the polyoma middle T oncogene, retain functional properties of normal endothelium, and may represent an invaluable tool for analysis of the immunobiology and heterogeneity of EC in different tissues.
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PMID:Murine endothelioma cell lines transformed by polyoma middle T oncogene as target for and producers of cytokines. 191 46

Endothelial cells are critical elements in the evolution of all types of cutaneous inflammation. They participate through the synthesis and secretion of pro-inflammatory cytokines, including interleukin 1 (IL-1), IL-6, and IL-8, as well as M-CSF, G-CSF, GM-CSF, gro alpha, and MCP. They also express a series of cell-surface proteins and glycoproteins known as cell adhesion molecules that allow circulating leukocytes to bind to endothelial cells and allow endothelial cells to bind to matrix proteins. The regulated expression of these molecules, including those in the integrin, immunoglobulin gene, and selection families, allows for the precise trafficking of circulating leukocytes to sites of inflammation, injury, or immunologic stimulation in the skin. Furthermore, emerging evidence clearly indicates that selected differences exist between endothelial cells of the microvasculature and those that line large blood vessels. These include differences in secreted products, differences in the expression of cell adhesion molecules, and differences in cytokine-induced regulation of commonly expressed cell adhesion molecules, among others. Thus, a precise delineation of the biology of cutaneous microvascular endothelial cells is important to our understanding of cutaneous inflammation.
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PMID:Role of microvascular endothelial cells in inflammation. 842 79

Endothelial cells are critical elements in the evolution of all types of cutaneous inflammation. They participate the pathological process through the synthesis and secretion of pro-inflammatory cytokines, including interleukin 1 (IL1), IL6, IL8, and the three colony stimulating factors G-CSF, M-CSF, and GM-CSF and the two chemotactic factors gro-alpha and MCP. They also express a series of cell-surface proteins and glycoproteins known as cell adhesion molecules that allow circulating leukocytes to selectively bind to endothelial cells. In this paper we discuss the role of endothelial cells in the evolution of cutaneous necrotizing vasculitis, an immunologically mediated clinical disorder associated with segmental inflammation and fibrinoid necrosis of the dermal venules, through the release of cytokines or their response to cytokines locally produced from leukocytes themselves primarily involved in the endothelial cells injury. This interaction seems to involve and modulate other biologically active systems including the fibrinolytic system that can act amplifying and self-perpetuating the tissue damage through a non-immunologic mechanism.
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PMID:Cytokines, fibrinolysis and vasculitis. 860 38

Pathways for presenting proteins from the extracellular fluids on MHC class I molecules have been described in macrophages. However, it is uncertain whether similar mechanisms exist in dendritic cells, because conventional preparations of these cells can be contaminated with macrophages. We addressed this issue by transducing granulocyte-macrophage CSF into bone marrow cultures followed by supertransfection with myc and raf oncogenes. These immortalized clones displayed dendritic morphology, and many expressed the dendritic cell-specific markers DEC-205 and 33D1 as well as high levels of MHC molecules and costimulatory molecules. Using these cloned dendritic cells, we found that exogenous OVA could be presented on both their MHC class I and class II molecules. This presentation was markedly enhanced when the Ag was particulate and internalized by phagocytosis. Presentation of particulate OVA on MHC class I molecules was insensitive to the weak base chloroquine, but was blocked by peptide aldehyde inhibitors of the proteasome, indicating that the class I-presented peptides were generated in the cytosol. Brefeldin A, which inhibits the exocytosis of newly synthesized proteins from the endoplasmic reticulum, also inhibited Ag presentation. These results establish that dendritic cells can present exogenous Ags on MHC class I molecules and appear to use a similar phagosome to cytosol pathway as macrophages. Therefore, dendritic cells are likely to play an important role in generating immune responses to tissue transplants and tumors in vivo. Furthermore, these findings provide an approach for targeting vaccine Ags into these cells to prime immune responses in vivo.
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PMID:Cloned dendritic cells can present exogenous antigens on both MHC class I and class II molecules. 905 6

The Rel/NF kappa B family of eukaryotic transcription factors are critical in immune and inflammatory processes regulating the expression of a wide variety of cytokines including IL-1, IL-2, IL-6, TNF-alpha and GM-CSF. Its ubiquitous distribution, rapid induction and regulation, the complexity of its subunits and its apparent involvement in several diseases has made this transcription factor a subject of intense study in normal cellular growth and cancer. Emerging studies have implicated a role for this transcription factor in the normal processes of aging. As significant declines in immune function is a natural concomitant to advancing age, the regulation of transcription factor NF kappa B appears to play a pivotal role in immune dysregulation during senescence, contributing to down regulation of both IL-2 and IL-2 receptor-alpha expression. Our studies have contributed to understanding the regulation of lowered NF kappa B induction in T cells during aging in humans and mice. Since we have shown that the lowered induction of NF kappa B in activated T cells from the elderly can be attributed to impaired degradation of the inhibitor I kappa B-alpha due to lowered proteasomal activity, we suspect that a similar alteration in proteasomal activity may be operative in age-dependent failure of immune function including the inability to initiate DNA synthesis following activation, skewing of T cell repertoire, lowered cytolytic activity and accumulation of aberrant proteins. Understanding the regulation of the proteasome pathway during immune senescence may provide new avenues for therapeutic intervention for immune based geriatric diseases.
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PMID:Regulation of transcription factor NF kappa B in immune senescence. 944 66

We recently described a novel population of blood-borne cells, termed fibrocytes, that display a distinct cell surface phenotype (collagen+/CD13+/CD34+/CD45+), rapidly enter sites of tissue injury, and contribute to scar formation. To further characterize the role of these cells in vivo, we examined the expression of type I collagen and cytokine mRNAs by cells isolated from wound chambers implanted into mice. Five days after chamber implantation, CD34+ fibrocytes but not CD14+ monocytes or CD90+ T cells expressed mRNA for type I collagen. Fibrocytes purified from wound chambers also were found to express mRNA for IL-1beta, IL-10, TNF-alpha, JE/MCP, MIP-1alpha, MIP-1beta, MIP-2, PDGF-A, TGF-beta1, and M-CSF. The addition of IL-1beta (1-100 ng/ml), a critical mediator in wound healing, to fibrocytes isolated from human peripheral blood induced the secretion of chemokines (MIP-1alpha, MIP-1beta, MCP-1, IL-8, and GRO alpha), hemopoietic growth factors (IL-6, IL-10, and macrophage-CSF), and the fibrogenic cytokine TNF-alpha. By contrast, IL-1beta decreased the constitutive secretion of type I collagen as measured by ELISA. Additional evidence for a role for fibrocytes in collagen production in vivo was obtained in studies of livers obtained from Schistosoma japonicum-infected mice. Mouse fibrocytes localized to areas of granuloma formation and connective matrix deposition. We conclude that fibrocytes are an important source of cytokines and type I collagen during both the inflammatory and the repair phase of the wound healing response. Furthermore, IL-1beta may act on fibrocytes to effect a phenotypic transition between a repair/remodeling and a proinflammatory mode.
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PMID:Regulated production of type I collagen and inflammatory cytokines by peripheral blood fibrocytes. 955 99

Proteolysis is a key event in the control of the cell cycle. Most of the proteins which are degraded at specific cycle points, e.g. cyclins A, B, and E, are substrates of the ubiquitin/proteasome pathway. The Ca2+ dependent neutral protease calpain also cleaves cell cycle proteins, among them cyclin D1 and the c-mos proto-oncogene product which is a component of the CSF. The proteasome itself, however, may be under Ca2+ control through the binding of Ca2+ to its 29 kDa regulatory subunit. Calpain undergoes relocation among cell compartments during the various steps of the mitotic and meitotic cycles. It promotes the initiation and the progression of mitosis when injected into the perinuclear space of synchronized PtK1 cells, and the resumption of meiosis when directly injected into the nuclei of prophase-arrested starfish oocytes. Apart from the proteins mentioned above, most of the substrates of calpain which become cleaved during mitosis and meiosis are still unknown. Microtubule-associated proteins are likely candidates.
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PMID:Calcium, protease action, and the regulation of the cell cycle. 960 7

Fibroblasts from a variety of tissues interact with and influence the behavior of the cell types they are associated with by producing specific proteins that mediate these interactions. Thus, it is not surprising that fibroblasts have been shown to differ phenotypically and functionally depending on the tissue they are isolated from and its physiologic state. To study fibroblasts of hematopoietic tissues, cultures were established from human normal bone marrow (BM), and from non-myelometaplasic (NS) and myelometaplasic spleen (MMS) tissues and analyzed for phenotypic characteristics. The results are summarized as follows: (1) cytoskeletal elements: virtually all the MMS fibroblasts were stained positively for alpha-sm-actin while only a small fraction of BM and of NS fibroblasts were positive for this antigen; (2) extracellular matrix elements: MMS fibroblasts stained positively for ED-B fibronectin and tenascin while the other 2 fibroblast cell types did not; (3) cell surface molecules: NS and MMS fibroblasts expressed significantly higher levels of ICAM-1, VLA-4 and CD9 than BM fibroblasts. Moreover, MMS fibroblasts showed a higher expression of ICAM-1 and VLA-4 than NS fibroblasts; and (4) cytokines: IL-II, RANTES and MIP-1alpha were produced in higher amounts by BM than by NS fibroblasts. Conversely, production of GM-CSF, SCF, M-CSF and MCP-1alpha was elevated in NS compared with BM fibroblasts. The production of these cytokines was generally reduced in MMS cells. Overall, our results demonstrate that phenotypic characteristics can be identified to distinguish fibroblasts from normal and pathologic hematopoietic tissues. Such phenotypic characteristics suggest functional differences of each type of fibroblast in their influence on the blood cells with which they are associated.
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PMID:Phenotypic diversity in human fibroblasts from myelometaplasic and non-myelometaplasic hematopoietic tissues. 961 Jul 38

The ubiquitin-proteasome pathway is the principal mechanism for the degradation of short-lived proteins in eukaryotic cells. Here we examine the possibility that ubiquitin-proteasome is involved in regulating the levels of Bcl-2, which is abundantly expressed in M-07e cells, a granulocyte/macrophage colony-stimulating factor (GM-CSF)-dependent human leukaemic cell line. Apoptosis in M-07e cells, induced by GM-CSF withdrawal, was associated with a gradual cleavage of Bcl-2 into a 22 kDa fragment. Treatment of M-07e cells with benzyloxycarbonyl-Leu-Leu-l-leucinal (Z-LLL-CHO; MG-132), a reversible ubiquitin-proteasome inhibitor, markedly accelerated the cleavage of Bcl-2 and promoted cell death through the apoptotic pathway. The cleavage of Bcl-2 was inhibited by a caspase-3 (CPP32)-specific inhibitor [acetyl-Asp-Glu-Val-Asp-CHO (DEVD-CHO)] but not caspase 1 inhibitor (acetyl-Tyr-Val-Ala-Asp-CHO), suggesting that Bcl-2 is a proteolytic substrate of a caspase-3-like protease activated during apoptosis. The simultaneous addition of recombinant human GM-CSF (rhGM-CSF) to M-07e cultures delayed the activation of caspase 3 and Bcl-2 cleavage triggered by Z-LLL-CHO, suggesting that the activation of the GM-CSF signalling pathway can partly overcome the apoptotic effect induced by Z-LLL-CHO. Apoptosis induced by inhibition of the proteasome pathway was verified in studies with lactacystin, a highly specific and irreversible proteasome inhibitor. Lactacystin-induced apoptosis in M-07e cells was remarkably similar to that induced by Z-LLL-CHO, which included caspase 3 activation, cleavage of Bcl-2 into a 22 kDa fragment and, ultimately, cell death. These results showed that inhibition of the ubiquitin-proteasome pathways can lead to the activation of a DEVD-CHO-sensitive caspase and induces Bcl-2 cleavage, which might have a role in mediating apoptosis in M-07e cells.
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PMID:Inhibition of ubiquitin-proteasome pathway activates a caspase-3-like protease and induces Bcl-2 cleavage in human M-07e leukaemic cells. 1022 67

IL-5, IL-3, and GM-CSF are hematopoietic cytokines that are key mediators of the allergic inflammatory response. The receptors for these three cytokines consist of a cytokine-specific alpha (Ralpha) chain and a shared common beta (betac) chain. Herein, we demonstrate that agonistic ligation of these receptor subunits rapidly induces proteasomal degradation of the betac, but not the Ralpha, cytoplasmic domain, resulting in termination of signal transduction and yielding a truncated betac isoform ligated to the Ralpha subunit. Proteasomal degradation of the betac cytoplasmic domain was also a prerequisite for endocytosis and lysosomal degradation of the ligated receptor subunits. Moreover, proteasome-dependent termination of signaling induced by one betac-engaging cytokine resulted in cellular desensitization to signal transduction by subsequent stimulation with another betac-engaging cytokine. These data provide the first evidence for ligand-dependent proteasomal degradation of the betac cytoplasmic domain, and they establish a novel mechanism for heterotypic desensitization of shared cytokine receptor signaling.
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PMID:Proteasomal regulation of betac signaling reveals a novel mechanism for cytokine receptor heterotypic desensitization. 1174 63

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