UNIPROT:P43026 - FACTA Search

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Query: UNIPROT:P43026 (lipopolysaccharide)
62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Bacterial lipopolysaccharide (LPS) is known to be implicated in the pathogenesis of endotoxemia and septic shock. The liver is the first vital organ to exhibit pathological alterations in shock. The present studies include immunoelectron microscopic localization of tissue fibronectin and cytochemical localization of calcium and enzymes in hepatocytes of animals with LPS-induced endotoxemia or cecal ligation-induced septic shock. The results showed increased staining of fibronectin in the basal (perisinusoidal) surfaces and in the cisternae of rough endoplasmic reticulum and the Golgi complex of hepatocytes in rats with endotoxemia or septic shock. Intracellular calcium content was significantly increased in the LPS-treated or septic rats. Calcium pyroantimonate precipitate was deposited predominantly on the outer surfaces of the RER of hepatocytes. In addition, diminution or depletion of glycogen, reduction of catalase-containing peroxisomes, increase of G-6-Pase activity, and depletion of cytochrome c oxidase in many mitochondria were also observed in hepatocytes of experimental animals. The overall results suggest that LPS stimulates: (a) hepatic synthesis and secretion of fibronectin; (b) uptake of calcium by hepatocytes; and (c) G-6-Pase activity. LPS treatment also leads to reduced numbers of peroxisomes and depletion of cytochrome c oxidase.
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PMID:Cytochemical changes in hepatocytes of rats with endotoxemia or sepsis: localization of fibronectin, calcium, and enzymes. 283 11

Bacterial endotoxin (lipopolysaccharide, LPS) and interleukin-2 (IL-2) are known to stimulate NK cell mediated cytotoxicity against tumor cells. In the present report we sought to correlate the stimulatory effect of LPS and IL-2 on NK cell activity with ultrastructural changes which occurred as a result of such stimulation. Peripheral blood mononuclear cells (PBMC) were purified from healthy donors by a Ficoll-Hypaque density gradient technique. Leu-11a+ NK cells were isolated by flow microfluorometry using a monoclonal FITC conjugated anti-Leu-11a antibody and a FACS II cell sorter. The PBMC were incubated, respectively, with E. coli LPS or recombinant IL-2 (IL-2) for various time periods. Sorted Leu-11a+ NK cells were incubated with LPS for 24 hours. The NK cytotoxicity in the PBMC and sorted Leu-11a+ cells was assessed by a 51Cr release technique using K562 tumor cells as targets. Leu-11a+ NK cells were identified by immunoelectron microscopy using anti-Leu-11a antibody and labeling with horseradish peroxidase or colloidal gold. Results showed that both LPS and IL-2 significantly enhanced the cytotoxic activity of PBMC. The cytotoxicity of sorted Leu-11a+ cells was augmented by LPS. Recombinant IL-2 induced a significant increase in the number of dense granules, hypertrophy of Golgi apparatus and rough endoplasmic reticulum, and mitosis of Leu-7+ cells and Leu-11a+ cells 4 or 7 days after stimulation. These data indicate that: (1) the effect of LPS on the enhancement of NK cytotoxicity in PBMC may be a direct and/or indirect process involving production of lymphokines; (2) LPS has a direct effect on sorted Leu-11a+ cells; (3) IL-2 stimulates mitosis of Leu-7+ cells and Leu-11a+ cells; and (4) the LPS or IL-2 induced ultrastructural changes in Leu-11a+ cells are consistent with the enhanced NK cytotoxicity.
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PMID:Ultrastructural and functional effects of lipopolysaccharide and interleukin-2 on human NK cells. 305 78

The cellular and subcellular distribution of biologically tritiated Salmonella abortus equi lipopolysaccharide (LPS) was studied at different time intervals after intravenous injection in rats. At 1 min after injection of LPS via the portal vein label was present over Kupffer cell phagosomes. Between 30 min and 7 days after injection, silver grains were mainly associated with phagosomes and lysosomes and occasionally with the membrane of Kupffer cells. A few parenchymal cells were labeled at 5 min in their mitochondria, cell membrane and the periphery of the cell. Radioactivity was also present in the rough endoplasmic reticulum (from 15 min), fat droplets and the nucleus (from 3 h) up to 7 days. Sinusoidal endothelial and fat-storing cells were never labeled. In conclusion, both Kupffer cells and parenchymal cells play a role in the uptake of LPS by the liver. The uptake and processing of endotoxin is rapid, since label is found early after administration and radioactivity is detected in the bile within 1 h. This radioactivity represents non-detoxified LPS, since it is lethal for galactosamine-sensitised mice after extraction with hot phenol/water. However, in the presence of bile salts, the LPS is non-lethal and not capable of clotting the limulus amebocyte lysate. LPS injection causes bile flow reduction within 45 min.
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PMID:Cellular and subcellular distribution of injected lipopolysaccharide in rat liver and its inactivation by bile salts. 323 1

Ultrastructural and morphometric profiles of type-II pneumocytes (P-II) were investigated in rats killed 18 or 24 hours after a single intratracheal inoculation of bacterial (Escherichia coli) lipopolysaccharide (LPS). Inoculation with LPS induced pulmonary injury and inflammation, as measured by increased lactate dehydrogenase and alkaline phosphatase activities and increased numbers of polymorphonuclear neutrophils in fluid collected by bronchoalveolar lavage. Marked ultrastructural changes and desquamation of a few P-II developed at the time of high activity of lactate dehydrogenase and alkaline phosphatase in bronchoalveolar lavage fluid. Ultrastructural changes included swollen mitochondria and localized cisternal dilatation of the endoplasmic reticulum in which was contained membrane-bound homogenous material of medium electron density. Twenty-four hours after LPS inoculation, point-count stereologic analysis and digitizing morphometry revealed greater than 50% increase in P-II size. Changes in cell size corresponded with ultrastructural finding of swollen cells. Results obtained by point-count stereologic analysis and digitizing morphometry were highly correlated (r = 0.95). Lamellar bodies (LB) comprised 12 to 15% of P-II volume. Volume density and number of LB remained unaltered in LPS-injured P-II, and evidence of accelerated release of LB was not detected after LPS inoculation. Exudated polymorphonuclear neutrophils and pulmonary alveolar macrophages were involved actively in the phagocytosis of LB originating from necrotic and desquamated P-II. On the basis of measurement of enzyme activity (enzymes released into the bronchoalveolar space), considerable ultrastructural alterations developed in P-II when maximal LPS-induced pulmonary cell injury took place.
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PMID:Profiles of type-II pneumocytes in rats inoculated intratracheally with bacterial lipopolysaccharide. 331 9

The fine structure of Kupffer cells has been studied at various times after an intravenous injection of lipopolysaccharide of Salmonella abortus equii. The most prominent effects were: an increase in the number and dimensions of phagocytic vacuoles (often containing ingested LPS and neutrophilic granulocytes); mitochondrial damage, including disintegration of the matrix and cristae; an increase in the amount of dilated, lucent rough endoplasmic reticulum; presence of fat droplets in the cytoplasm. Five days after injection of lipopolysaccharide, the Kupffer cells had resumed their normal ultrastructure. Several minutes after injection of lipopolysaccharide, platelets adhered to the Kupffer and endothelial cells. Between one and six hours, neutrophilic granulocytes accumulated in the liver sinusoids. The resulting obstruction of the hepatic microcirculation most probably affected cellular ultrastructure by ischaemia. At three days, the number of Kupffer cells was doubled, and increased further at later time intervals.
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PMID:Structural changes produced in Kupffer cells in the rat liver by injection of lipopolysaccharide. 334 39

A new method was developed to isolate a plasma membrane fraction from lipopolysaccharide-stimulated mouse peritoneal macrophages. Colchicine treatment was followed by sucrose density-gradient centrifugation. Total yield of Na,K-ATPase, a marker of plasma membrane, was 60 +/- 1% with the specific activity of 37 +/- 3 mumol of Pi/mg of protein/h. The preparation contained 1 +/- 1% pinosomes, 2 +/- 1% lysosomes, 17 +/- 2% endoplasmic reticulum, 6 +/-1% mitochondria, and a negligible number of nuclei, as judged by distribution of markers.
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PMID:A well-characterized plasma membrane fraction obtained from mouse peritoneal macrophages. 338 16

The intracellular localization in 3T6 fibroblasts of Escherichia coli lipopolysaccharide (LPS) using the rapid avidin-biotin-immunoperoxidase technique at the electron microscopic level was studied. The role of bacterial endotoxin in the etiology of periodontal disease has been well documented previously. The purpose of the present study was to localize LPS within the cell, thereby determining which organelles concentrate the material and relate this to the cytologic pathophysiology. An increased concentration of LPS was found in the cell nuclei and, specifically, in association with nuclear chromatin and nucleoli. The concentration of LPS in the nucleus was directly related to the time of incubation, with some product appearing in that site within 2 minutes. There was no specific localization of endotoxin in mitochondria, lysosomes, Golgi, endoplasmic reticulum or ribosomes. These results imply that bacterial endotoxin may have a direct effect on nuclear components of fibroblasts. The relationship of these results to the etiologic mechanisms of periodontal disease is discussed.
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PMID:Intracellular localization of bacterial lipopolysaccharide using the avidin biotin complex method at the electron microscopic level. 389 6

Monospecific rabbit antibodies have been prepared against ERp72, ERp99, and ERp60, major protein components of a detergent-solubilized extract of endoplasmic reticulum purified from mineral oil-induced plasmacytoma 315 tissue. When subcellular fractions of mineral oil-induced plasmacytoma 315 tissue were assayed by an immunoprecipitation procedure, all three endoplasmic reticulum proteins (ERps) were found to be enriched in the rough endoplasmic reticulum. In murine lymphoid cells, the three ERps represent two major structural classes of protein. Both ERp72 and ERp60 contain no endoglycosidase H-sensitive, N-linked oligosaccharides. On the other hand, ERp99 is glycoprotein containing, in all likelihood, one endoglycosidase H-sensitive oligosaccharide. Immunologically cross-reacting proteins of similar molecular weight have also been detected in other eukaryotic cell lines. The anti-ERp antibodies were used to quantitate the synthesis and accumulation of the three ERps in splenic lymphocytes cultured in the presence and absence of bacterial lipopolysaccharide (Escherichia coli serotype B5:055) (LPS). In the presence of LPS, lymphocytes differentiate from resting cells into actively secreting cells. The synthesis of ERp72 and ERp99 increased 3- and 10-fold, respectively, in response to LPS. The synthesis of ERp60 does not change significantly. The turnover rates for these three proteins are similar in both control and LPS-treated lymphocytes. As a result, membranes isolated from LPS-treated cells are enriched in ERp72 and ERp99.
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PMID:Structure and assembly of the endoplasmic reticulum. The synthesis of three major endoplasmic reticulum proteins during lipopolysaccharide-induced differentiation of murine lymphocytes. 391 14

Rabbit antibodies have been prepared against ERp61, ERp59, and ERp49, three protein components of rough endoplasmic reticulum (RER) purified from mineral oil-induced plasmacytoma 315 (MOPC-315) tissue. Analysis of subcellular fractions of MOPC-315 tissue by an immunoprecipitation procedure demonstrated that all three endoplasmic reticulum proteins (ERps) were most enriched in the RER. Immunologically cross-reacting proteins of similar molecular weight have been detected in other eucaryotic cell lines. We have used these antibodies to study the post-translational processing and biosynthetic sorting of the three ERps in pulse-labeled MOPC-315 cells. No larger precursor forms of the ERps were detected and none of the ERps were found to possess asparagine-linked oligosaccharide moieties. We have used a sucrose gradient analysis of pulse-labeled MOPC-315 cells to study the biosynthetic sorting of ERp61, ERp59 and ERp49 and have found no evidence to suggest that these proteins ever leave the endoplasmic reticulum. In addition, all three ERps appeared to have luminally exposed domains. ERp61 and ERp59 were entirely protected by the ER membrane in the absence of detergent, while ERp49 was a transmembrane protein that also possesses a cytoplasmically exposed domain. We have used the anti-ERp antibodies to quantitate the synthesis and accumulation of the three ERps during lipopolysaccharide (LPS)-induced lymphocyte differentiation. After 48 h of culture in the presence of LPS, the synthesis of ERp49 increased sixfold relative to that in control cells. The synthesis and membrane accumulation of ERp61 and ERp59 were less affected by the LPS treatment. Thus, membranes isolated from LPS-treated cells were enriched in ERp49 relative to those isolated from control cells.
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PMID:Structure and assembly of the endoplasmic reticulum: biosynthesis and intracellular sorting of ERp61, ERp59, and ERp49, three protein components of murine endoplasmic reticulum. 395 60

A variety of lymphoid cell populations were examined in terms of their ability to replicate vesicular stomatitis virus (VSV), a lytic, RNA-containing virus maturing at the cell surface. The number of cells capable of producing VSV was estimated in terms of infectious centers by the virus plaque assay (VPA), and morphologically by electron microscopy (EM). The lymphoid cells examined in this study included: (a) lymph node cells from delayed hypersensitive guinea pigs stimulated by specific antigen, (b) mouse spleen cells activated by selective bone marrow-derived (B) cell and thymus derived (T) cell mitogens, and (c) cells of human and murine continuous lymphoblastoid or lymphoma lines. In unstimulated cultures of guinea pig lymph node cells there is a background of approximately 1 in 1,000 cells which produces VSV; in purified protein derivative (PPD)-stimulated cultures the number of cells producing virus was 1.6% in the VPA and 1.9% by EM. These cells were large lymphocytes with some morphological features of transformed lymphocytes but were not typical blast cells. A few macrophages were associated with virus in both stimulated and control cultures. These observations indicate that (a) cells responsive to antigens, as detected by a marker virus, were lymphocytes; (b) cells other than lymphocytes (macrophages) were capable of replicating VSV even without antigenic stimulation; and (c) the correlation of results obtained by VPA and morphologic examination was usually quite good. Of the total number of mouse spleen cells stimulated with concanavalin (Con A), a T cell mitogen, 4.5 (EM)-5.7% (VPA) were associated with VSV. These were characteristic transformed lymphocytes, similar to phytohemagglutinin (PHA)-stimulated human lymphocytes. In contrast Escherichia coli lipopolysaccharide (LPS)-treated mouse spleen cultures contained lower numbers of virus plaque-forming cells. The majority of such cells associated with virus displayed extensive rough endoplasmic reticulum. Two cultured murine lymphomas containing lymphocytes with the theta surface marker (L5178Y and EL-4) showed a 15-100-fold higher incidence of virus-producing cells than leukemias (L1210 and C57Bl/6) which did not carry this marker. Similarly, the L2C guinea pig leukemia, a known B cell leukemia, yielded a low percent of virus plaque-forming cells (<2%). However, MOPC-104, a plasma cell tumor presumed to be of B cell origin, was found to be an efficient virus producer. There was a wide variation in the efficiency of VSV replication among human lymphoblastoid lines. One line, Wil-2, produced 80% infectious centers after 24 h of exposure to VSV, and all cells were associated with virus at the EM level. The relationship between the virus-producing cells and different lymphocyte subpopulations as well as the efficiency of the two assays for studying virus-producing lymphocytes is discussed.
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PMID:The production of vesicular stomatitis virus by antigen- or mitogen-stimulated lymphocytes and continuous lymphoblastoid lines. 434 76

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