Expression of membrane-associated C-reactive protein by human monocytes: indications for a selectin-like activity participating in adhesion

We have shown previously that rat liver macrophages (Kupffer cells) express a membrane-bound form of C-reactive protein (mCRP) on their surface which is identical to a galactose-specific particle receptor activity. We now establish the presence of mCRP on human monocyte-macrophages using immunocytochemistry with an anti-neoCRP specific monoclonal antibody and RNA-RNA in situ hybridization to demonstrate the presence of CRP-specific mRNA. Concomitant with mCRP expression, cells exhibit galactose-dependent uptake of particles coated with lactosylated bovine serum albumin. Adhesion experiments on fibronectin-coated surfaces that mCRP on human blood monocytes may act as a selectin-like adhesion molecule, mediating initial carbohydrate-specific contacts which are followed by peptide-specific recognition via integrin receptors.

Nitric oxide generation during cellular metabolization of the diabetogenic N-methyl-N-nitroso-urea streptozotozin contributes to islet cell DNA damage

The N-methyl-N-nitroso-urea streptozotocin is an antibiotic with diabetogenic, carcinogenic and antitumor activity thought to act via alkylation of DNA and proteins. Evidence points to a release of bioactive nitric oxide (NO) from streptozotocin as an additional cytotoxic activity of this drug. Here we show by EPR spectroscopy, that NO is not generated during spontaneous decay of streptozotocin but that its metabolization in rat hepatocytes and pancreatic islet cells yields NO. This NO formation is not due to a NO synthase (NOS) activity since NO formation in hepatocytes in the presence of streptozotocin is not blocked by the NOS inhibitor NG-methyl-L-arginine. By iNOS-specific RT-PCR no positive signal for specific mRNA presence was obtained in streptozotocin-treated cells, proving that iNOS activity was not induced during cell isolation procedures and did not account for the NO release. Furthermore, early DNA-strand breaks induced either by SZ or by the NO donor nitroprusside were both significantly reduced in the presence of an intracellular NO scavenger. In contrast, DNA damage found after incubation with the purely alkylating agent methylmethanesulfonate was not inhibited by the NO trap. These results prove that intracellular formation of NO occurs during degradation of SZ within cells. This NO appears to contribute significantly to streptozotocin-induced cytotoxicity.

Primary cultures of rat islet capillary endothelial cells. Constitutive and cytokine-inducible macrophagelike nitric oxide synthases are expressed and activities regulated by glucose concentration

We have succeeded in obtaining cultures of pure rat islet capillary endothelial cells. These multiply in vitro and exhibit the same antigenic phenotype as expressed in situ: von Willebrand factorhigh, Ox43 (rat endothelial marker)weak, and Ox2 (thymocyte and brain endothelium marker)high. This phenotype differs from both exocrine endothelium stained in situ and rat aorta endothelial cells cultured in vitro under identical conditions. Islet and aorta endothelial cells were cultured in the presence of various glucose concentrations. Nitrite and citrulline concentrations in culture supernatants were measured as an indirect quantification of nitric oxide formation. In islet endothelia, both nitrite and citrulline levels were found to be strongly glucose-dependent, with high levels at high glucose concentrations and vice versa, in contrast to aorta endothelial cells, where no glucose effect was found. Shifting islet endothelial cultures from high to low glucose levels or the reverse led to a slow decrease or increase in nitrite and citrulline formation with several cell generations needed to reach steady levels. Adding a combination of the cytokines interleukin-1 beta, tumor necrosis factor-alpha, and interferon-gamma to both endothelial cell cultures led to a dramatic increase of nitric oxide formation. Again with islet but not with aorta endothelial cells a modulating effect by glucose concentrations was found. Reverse-transcription-polymerase chain reaction with specific primers demonstrated the presence of constitutively expressed nitric oxide synthase-RNA in the islet capillary endothelial cells and confirmed the glucose effect. In addition, we found that cytokines indeed induce the expression of inducible synthase messenger RNA in both endothelial cells, which was not found in the absence of cytokines. Electron paramagnetic resonance spectroscopy of islet endothelial cells confirmed intracellular synthesis of nitric oxide in the presence of cytokines. In conclusion, we here for the first time provide evidence that constitutive nitric oxide synthase is also expressed in capillary endothelium and that cytokine challenge leads to the expression of the inducible isoform in these cells.

Inflammatory islet damage in patients bearing HLA-DR 3 and/or DR 4 haplotypes does not lead to islet autoimmunity

The hypothesis was tested that islet autoimmunity is induced by ongoing islet cell destruction in subjects with susceptibility genes HLA-DR 3 and/or DR 4. Sixty-one patients with confirmed chronic pancreatitis were analysed, 30 of whom expressed HLA-DR 3 and/or DR 4. Electron microscopy studies in 10 patients showed that the inflammatory process also affected islets, as recognisable from islet cell lysis, intrainsular fibrosis and immune cell infiltrates. None of the sera tested contained any of three markers of islet autoimmunity, ICA, IAA or GAD antibodies. A correlation was seen between the loss of exocrine function, as determined by the ALTAB-test, and of beta-cell function, as determined by the C-peptide response to i.v. glucagon. However, there was no preferential loss of beta-cell function in patients with HLA-DR 3 and/or DR 4. We conclude that islet cell destruction occurs during chronic pancreatitis, but does not trigger islet autoimmunity, even in the presence of HLA-DR 3 and/or DR 4.

In situ nick-translation detects focal apoptosis in thymuses of glucocorticoid- and lipopolysaccharide-treated mice

In this study we used in situ nick-translation to analyze apoptotic events in the thymus and in cultured thymocytes at the level of individual cell nuclei. In vitro nuclear DNA strand breaks were observed 3 hr after exposure of thymocytes to dexamethasone (Dex) in 30% of cells and increased to 78% after 15 hr. In sections of 10-day-old mouse thymus, single cells with DNA strand breaks were dispersed throughout the cortex and to a lesser degree in the medulla. In contrast, a large number of clusters of apoptotic cells were seen in the thymic cortex 3-18 hr after injection of Dex or lipopolysaccharide (LPS). After 48 hr apoptotic cells were no longer detectable. Positive signals correlated with the detection of DNA ladders of multimers of about 180 BP size on agarose gels. Electron microscopy confirmed the presence of apoptotic cell clusters and showed that apoptotic foci were located around capillaries in LPS-injected animals. We conclude that in situ nick translation is a suitable method to detect apoptotic nuclei in cultured cells and on cryostat sections. With this method we could demonstrate that in vivo spontaneous apoptosis occurs in single dispersed thymocytes, also including the medulla, whereas experimentally induced apoptosis affects cell clusters, possibly due to high local concentrations of apoptosis inducers.

Nitric oxide destroys zinc-sulfur clusters inducing zinc release from metallothionein and inhibition of the zinc finger-type yeast transcription activator LAC9

Nitric oxide, generated from S-nitrosocysteine or applied as gas mediates metal ion release from the Zn2+/Cd(2+)-complexing protein metallothionein via oxidation of SH-groups. Time-dependent S-nitrosylation and subsequent disulfide formation of metallothionein are demonstrated. Furthermore, nitric oxide inhibits DNA binding activity of the yeast transcription factor LAC9 containing a zinc finger like DNA binding domain. These results show that nitric oxide interacts with and destroys zinc-sulfur clusters in proteins.

Linear loss of insulin secretory capacity during the last six months preceding IDDM. No effect of antiedematous therapy with ketotifen

OBJECTIVE

To investigate the effect of an antiedematous therapy with the histamine antagonist ketotifen on beta-cell function in late prediabetes.

RESEARCH DESIGN AND METHODS

In a randomized double-blind placebo-controlled study, ketotifen was administered for 3 months to 9 islet cell antibody positive (ICA+) prediabetic patients with a first-phase insulin response (FPIR) below the 2.5th percentile to preserve residual beta-cell function. Patients were followed by intravenous glucose tolerance tests (IVGTTs) every 4-6 weeks for determination of FPIR, HbA1, ICAs, and insulin autoantibodies. In 5 patients, the immune activation state was followed by determination of serum levels of tumor necrosis factor-alpha (TNF-alpha), beta 2-microglobulin, and C-reactive protein (CRP).

RESULTS

Seven of nine patients developed diabetes within one year of follow-up. Irrespective of treatment with ketotifen, a slow and linear decline (P < 0.05) of 1 + 3-min insulin values was observed in sequential IVGTTs in those 7 patients who developed insulin-dependent diabetes mellitus (IDDM) during follow-up. The 2 other patients showed wide fluctuations of the insulin response with a threefold increase of initial insulin levels. HbA1 did not correlate with FPIR. Fasting blood glucose increased significantly during the study (P < 0.05). Individual levels of serum TNF-alpha, CRP, and beta 2-microglobulin did not change during the study.

CONCLUSIONS

The study could not demonstrate preservation of beta-cell function by ketotifen in the late stage before manifestation of clinical diabetes. Manifestation is preceded in the last 6 months by a steady loss of the FPIR without rapid deterioration immediately before diagnosis and without signs of increased immune activity.

Coating particles with a block co-polymer (poloxamine-908) suppresses opsonization but permits the activity of dysopsonins in the serum

The surfaces of polystyrene microspheres (60 nm in diameter) and colloidal gold particles (17 nm in diameter) were coated with a polyoxyethylene (POE)/polyoxypropylene (POP) block co-polymer; poloxamine-908. The polymer adsorb strongly to the microspheres via its relatively hydrophobic POP segments. This leaves the POE chains in a mobile state as they extend outward from the surface and thereby provide stability to the particle suspension by suppressing aggregation. The blood clearance and biodistribution of uncoated vs. poloxamine-908-coated 125I-labelled polystyrene microspheres were compared 1 h after intravenous administration into rats. Poloxamine coating dramatically reduced liver accumulation of microspheres and kept them within the systemic circulation. These observations were further confirmed by electron microscopy, demonstrating that Kupffer cells were loaded with uncoated latex but had ingested few if any of the poloxamine-908-coated particles. The interaction of uncoated and poloxamine-coated gold particles with freshly isolated rat liver sinusoidal cells was examined by electron microscopy. The accumulation in Kupffer cells of gold particles after opsonization with autologous plasma was in accordance with previous observations where the dominant opsonizing activity had been identified as fibronectin. In contrast, coating of gold particles with poloxamine-908 prior to plasma opsonization prevented the adsorption of fibronectin onto their surface. Simultaneously, Kupffer cells failed to recognize poloxamine-908-coated gold particles before and after opsonization. Unlike Kupffer cells, liver endothelial cells endocytosed poloxamine-908-coated gold particles prior to opsonization but failed to recognize them after the opsonization process. This was taken as an indication of the presence of dysopsonic activity in plasma. This dysopsonic activity was studied using polystyrene latex microspheres, where the uptake of such particles by phagocytes is known to be independent of opsonization. The coating of 125I-labelled polystyrene microspheres with poloxamine-908 dramatically reduced their interaction with liver sinusoidal cells. This interaction was further reduced in the presence of either autologous plasma or serum. A heat-stable (60 degrees C for 15 min) serum component of molecular mass > 100 kDa was found to mediate this suppressive effect. Thus, we demonstrate that organ-specific receptors, opsonin activities and plasma dysopsonins regulate the in vivo clearance of particulate materials from the circulation. Poloxamine-908 coating modulates particle clearance by effectively blocking opsonization but still allowing for dysopsonization.

Membrane-associated C-reactive protein on rat liver macrophages is synthesized within the macrophages, expressed as neo-C-reactive protein and bound through a C-reactive protein-specific membrane receptor

We could recently show that rat liver macrophages (Kupffer cells) express a membrane-bound form of C-reactive protein on their surface. Because it is removed by washing the cells in buffers containing Ca(++)-chelators, membrane-bound C-reactive protein is a peripheral protein rather than an integral part of the Kupffer cell membrane. This Kupffer cell membrane-bound C-reactive protein is identical to the galactose-specific particle receptor previously characterized. We now present evidence that Kupffer cells do not acquire soluble serum C-reactive protein but synthesize their own membrane-bound C-reactive protein. By RNA-RNA in situ hybridization, it was found that hepatocytes are not the only sort of liver cells synthesizing C-reactive protein, but C-reactive protein-specific mRNA is present also in Kupffer cells. During acute-phase response C-reactive protein mRNA is found in increased amounts within liver macrophages too. Furthermore, by labeling experiments with antisera against native, pentameric soluble serum C-reactive protein and monoclonal antibodies against a neoepitope present on C-reactive protein subunits only, we could establish that the membrane-bound C-reactive protein expressed on the liver macrophage is not the pentameric molecule of soluble serum C-reactive protein, but rather consists of C-reactive protein subunits. Finally, we present evidence that liver macrophages contain a binding protein in their plasma membrane, with an apparent molecular weight of 59 to 61kD, specific for C-reactive protein and similar to the one previously isolated from macrophage cell lines.

Macrophage-generated nitric oxide as cytotoxic factor in destruction of alginate-encapsulated islets. Protection by arginine analogs and/or coencapsulated erythrocytes

Isolated rat islets were microencapsulated in alginate beads of about 1.5 mm in diameter. These were cocultured with activated or resident peritoneal macrophages of syngeneic rats for 24 hr. Examination of the encapsulated islets by transmission electron microscopy showed that the islets were lysed by activated (80.0 +/- 12.8% of islets lysed), but not by resident, macrophages (17.5 +/- 12.2% lysis) despite encapsulation. Islet lysis was inhibited in a concentration-dependent manner by a specific nitric oxide-synthase inhibitor (0.5 mM NG-methyl-L-arginine: 5.9 +/- 3.9% lysis) in an L-arginine-reversible manner (0.5 mM NG-methyl-L-arginine + 10 mM L-arginine: 55.1 +/- 16.6% lysis). Incubation of encapsulated islets with 3 different nitric oxide-generating compounds also resulted in a concentration-dependent islet lysis. Coencapsulation of autologous erythrocytes was found to be an effective and easy way of protection from macrophage-mediated lysis. Protection was dependent upon the number of erythrocytes coencapsulated. This in vitro study demonstrates that nitric oxide secreted by activated macrophages is able to destroy islets despite encapsulation in alginate, and that both, inhibition of nitric oxide formation using enzyme inhibitors and scavenging of nitric oxide once formed exploiting the hemoglobin of autologous erythrocytes, protect encapsulated islets from destruction.

Induction of a macrophage-like nitric oxide synthase in cultured rat aortic endothelial cells. IL-1 beta-mediated induction regulated by tumor necrosis factor-alpha and IFN-gamma

We investigated the effects of murine rTNF-alpha, human rIL-1 beta, and rat rIFN-gamma in various concentrations and/or combinations on inducible nitric oxide (NO) production in primary cultures of rat aortic endothelial cells. Northern blot analysis of total RNA from induced and control cultures using the cloned mouse macrophage gene of inducible NO synthase as probe as well as polymerase chain reaction using a specific primer sequence gave a positive signal for activated cells only. A RNA approximately 4.4 kb of length similar to the inducible form of NO synthase in macrophages was labeled. The concentration of nitrite as a stable reaction product of NO in culture supernatants was determined 24 h after incubation with the various cytokines. IL-1 beta alone (40 to 1000 U/ml) induced formation of increasing amounts of nitrite with increasing concentrations of IL-1 beta present. Neither TNF-alpha alone (10 to 2000 U/ml) nor IFN-gamma alone 25 to 500 U/ml) showed significant effects on nitrite production. Simultaneous incubation with low concentrations of TNF-alpha (&lt; or = 100 U/ml) and IL-1 beta abrogated the induction effect of IL-1 beta. Conversely, addition of high concentrations of TNF-alpha (&gt; or = 500 U/ml) led to near maximal levels of nitrite formation even at lowest IL-1 beta concentrations (40 U/ml). In addition, simultaneous incubation of endothelial cells with IFN-gamma plus IL-1 beta and/or TNF-alpha led to near maximal NO production of endothelial cells, even at lowest IFN-gamma concentrations (25 U/ml). We hypothesize that the regulating effect of TNF-alpha may in vivo help to prevent local inflammatory responses from spreading to intact sites.

Induction of a macrophage-like nitric oxide synthase in cultured rat aortic endothelial cells. IL-1 beta-mediated induction regulated by tumor necrosis factor-alpha and IFN-gamma

We investigated the effects of murine rTNF-alpha, human rIL-1 beta, and rat rIFN-gamma in various concentrations and/or combinations on inducible nitric oxide (NO) production in primary cultures of rat aortic endothelial cells. Northern blot analysis of total RNA from induced and control cultures using the cloned mouse macrophage gene of inducible NO synthase as probe as well as polymerase chain reaction using a specific primer sequence gave a positive signal for activated cells only. A RNA approximately 4.4 kb of length similar to the inducible form of NO synthase in macrophages was labeled. The concentration of nitrite as a stable reaction product of NO in culture supernatants was determined 24 h after incubation with the various cytokines. IL-1 beta alone (40 to 1000 U/ml) induced formation of increasing amounts of nitrite with increasing concentrations of IL-1 beta present. Neither TNF-alpha alone (10 to 2000 U/ml) nor IFN-gamma alone 25 to 500 U/ml) showed significant effects on nitrite production. Simultaneous incubation with low concentrations of TNF-alpha (< or = 100 U/ml) and IL-1 beta abrogated the induction effect of IL-1 beta. Conversely, addition of high concentrations of TNF-alpha (> or = 500 U/ml) led to near maximal levels of nitrite formation even at lowest IL-1 beta concentrations (40 U/ml). In addition, simultaneous incubation of endothelial cells with IFN-gamma plus IL-1 beta and/or TNF-alpha led to near maximal NO production of endothelial cells, even at lowest IFN-gamma concentrations (25 U/ml). We hypothesize that the regulating effect of TNF-alpha may in vivo help to prevent local inflammatory responses from spreading to intact sites.

Pancreatic islet cells are highly susceptible towards the cytotoxic effects of chemically generated nitric oxide

To compare the sensitivity of different mammalian cell types towards the cytotoxic action of nitric oxide, freshly isolated rat pancreatic islet cells, hepatocytes, resident and activated macrophages, cultured aortic endothelial cells and two murine tumor cell lines were tested for susceptibility towards exogenous nitric oxide. As sources for nitric oxide nitroprusside, S-nitroso-N-acetyl-penicillamine and the sydnonimine-derivative SIN-1 were used. These generate nitric oxide by different mechanisms and kinetics. Among the cell types tested we found large differences in their susceptibility towards the three nitric oxide donors. Islet cells were by far the most sensitive of the investigated cells and were completely lysed by all three nitric oxide donors. Hepatocytes and endothelial cells were sensitive towards nitroprusside but relatively resistant towards toxicity of SIN-1 and S-nitroso-N-acetyl-penicillamine. Activated and resident macrophages were lysed by SIN-1, whereas high concentrations of nitroprusside and S-nitroso-N-acetyl-penicillamine led to partial cell lysis only. The tumor cell lines were both lysed by SIN-1 but showed differences in their sensitivity towards S-nitroso-N-acetyl-penicillamine. Nitric oxide, which is produced in large amounts during infection and inflammation, may play an important role in the destruction of islet cells during insulitis leading to insulin-dependent diabetes mellitus.

Transcription and translation of inducible nitric oxide synthase in the pancreas of prediabetic BB rats

The inducible NO synthase (iNOS) was found to be expressed in pancreatic lesions of adult diabetes-prone BB rats. Pancreatic iNOS mRNA was detected by reverse transcriptase PCR in pancreatic RNA of adult diabetes-prone BB rats but not in normal Wistar rats, young diabetes-prone BB rats without insulitis or in diabetes-resistant BB rats. Immunohistochemistry of pancreatic sections using an iNOS-specific antiserum labeled the pancreas of adult diabetes-prone BB rats but not Wistar rats. Parallel staining for ED1-positive macrophages showed restriction of iNOS expression to areas of islet infiltration by macrophages. In conclusion, the data provide direct evidence for enhanced expression of inducible NO synthase in tissue lesions during the development of autoimmune diabetes.

Cytotoxicity of activated rat macrophages against syngeneic islet cells is arginine-dependent, correlates with citrulline and nitrite concentrations and is identical to lysis by the nitric oxide donor nitroprusside

Lysis of rat islet cells by syngeneic activated macrophages in vitro can be completely inhibited by the nitric oxide-synthase-inhibitor NG-methyl-L-arginine. This inhibition can be reversed by an excess of L-arginine. Time-dependent lysis of islet cells by activated macrophages is accompanied by increasing concentrations of nitrite and citrulline in the culture medium both of which are measures of nitric oxide formation derived from L-arginine. Lysis of isolated islet cells and disintegration of isolated whole islets is also obtained within 15 h by culture in the presence of the nitric oxide generating vasodilator sodium nitroprusside. We thus conclude that nitric oxide is extremely toxic for islet cells and that nitric oxide alone and in the absence of other macrophage-generated potentially toxic products can rapidly and completely kill islet cells.

Uptake of toxic silica particles by isolated rat liver macrophages (Kupffer cells) is receptor mediated and can be blocked by competition

Silica particles (quartz dust) are toxic to macrophages after their uptake into these cells. These experiments describe the opsonization mechanism(s) and macrophage receptor(s) involved in silica uptake. Freshly isolated rat liver macrophages (Kupffer cells) were incubated at 37 degrees C with silica particles in the presence or absence of autologous or heterologous plasma or purified plasma fibronectin and cell viability was assessed at various times. Within 60 min of coincubation, > 80% of macrophages were lysed in the presence of plasma or purified fibronectin but not in their absence (viability > 90%). Lysis was slower with defibronectinized plasma (28% in 60 min). Macrophages could be protected from lysis by addition of the monosaccharide N-acetyl-D-galactosamine but not by N-acetyl-D-glucosamine. Galactosylated serum albumin but not mannosylated albumin or native albumin exerted full protection from lysis. The pentapeptide GRGDS also prevented macrophage lysis in synergy with N-acetyl-galactosamine. Enzymatic deglycosylation of fibronectin reduced lysis significantly. These findings indicate an important opsonizing activity for fibronectin and dual recognition via the lectin-like galactose-specific binding activity of membrane-associated C-reactive protein and by integrin receptor(s). Binding experiments (at 4 degrees C) revealed initial binding as primarily galactose-inhibitable, suggesting integrin-mediated binding as a later event necessary for effective uptake.

Diabetes manifestation in BB rats is preceded by pan-pancreatic presence of activated inflammatory macrophages

Pancreata of normoglycemic diabetes-prone (dp) and diabetes-resistant (dr) BB rats and normal Wistar rats were screened for macrophage infiltration by immunohistochemistry and by electron microscopy. Inflammatory macrophages were found in the endocrine as well as the exocrine part of the pancreata from dp BB rats. In the exocrine tissue they had a different phenotype (ED1+, ED2+, W3/25+, Ox17+) from that found in pancreata from dr BB and Wistar rats (predominantly ED1-, ED2+, W3/25+, Ox17-). The number of macrophages in exocrine portions of pancreata from the various rat strains were not different. By electron microscopy scattered macrophage-associated tissue lesions and phagocytosis of cell debris were found throughout the exocrine tissue and in islets of dp BB rats. Such lesions were low or absent in biopsies of animals that later did not develop diabetes. We conclude that macrophage-mediated cytotoxicity during the early phases of diabetes development in BB rats is not restricted to islets, but is a generalized, pan-pancreatic event.

Nitric oxide: a pathogenetic factor in autoimmunity

Nitric oxide (NO) has been identified recently as a multifunctional mediator, produced by, and acting on, most cells of the body. Besides its function as endothelium-derived relaxing factor, as a neurotransmitter and as an immune defence molecule, evidence is accumulating that NO participates in inflammatory- and autoimmune-mediated tissue destruction. Modulation of NO synthesis and action represents a new approach to the treatment of inflammatory and autoimmune conditions.

Repetitive in vivo treatment with human recombinant interleukin-1 beta modifies beta-cell function in normal rats

It is unknown whether interleukin-1 exerts a bimodal effect on Beta-cell function in vivo, and whether interleukin-1 has a diabetogenic action in normal animals. We therefore studied: (a) acute effects 2 h after an intraperitoneal bolus injection of 4 micrograms of recombinant human interleukin-1 beta per kg body weight on blood glucose, plasma levels of insulin, glucagon and corticosterone in Wistar Kyoto rats, either untreated or pre-treated with 4 micrograms/kg of interleukin-1 daily for 3 or 5 days; (b) the cumulative effects of repetitive intraperitoneal injections of 4 micrograms/kg interleukin-1 on blood glucose, glucose tolerance, plasma levels of insulin, glucagon and corticosterone, pancreatic insulin content and pancreatic ultrastructure; and (c) blood glucose and plasma concentrations of insulin, glucagon and corticosterone 10 h after the last of five intraperitoneal injections of interleukin-1, at which time point the inhibitory effect of short-term interleukin-1 exposure on insulin secretion reaches its nadir in vitro. A single injection of 4 micrograms/kg of interleukin-1 caused a slight, but significant lowering of blood glucose 2 h after interleukin-1 injection with no significant changes in plasma insulin and in spite of increases in plasma glucagon and corticosterone. A lowering of blood glucose 2 h after interleukin-1 administration was reproduced with 40, but not 0.4 micrograms/kg of interleukin-1, and was also seen in interleukin-1 pre-treated rats. Two hours after the fifth injection of interleukin-1, intraperitoneal glucose tolerance was impaired with elevated plasma insulin and corticosterone levels and increased pancreatic insulin content, indicating a state of insulin resistance.(ABSTRACT TRUNCATED AT 250 WORDS)

Toxicity of chemically generated nitric oxide towards pancreatic islet cells can be prevented by nicotinamide

Previous studies have indicated that nitric oxide is involved in the lysis of pancreatic islet cells by inflammatory macrophages. Here we show that the incubation of islet cells with chemical NO-donors leads to cell lysis in a concentration and time dependent way. Islet cell death could be prevented by nicotinamide and 3-aminobenzamide, which are known to inhibit ADP-ribosylation, while several scavengers of oxygen radicals, N-acetylcysteine, dihydrolipoic acid, dimethylthiourea and citiolone, provided no protection.

Decreased metabolism and viability of Mycoplasma hominis induced by monoclonal antibody-mediated agglutination

Monoclonal antibodies (MAbs) were generated against lysates of clinical Mycoplasma hominis isolates. Three of these, designated BG2, BA10, and FE6, recognized an integral membrane protein of M. hominis with an apparent molecular weight of 50,000 (p50). Electron microscopy studies demonstrated that this protein is distributed evenly over the cell surface. These anti-p50 MAbs were species specific for M. hominis; they reacted with 42% of 126 tested clinical M. hominis isolates and showed no reactivity to heterologous mycoplasma species. Immunoblot analysis after limited proteolysis of purified p50 demonstrated that the three MAbs reacted with different epitopes of the protein. Unlike BA10 and FE6, MAb BG2 induced a decrease in arginine metabolism and a reduction of CFU in metabolic inhibition tests. F(ab)2 fragments of MAb BG2 showed the same inhibitory effect as the intact MAb molecule, while Fab and Fc fragments had no influence on vital functions. Preincubation of the mycoplasmas with MAb BG2 followed by trypsin treatment yielded the same amount of CFU as the control without antibodies. In conclusion, the cell aggregates were resolved by the trypsin treatment. These experiments and tests with the antibody fragments led to the conclusion that only the intact MAb structure or the F(ab)2 structure had metabolic inhibition potential and that the observed metabolism inhibition as well as the apparent decrease in viability were a result of agglutination by MAb BG2.

Electron microscopic demonstration of glucocorticoid recognition sites on isolated rat hepatocytes

Ultrastructural evidence is presented for the presence of membrane-bound glucocorticoid recognition and binding sites. Corticosterone was derivatized at 3 different positions and coupled covalently to bovine serum albumin (BSA). All three derivatives competed for binding of [3H]corticosterone by isolated rat hepatocytes. The most effective competitor, corticosterone-succinate-BSA (CSB), was adsorbed onto colloidal gold particles (CSB-gold, 17 +/- 3 nm dia). When isolated rat hepatocytes or mouse pituitary tumor cells (AtT 20) are incubated with CSB-gold, specific binding in the microvilli-rich region of these cells is seen. This binding of CSB-gold is reduced by about 50% in the presence of unlabelled CSB or corticosterone.