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Query: UNIPROT:P43026 (
lipopolysaccharide
)
62,215
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
To gain insight into the factors regulating an inflammatory response in vivo, the activities of peritoneal macrophages and the influence of the inflammatory fluids from which they were harvested were studied in continuous ambulatory peritoneal dialysis (CAPD) patients with peritonitis. Specifically, the production of tumor necrosis factor alpha (TNF-alpha), interleukin-1 beta (IL-1 beta), and prostaglandin E2 (PGE2) by
lipopolysaccharide
-stimulated human peritoneal macrophages from CAPD patients with peritonitis was examined in the presence of the inflammatory dialysates from which they were isolated. When tested at a dilution of 20%, the dialysates inhibited production of TNF-alpha, a key monokine in the orchestration of the inflammatory response. In contrast to the effect on TNF-alpha, the dialysates did not affect IL-1 beta production by stimulated macrophages. The activity inhibitory for TNF-alpha synthesis was not fully characterized, but a number of known inhibitors were shown not to be responsible for the suppressive activity. The inhibitory activity was detected in cases of noninfective peritonitis and excluded the possibility that a bacterial product was responsible.
Hyperosmolality
, pH, protein levels, glucose, uremic molecules, cortisol, heparin, and antibiotics were not responsible for the inhibitory activity. The activity had some similarity to the reported actions of alpha-globulins (which are acute phase proteins), PGE2, TNF-alpha soluble receptors, and IL-6, but there was no evidence for their involvement. Whether the selective suppression of TNF-alpha production is a general finding in inflammatory responses will require additional studies. This study nevertheless illustrates the potential for the host to regulate tightly the development of an excessive inflammatory response and thus to limit tissue pathology. However, it is unknown whether an appropriate host defense is compromised.
...
PMID:Inflammatory fluids regulate TNF-alpha, but not IL-1 beta, production by human peritoneal macrophages. A study of patients on continuous ambulatory peritoneal dialysis with peritonitis. 768 Oct 94
Evidence is accumulating that conventional dialysis fluids for CAPD are incompatible with peritoneal host defence. We therefore investigated the effect of alternative CAPD fluids on mononuclear leukocyte (PBMC) viability and cytokine production in vitro. Fluids tested were bicarbonate-buffered solutions containing 1.5% or 4.25% glucose, 7.5% glucose polymer dialysis fluid (GPDF), and conventional 1.5% glucose fluid (G1.5%). PBMC were stimulated (2 h, 37 degrees C) in the different test fluids with a clinical isolate of Staphylococcus epidermidis or Escherichia coli
lipopolysaccharide
. The cytokines TNF alpha and IL-6 in PBMC supernatants were measured by specific enzyme immunoassays. Induction of cytokine messenger RNA was evaluated by reverse transcription-polymerase chain reaction. Conventional G1.5% (pH 5.5) inhibited cytokine release from activated PBMC by > 95%, whereas cell responses in low-glucose bicarbonate fluid were not significantly reduced. In contrast, high-glucose bicarbonate fluid exerted > 80% inhibition despite its neutral pH. GPDF was inhibitory at its initial low pH, whereas cytokine release was restored following pH neutralization. Cytokine mRNA expression was suppressed by conventional G1.5% fluid and by high-glucose bicarbonate fluid. These data indicate that pH neutralization leads to a substantial improvement of dialysis fluid biocompatibility; however,
hyperosmolality
and/or high glucose content inhibit cell responsiveness even at normal pH. Replacement of glucose by glucose polymer might prove beneficial provided that the initial low pH is neutralized.
...
PMID:In-vitro biocompatibility of alternative CAPD fluids; comparison of bicarbonate-buffered and glucose-polymer-based solutions. 797 Jan 20
Bacterial peritonitis is the most important complication of peritoneal dialysis (PD), limiting its widespread application. Conventional glucose-based peritoneal dialysates (G-PDS) depress oxygen consumption, chemiluminescence, superoxide production, phagocytosis, bacterial killing and actin polymerization in neutrophils (PMN) in vitro. Expression of adhesion receptors is critical to leukocyte activation, adhesion, migration and phagocytosis. The effects of G-PDS on basal and stimulated leukocyte adhesion molecule expression and leukocyte adhering capacity is unknown. We examined the effect of a five minutes incubation of whole blood in either HEPES-buffered saline or G-PDS containing 1.5% (83 mM), 2.5% (139 mM) or 4.25% (236 mM) glucose, at pH = 5.2, and pH = 7.4. PMN intracellular pH was measured spectrofluorometrically. Leukocyte CD11b, CD18 and CD14 were measured by flow cytometry using monoclonal antibodies in otherwise unstimulated cells or 60 minutes after
lipopolysaccharide
(
LPS
) stimulation. In addition, leukocyte adhering capacity to nylon wool was tested. In an attempt to dissect the effect of high glucose concentrations from that of the attendant
hyperosmolality
, the experiments were repeated with dialysates in which glucose was substituted by sodium chloride (NaCl-PDS) to attain identical osmolalities. G-PDS, as well as the mixtures of spent and fresh G-PDS, significantly depressed the basal PMN expression of adhesion receptors CD11b and CD18 and monocyte expression of CD14, and substantially mitigated the
LPS
-mediated up-regulation of CD11b and CD18. Likewise, G-PDS significantly inhibited leukocyte adhering capacity without affecting cell viability. Similar results were observed with NaCl-PDS. The observed abnormalities were primarily osmolality-dependent, and largely intra- and extracellular pH-independent. Impaired adhesion receptor expression and cell adhesion capacity shown here reveal another dimension of the G-PDS-induced leukocyte abnormalities.
...
PMID:Effects of conventional peritoneal dialysates on leukocyte adhesion and CD11b, CD18 and CD14 expression. 891 36
In the previous issue of Critical Care, Otto and colleagues used in vitro studies to explore the theory that immunomodulation, by correction of hyperglycemia, may be a contributing factor to the reported efficacy of intensive insulin therapy (IIT) in critically ill patients. They suggested that hyperglycemia via hyperosmolarity at supra-physiological levels potentiates the production of cytokines by peripheral blood mononuclear cells in response to
lipopolysaccharide
(
LPS
) stimulation and that it also reduces the responses of phagocytosis and oxidative burst in human granulocytes. The efficacy of IIT, they concluded, may be partially due to the correction of
hyperosmolality
. Other studies, however, have suggested that immunological responses to
LPS
in the presence of hyperglycemia are mediated by a mechanism other than
hyperosmolality
.
...
PMID:Hyperglycemia may alter cytokine production and phagocytosis by means other than hyperosmotic stress. 1871 May 23
While there have been reports on the in vitro effects of ethanol on mitogen-stimulated lymphocyte proliferation, little attention has been paid to whether these effects are mediated by the ethanol molecule per se or the associated
hyperosmolality
. There is controversy whether ethanol at high concentrations inhibits or has no effect on mitogen-stimulated proliferation of T cells. In this study we sought to distinguish between effects due to ethanol and those related to increased osmolality. Rat splenocytes were cultured in vitro in hypertonic (320 mOsm) or isotonic (320 mOsm) ethanol solutions (up to 400 mg/dL), or in corresponding hypertonic solutions without ethanol. Proliferative responses to the B cell mitogen
lipopolysaccharide
and the T cell mitogen concanavalin A were measured by mitochondrial dimethylthiazole diphenyl tetrazolium metabolism and [(3) H]-thymidine incorporation into DNA. B cell response was not significantly affected by ethanol under any conditions. By contrast, T cell proliferative responses were significantly inhibited by isotonic ethanol solutions or hypertonic solutions in the absence of ethanol, but not by hypertonic ethanol solutions. These results indicate that, while high osmolality is normally inhibitory to lymphocyte function, the increase in osmolality caused by ethanol is protective against the otherwise detrimental effects of ethanol.
...
PMID:Ethanol-induced osmolality changes and lymphocyte proliferation. 2673 89
