Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P43026 (lipopolysaccharide)
 62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Five reciprocal cycles of subtractive hybridization using cDNA generated from fibroblasts with normal lipopolysaccharide (LPS) responsiveness (lps(n)) and from hyporesponsive (lps(d)) fibroblasts have led to the finding that caveolin-1 is expressed at markedly higher levels of mRNA in lps(d) than in lps(n) fibroblasts. Caveolin-1 message can also be readily detected via reverse transcription-PCR in the RAW264.7 and J774.1 macrophage-like cell lines as well as in primary thioglycolate (TG)-elicited mouse peritoneal macrophages. In RAW264.7 cells, both caveolin-1 mRNA and protein levels are down-regulated by LPS. In TG-elicited C3HeB/FeJ peritoneal macrophages, in contrast, expression of both caveolin-1 protein and mRNA is up-regulated in vitro in response to LPS stimulation. The up-regulation of caveolin-1 protein expression in C3HeB/FeJ peritoneal macrophages can be demonstrated at concentrations as low as 1.0 pg of LPS/ml. However, LPS concentrations approximately 4 orders of magnitude higher (10(4) pg/ml) were required to stimulate the LPS-hyporesponsive C3H/HeJ mice peritoneal macrophages such that significant caveolin-1 protein up-regulation was detected. Caveolin-1, a principal component of plasmalemmal caveolae, has been reported as a potentially important regulator for signal transduction during cellular stimulation. The results described in this report suggest that caveolin-1 expression may be associated with LPS signaling/internalization.
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PMID:Differential expression of caveolin-1 in lipopolysaccharide-activated murine macrophages. 1094 29

Several cell types express inducible nitric oxide synthase (NOS2) in response to exogenous insults such as bacterial lipopolysaccharide (LPS) or proinflammatory cytokines. For instance, muscular cells treated with LPS and interferon gamma (IFN-gamma) respond by increasing the mRNA and protein levels of NOS2, and synthesize large amounts of nitric oxide. We show here that transcriptional induction of NOS2 in muscular cells proceeds with a concomitant decrease in the levels of caveolin-1, -2 and -3. Addition of *NO-releasing compounds to C2C12 muscle cells reveals that this downregulation of the caveolin (cav) levels is due to the presence of *NO itself in the case of caveolin-3 and to the action of the LPS/IFN-gamma in the case of cav-1 and cav-2. Likewise, muscle cells obtained from NOS2(-/-) knockout mice challenged with LPS/IFN-gamma could downregulate their levels of cav-1 but not of cav-3, unlike wild-type animals, in which both cav-1 and cav-3 levels diminished in the presence of the proinflammatory insult. Laser confocal immunofluorescence analysis proves that *NO exerts autocrine and paracrine actions, hence diminishing the cav-3 levels. When the induced NOS2 was purified using an affinity resin or immunoprecipitated from muscular tissues, it appears strongly bound not only to calmodulin but also to cav-1, and marginally to cav-2 and cav-3. When the cav levels where reduced using antisense oligonucleotides, an increase in the NOS2-derived.NO levels could be measured, demonstrating the inhibitory role of the three cav isoforms. Our results show that cells expressing NOS2 diminish their cav levels when the synthesis of *NO is required.
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PMID:Induction of nitric oxide synthase-2 proceeds with the concomitant downregulation of the endogenous caveolin levels. 2885 81

Previously, we reported that expression of caveolin-1 in elicited peritoneal mouse macrophages was up-regulated by remarkably low (1.0-pg/ml) concentrations of Escherichia coli O111 lipopolysaccharide (LPS). Here we report that increases in caveolin-1 expression are manifested by different types of LPS, LPS-mimetic taxol, and heat-killed E. coli and to a much lesser extent by zymosan, polysaccharide-peptidoglycan, and heat-killed Staphylococcus aureus. Rhodobacter sphaeroides lipid A (RsDPLA) could not induce caveolin-1 expression in macrophages. Interestingly, polymyxin B (5 microg/ml) and RsDPLA show only a limited capacity to inhibit LPS-induced caveolin-1 expression. These findings suggest that expression of caveolin-1 in response to LPS may only partially be dependent upon lipid A. Recombinant tumor necrosis factor alpha marginally induces caveolin-1, suggesting that the ability of LPS to regulate caveolin-1 is not mediated primarily through an autocrine/paracrine mechanism involving this cytokine. Under conditions in which cellular levels of caveolin-1 are profoundly induced, no significant changes in TLR4 expression are observed. Of interest, caveolin-1 appears to localize to two cellular compartments, one associated with lipid rafts and a second associated with TLR4. Gamma interferon treatment inhibits the induction of caveolin-1 by LPS in macrophages. Inhibition of the p38 kinase-dependent pathway, but not the extracellular signal-regulated kinase pathway, effectively reduced the ability of LPS to mediate caveolin-1 up-regulation. Lactacystin, a potent inhibitor of the proteasome pathway, significantly modulates LPS-independent caveolin-1 expression, and lactacystin inhibits LPS-triggered caveolin-1 responses. These studies suggest that caveolin-1 up-regulation in response to LPS is likely to be proteasome dependent and triggered through the p38 kinase pathway.
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PMID:Regulation of cellular caveolin-1 protein expression in murine macrophages by microbial products. 1629 8

During endotoxemia, liver microcirculation disruption is characterized by a hypersensitivity to the constrictor effects of endothelin 1 (ET-1). The shift of ET-1-mediated effects toward vasoconstriction may result from depressed ET-1-mediated vasodilation through decreased ET-1-induced nitric oxide (NO) production. We have previously shown that lipopolysaccharide (LPS) pretreatment abrogates ET-1-induced endothelial nitric oxide synthase (eNOS) translocation, but its effects on eNOS activation are yet to be determined. Our aim was to assess the effects of LPS on ET-1-mediated eNOS activation in hepatic sinusoidal endothelial cells (SECs) and to investigate the molecular mechanisms involved. SECs were treated with LPS (100 ng/mL) for 6 hours followed by 30 minutes ET-1 (10 nmol/L) stimulation. LPS significantly inhibited ET-1-mediated eNOS activation. This inhibition was associated with upregulation of Caveolin-1 (CAV-1) and a shift in ET-1-mediated eNOS phosphorylation from an activation (Ser1177) to an inhibition (Thr495). LPS treatment has been shown to induce ET-1 expression and secretion from endothelial cells. We therefore investigated the role of endogenous ET-1 in the inhibition of ET-1 activation of eNOS after LPS. Antagonizing ET-1 effects and blocking its activation in LPS pretreated SECs decreased the LPS-induced overexpression of CAV-1 as well as the inhibition of ET-1-induced NOS activity. Furthermore, 6 hours of ET-1 treatment exerted the same effects on eNOS activity, phosphorylation, and CAV-1 expression as LPS treatment. In conclusion, LPS-induced suppression of ET-1-mediated eNOS activation is ET-1 dependent and suggest a pivotal role of CAV-1 in eNOS induction inhibition under stress.
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PMID:LPS inhibits endothelin-1-induced endothelial NOS activation in hepatic sinusoidal cells through a negative feedback involving caveolin-1. 1637 54

A number of studies have shown an association of pathogens with caveolae. To this date, however, there are no studies showing a role for caveolin-1 in modulating immune responses against pathogens. Interestingly, expression of caveolin-1 has been shown to occur in a regulated manner in immune cells in response to lipopolysaccharide (LPS). Here, we sought to determine the role of caveolin-1 (Cav-1) expression in Salmonella pathogenesis. Cav-1(-/-) mice displayed a significant decrease in survival when challenged with Salmonella enterica serovar Typhimurium. Spleen and tissue burdens were significantly higher in Cav-1(-/-) mice. However, infection of Cav-1(-/-) macrophages with serovar Typhimurium did not result in differences in bacterial invasion. In addition, Cav-1(-/-) mice displayed increased production of inflammatory cytokines, chemokines, and nitric oxide. Regardless of this, Cav-1(-/-) mice were unable to control the systemic infection of Salmonella. The increased chemokine production in Cav-1(-/-) mice resulted in greater infiltration of neutrophils into granulomas but did not alter the number of granulomas present. This was accompanied by increased necrosis in the liver. However, Cav-1(-/-) macrophages displayed increased inflammatory responses and increased nitric oxide production in vitro in response to Salmonella LPS. These results show that caveolin-1 plays a key role in regulating anti-inflammatory responses in macrophages. Taken together, these data suggest that the increased production of toxic mediators from macrophages lacking caveolin-1 is likely to be responsible for the marked susceptibility of caveolin-1-deficient mice to S. enterica serovar Typhimurium.
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PMID:Caveolin-1-deficient mice show defects in innate immunity and inflammatory immune response during Salmonella enterica serovar Typhimurium infection. 1698 44

Life-threatening proinflammatory response (PR) induces severe GH resistance. Although low-level PR is much more commonly encountered clinically, relatively few studies have investigated the accompanying change in GH signal transduction progression and, in particular, the impact of low-level PR on Janus kinase (JAK)-2. Using a low-level, in vivo endotoxin [lipopolysaccharide (LPS)] challenge protocol, we demonstrated that the liver tissue content of JAK2 declined 24 h (62%, P < 0.02) after LPS and that tyrosine-nitrated JAK2 could be immunoprecipitated from post-LPS liver biopsy homogenates. With antibodies developed to probe specifically for nitration at the (1007)Y-(1008)Y phosphorylation epitope of JAK2, we demonstrated that the nitrated (1007)Y-(1008)Y-JAK-2 (nitro-JAK2) coimmunoprecipitated with caveolin-1 and (1177)phospho-SER-endothelial nitric oxide synthase when post-LPS liver homogenates were treated with anticaveolin-1 and protein A/G. The magnitude of increase in nitro-JAK2 was attenuated in animals treated with vitamin E prior to LPS. The increase in nitro-JAK2 after LPS was greater in a line of experimental animals with a genetic propensity for higher PR at the given LPS dose than responses measured in their normal counterparts. The development and remission of nitro-JAK2 was temporally concordant with changes in plasma concentrations of IGF-I; hepatocellular IGF-I mRNA content was inversely proportional to nitro-JAK2 content. Localized changes in the state of nitration of regulatory phosphorylation domains of JAK2 in caveolar microenvironments and tissue content of JAK2 during PR suggest a unique mechanism through which discrete signal transduction switching might occur in the liver to fine tune cellular responses to the endocrine-immune signals that develop during low-level, transient proinflammatory stress.
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PMID:Caveolae nitration of Janus kinase-2 at the 1007Y-1008Y site: coordinating inflammatory response and metabolic hormone readjustment within the somatotropic axis. 1751 Feb 31

Our previous study demonstrated that feeding ganglioside increased total ganglioside content while decreasing cholesterol and caveolin-1 content in developing rat intestinal lipid microdomains. Cholesterol or caveolin depletion in membranes inhibits inflammatory signaling by disrupting microdomain structure. We hypothesized that dietary ganglioside-induced reduction in cholesterol content will reduce proinflammatory mediators in the intestinal mucosa after acute exposure to bacterial endotoxin. Weanling rats were fed semipurified diets with 0.1% (wt/wt of total fat) gangliosides (treatment) or without ganglioside (control). After 2 weeks of feeding, half of animals from each diet group were injected with saline or lipopolysaccharide (LPS) endotoxin (Escherichia coli serotype O111:B4, intraperitoneal, 3 mg/kg body weight) to induce acute gut inflammation. Intestinal mucosa and blood were collected after 6 h. The effect of dietary ganglioside on proinflammatory mediators including cholesterol, platelet-activating factor, prostaglandin E2, leukotriene B4 (LTB4), interleukin-1beta (IL-1beta), and tumor necrosis factor-alpha (TNF-alpha) was determined in inflamed mucosa and blood. Feeding animals the control diet increased cholesterol content in intestinal lipid microdomains by 92% after LPS injection compared with saline injection. Animals fed the ganglioside diet significantly decreased cholesterol content in lipid microdomains by 60% compared with animals fed the control diet. Feeding animals the ganglioside diet increased total ganglioside content by 90% while decreasing platelet-activating factor content by 45% in the inflamed mucosa by acute systemic exposure to LPS compared with animals fed the control diet. When animals were fed the ganglioside diet, the levels of prostaglandin E2, LTB4, IL-1beta, and TNF-alpha were lower in inflamed mucosa, and LTB4, IL-1beta, and TNF-alpha were decreased in plasma by 41%, 58%, and 55% compared with control animals, respectively. The present study demonstrates that dietary gangliosides inhibit proinflammatory signals in the intestine and blood induced by acute inflammation of LPS and suggests therapeutic potential in the treatment and management of acute local and systemic inflammatory diseases.
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PMID:Dietary ganglioside inhibits acute inflammatory signals in intestinal mucosa and blood induced by systemic inflammation of Escherichia coli lipopolysaccharide. 1751 Jun 4

We investigated the role of NF-kappaB activation by the bacterial product lipopolysaccharide (LPS) in inducing caveolin-1 (Cav-1) expression and its consequence in contributing to the leakiness of the endothelial barrier. We observed that LPS challenge of human lung microvascular endothelial cells induced concentration- and time-dependent increases in expression of Cav-1 mRNA and protein. The NEMO (NF-kappaB essential modifier binding domain)-binding domain peptide (IkB kinase (IKK)-NEMO-binding domain (NBD) peptide), which prevents NF-kappaB activation by inhibiting the interaction of IKKgamma with the IKK complex, blocked LPS-induced Cav-1 mRNA and protein expression. Knockdown of NF-kappaB subunit p65/RelA expression with small interfering RNA also prevented LPS-induced Cav-1 expression. Caveolae open to the apical and basal plasmalemma of endothelial cells increased 2-4-fold within 4 h of LPS exposure. IKK-NBD peptide markedly reduced the LPS-induced increase in the number of caveolae as well as transendothelial albumin permeability. These observations were recapitulated in mouse studies in which IKK-NBD peptide prevented Cav-1 expression and interfered with the increase in lung microvessel permeability induced by LPS. Thus, LPS mediates NF-kappaB-dependent Cav-1 expression that results in increased caveolae number and thereby contributes to the mechanism of increased transendothelial albumin permeability.
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PMID:Role of NF-kappaB-dependent caveolin-1 expression in the mechanism of increased endothelial permeability induced by lipopolysaccharide. 1807 59

Caveolin-1 (Cav1), the scaffolding protein of caveolae, has been shown to play an important role in host defense and inflammation. However, the underlying molecular basis for these actions remains elusive. Here, using double mutant mice with genetic deletions of Cav1 and NOS3, we show that chronic endothelial nitric oxide synthase (eNOS) activation secondary to loss of Cav1 serves a crucial immunomodulatory function through tyrosine nitration-mediated impairment of interleukin-1 receptor associated kinase (IRAK)4, a signaling component required for nuclear factor-kappaB activation and innate immunity. We observed an eNOS-dependent decrease in the plasma concentration of pro-inflammatory cytokines and marked improvement of survival in Cav1(-/-) mice following lipopolysaccharide challenge. Activation of eNOS secondary to loss of Cav1 resulted in decreased activation of nuclear factor-kappaB in response to lipopolysaccharide challenge, and thereby protected the animals from lipopolysaccharide-induced lung injury. IRAK4 was prominently nitrated in Cav1-deficient endothelial cells, whereas eNOS deletion in Cav1-deficient endothelial cells resulted in marked decrease of IRAK4 nitration and restored the inflammatory response after lipopolysaccharide challenge. Furthermore, in vitro nitration of IRAK4 resulted in impairment of the kinase activity. Thus, eNOS activation secondary to loss of Cav1 signals dampening of the innate immune response to lipopolysaccharide through IRAK4 nitration and the resultant impairment of kinase activity, and consequently mitigates inflammatory lung injury.
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PMID:Caveolin-1 deficiency dampens Toll-like receptor 4 signaling through eNOS activation. 2030 61

Caveolae and its structural protein caveolin-1 (Cav-1) are abundant in vascular endothelial cells (ECs). We examined whether caveolae are involved in monocyte adhesion to ECs responding to a synergy of hypercholesterolemia and inflammation. Treating human umbilical vein ECs with cholesterol enhanced endotoxin lipopolysaccharide (LPS)-induced monocyte adhesion. Use of isolated caveolae-enriched membranes revealed that cell adhesion molecules (CAMs), including intercellular adhesion molecule-1 (ICAM-1) and vascular cell adhesion molecule-1 (VCAM-1), co-localized with Cav-1 in caveolae. LPS upregulated CAMs expression and increased the co-localization. Cholesterol exposure decreased the level of CAMs in the caveolae. Co-immunoprecipitation and confocal microscopy revealed that ICAM-1 interacted with Cav-1. Electron microscopy showed that ICAM-1 was mainly located in caveolae. Cholesterol exposure decreased this interaction and drove ICAM-1 out of caveolae. Knockdown of Cav-1 reduced the synergistic effects of cholesterol and inflammation. In vivo, ICAM-1 and Cav-1 co-localization was lower in the aortic endothelium of ApoE(-)(/)(-) mice than in that of wild-type controls. Cav-1 negatively regulates monocyte adhesion by the co-localization of CAMs in caveolae, which is disturbed by cholesterol. Thus, our study suggests a molecular basis underlying the synergistic effects of hypercholesterolemia and inflammation in atherogenesis.
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PMID:Cholesterol increases adhesion of monocytes to endothelium by moving adhesion molecules out of caveolae. 2038 59


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