Salivary dysbiosis and the clinical spectrum in anti-Ro positive mothers of children with neonatal lupus.

Mothers giving birth to children with manifestations of neonatal lupus (NL) represent a unique population at risk for the development of clinically evident pathologic autoimmunity since many are asymptomatic and only become aware of anti-SSA/Ro positivity (anti-Ro+) based on heart block in their fetus. Accordingly, we hypothesized that the microbiome in saliva is associated with the development of autoreactivity and in some cases the progression in health status from benign to overt clinical disease including Sjögren's syndrome (SS) and systemic lupus erythematosus (SLE). The study comprised a clinical spectrum of anti-Ro+ mothers, all of whom gave birth to a child with NL: 9 were asymptomatic or had an undifferentiated autoimmune disease (Asym/UAS) and 16 fulfilled criteria for SS and/or SLE. Microbial diversity was reduced across all levels from kingdom to species for the anti-Ro+ mothers vs healthy controls; however, there were no significant differences between Asym/UAS and SS/SLE mothers. Relative abundance of Proteobacteria and more specifically class Betaproteobacteria decreased with clinical severity (healthy controls < Asym/UAS < SS/SLE). These ordered differences were maintained through the taxonomic hierarchy to three genera (Lautropia, Comamonas, and Neisseria) and species within these genera (L. mirabilis, N. flavescens and N. oralis). Biometric analysis comparing von Willebrand Factor domains present in human Ro60 with L. mirabilis proteins support the hypothesis of molecular mimicry. These data position the microbiome in the development of anti-Ro reactivity and subsequent clinical spectrum of disease.

Autoimmune associated congenital heart block: integration of clinical and research clues in the management of the maternal / foetal dyad at risk.

One of the strongest associations with autoantibodies directed to components of the SSA/Ro-SSB/La ribonucleoprotein complex is the development of congenital heart block (CHB) in an offspring, an alarming prospect facing 2% of primigravid mothers with these reactivities. This risk is 10-fold higher in women who have had a previously affected child with CHB. Anti-Ro/La antibodies are necessary but insufficient to cause disease. In vitro and in vivo experiments suggest that the pathogenesis involves exaggerated apoptosis, macrophage/myfibroblast crosstalk, TGFbeta expression and extensive fibrosis in the conducting system and in some cases surrounding myocardium. A disturbing observation is the rapidity of disease progression, with advanced heart block and life-threatening cardiomyopathy observed <2 weeks from normal sinus rhythm. Once 3rd degree (complete) block is identified, reversal has never been achieved, despite dexamethasone. Current strategies include the evaluation of an early echocardiographic marker of injury, such as a prolonged PR interval and the use of IVIG as a preventative measure for pregnancies of mothers with previously affected children.

Disease progression in mothers of children enrolled in the Research Registry for Neonatal Lupus.

OBJECTIVE: To evaluate autoimmune disease progression in asymptomatic and pauci-symptomatic mothers of children with neonatal lupus (NL). METHODS: Clinical information on mothers enrolled in the Research Registry for NL (RRNL) was obtained from medical records. Genotyping was performed for -308A/G tumour necrosis factor (TNF)alpha, 869T/C transforming growth factor (TGF)beta and -889C/T interleukin (IL)1alpha. RESULTS: Of the 321 mothers enrolled, 229 had at least 6 months of follow-up. Of the 51 mothers who were asymptomatic at the NL child's birth, 26 progressed: 12 developed pauci-undifferentiated autoimmune syndrome (pauci-UAS), 2 poly-UAS, 7 SS, 4 SLE and 1 SLE/SS. The median time to develop any symptom was 3.15 years. Of the 37 mothers classified as pauci-UAS at the NL child's birth, 16 progressed: 5 developed poly-UAS, 6 Sjögren syndrome (SS), 4 systemic lupus erythematosus (SLE) and 1 SLE/SS. Of the pauci-UAS mothers enrolled within 1 year, the median time to progression was 6.7 years. Four mothers developed lupus nephritis (two asymptomatic, two pauci-UAS). The probability of an asymptomatic mother developing SLE by 10 years was 18.6%, and developing probable/definite SS was 27.9%. NL manifestations did not predict disease progression in an asymptomatic mother. Mothers with anti-Sjögren syndrome A antigen (SSA/)Ro and anti-Sjögren syndrome B antigen (SSB)/La were nearly twice as likely to develop an autoimmune disease as mothers with anti-SSA/Ro only. Only TGFbetaT/T was significantly higher in SLE mothers compared to asymptomatic mothers (p = 0.03). CONCLUSIONS: Continued follow-up of asymptomatic NL mothers is warranted since nearly half progress, albeit few develop SLE. While the anti-SSB/La antibodies may be a risk factor for progression, further work is needed to determine reliable biomarkers in otherwise healthy women with anti-SSA/Ro antibodies identified solely because of an NL child.

Nitric oxide, an endothelial cell relaxation factor, inhibits neutrophil superoxide anion production via a direct action on the NADPH oxidase.

Nitric oxide provokes vasodilation and inhibits platelet aggregation. We examined the effect of nitric oxide on superoxide anion production by three sources: activated intact neutrophils, xanthine oxidase/hypoxanthine, and the NADPH oxidase. Nitric oxide significantly inhibited the generation of superoxide anion by neutrophils exposed to either FMLP (10(-7)M) or PMA (150 ng/ml) (IC50 = 30 microM). To determine whether the effect of nitric oxide on the respiratory burst was due to simple scavenging of O2+, kinetic studies that compared effects on neutrophils and the cell-free xanthine oxidase system were performed. Nitric oxide inhibited O2+ produced by xanthine oxidase only when added simultaneously with substrate, consistent with the short half-life of NO in oxygenated solution. In contrast, the addition of nitric oxide to neutrophils 20 min before FMLP resulted in the inhibition of O2+ production, which suggests formation of a stable intermediate. The effect of nitric oxide on the cell-free NADPH oxidase superoxide-generating system was also examined: The addition of NO before arachidonate activation (t = -6 min) significantly inhibited superoxide anion production. Nitric oxide did not inhibit O2+ when added at NADPH initiation (t = 0). Treatment of the membrane but not cytosolic component of the oxidase was sufficient to inhibit O2+ generation. The data suggest that nitric oxide inhibits neutrophil O2+ production via direct effects on membrane components of the NADPH oxidase. This action must occur before the assembly of the activated complex.

Outside-in signaling in the chondrocyte. Nitric oxide disrupts fibronectin-induced assembly of a subplasmalemmal actin/rho A/focal adhesion kinase signaling complex.

Elevated levels of fibronectin (Fn) in articular cartilage have been linked to the progression of both rheumatoid and osteoarthritis. In this study, we examined intracellular events which follow ligation of Fn to its receptor, the integrin alpha5beta1. In addition, we examined the regulatory influence of nitric oxide on these events, since this free radical has been implicated in cartilage degradation. Exposure of chondrocytes to Fn-coated beads resulted in the circumferential clustering of the alpha5beta1 integrin receptor, which was accompanied by the subplasmalemmal assembly of a focal activation complex comprised of F-actin, the tyrosine kinase, focal adhesion kinase (FAK), the ras related G protein rho A, as well as tyrosine-phosphorylated proteins. Treatment with exogenous nitric oxide (NO) or catabolic cytokines which induce nitric oxide synthase blocked the assembly of F-actin, FAK, rho A and tyrosine-phosphorylated proteins while not affecting the total number of beads bound per cell nor the clustering of alpha5beta1 integrin. Use of a cGMP antagonist (Rp-8-Br cGMPS) or cGMP agonist (Sp-cGMPS) either abolished or mimicked the NO effect, respectively. Adherence of chondrocytes to fibronectin enhanced proteoglycan synthesis by twofold (vs. albumin). In addition, basic fibroblast growth factor (FGF) and insulin growth factor (IGF-1) induced proteoglycan synthesis in chondrocytes adherent to Fn but not albumin suggesting a costimulatory signal transduced by alpha5betal and the FGF receptor. Both constitutive and FGF stimulated proteoglycan synthesis were completely inhibited by nitric oxide. These data indicate that the ligation of alpha5beta1 in the chondrocyte induced the intracellular assembly of an activation complex comprised of the cytoplasmic tail of alpha5beta1 integrin, actin, and the signaling molecules rho A and FAK. We show that NO inhibits the assembly of the intracellular activation complex and the synthesis of proteoglycans, but has no effect on the extracellular aggregation of alpha5beta1 integrin. These observations provide a basis by which nitric oxide can interfere with chondrocyte functions by affecting chondrocyte-matrix interactions.

Experimental pulmonary inflammatory injury in the monkey.

Inflammatory pulmonary injury was induced in Macaca mulatta rhesus monkeys by the intrabronchial instillation of the formylated peptide norleu-leu-phe (FNLP) or phorbol myristate acetate (PMA). Indicators of pulmonary injury included an increase in mean protein content of bronchoalveolar lavage (BAL) fluid from 0.51 mg/ml in untreated animals to 3.74 mg/ml and 6.64 mg/ml in FNLP- and PMA-treated animals, respectively, the appearance of a diffuse pulmonary infiltrate in chest roentgenograms, and histologic evidence of a predominantly neutrophilic leukocytic infiltration. Concomitant with the appearance of pulmonary injury was the generation of proteases and oxidants in the BAL fluids. Neutrophil elastase, bound to alpha 1-protease inhibitor (alpha 1-PI), was found to increase from 0.47 micrograms/ml in untreated monkeys to 0.99 micrograms/ml in FNLP-treated animals and 1.23 micrograms/ml in monkeys receiving PMA. Radioiodinated human prekallikrein, instilled for 2 min into the inflammatory site and retrieved by lavaging, was found to have undergone proteolytic cleavage; this cleavage was not consistently inhibitable with the inclusion of antibody to elastase. BAL fluids were shown to contain an amidolytic activity when tested on the synthetic substrate H-D-pro-phe-arg-pNA. This activity was partially inhibitable with known inhibitors of active Hageman factor and kallikrein. beta-Glucuronidase levels in the BAL fluids increased from 0.85 U/ml to 4.36 U/ml and 8.25 U/ml in FNLP- and PMA-treated animals, respectively. Myeloperoxidase (MPO) levels also increased from 1.37 OD U/ml X min to 16.59 and 30.47 OD U/ml X min in the same groups of animals. Oxidant generation was also assessed in several different ways. The specific activity of the oxidant-sensitive inhibitor alpha 1-PI recovered in the BAL fluid decreased from 0.80 in control samples to 0.57 and 0.65 in FNLP- and PMA-treated animals. That this inactivation was due to oxidant injury of the molecule was confirmed by the return to full activity of four out of five BAL samples after their incubation with the reducing agent dithiothreitol in the presence of methionine sulfoxide peptide reductase. The specific activity of catalase in the BAL fluids of animals given 3-amino, 1,2,4 triazole (AT) 1 h before lavaging showed drops from 0.97 in untreated monkeys to 0.04 in FNLP-treated and 0.49 in PMA-treated monkeys. MPO levels also fell in the AT-treated injured animals from 16.59 to 0.85 delta OD/min X ml in FNLP animals in the absence and presence of AT, and 30.47 to 0.60 delta OD/min X ml in PMA-treated animals. Inhibition of MPO by AT was shown in vitro to be H2O2 dependent. Total glutathione levels in the BAL fluids did not change appreciably after FNLP or PMA treatment. These studies present substantial evidence of the generation of both proteases and oxidants during the establishment of acute pulmonary inflammatory injury in an experimental primate model.

Inhibition of neutrophil function by aspirin-like drugs (NSAIDS): requirement for assembly of heterotrimeric G proteins in bilayer phospholipid.

Non-steroidal anti-inflammatory drugs (NSAIDs) inhibit neutrophil functions via mechanisms that are independent of their effects on prostaglandin biosynthesis. We examined the effects of sodium salicylate and piroxicam on GTP/GDP exchange by a regulatory G protein (G alpha i). Plasma membrane and cytosol of human neutrophils were prepared by nitrogen cavitation and discontinuous sucrose density centrifugation. Salicylate (3 mM) and piroxicam (50 microM) reduced [35S]GTP gamma S binding to purified plasma membranes [65 +/- 3.7 and 75 +/- 5.3% (P < 0.003) of control, respectively]. Membrane-associated G alpha/beta gamma was solubilized by treatment of plasma membranes with sodium cholate. NSAIDs did not inhibit binding of GTP to solubilized G alpha/beta gamma derived from detergent-treated plasma membranes. Lipid reconstitution was achieved by detergent dialysis followed by the addition of bilayer liposomes (phosphatidylcholine). Salicylate and piroxicam inhibited GTP gamma S binding to G alpha/beta gamma derived from solubilized plasma membranes reconstituted in phosphatidylcholine vesicles (bilayer structures) but had no effect when phosphatidylethanolamine (hexagonal phase II structure) was used for reconstitution. Salicylate and piroxicam had no effect on GTP binding to cytosolic fractions in which soluble G alpha i exists as a free subunit, suggesting that the effect required either assembly of G alpha i/beta gamma heterotrimer or the presence of a lipid bilayer. Although the addition of purified bovine beta gamma subunits to dialyzed cytosol increased both the total GIP binding capacity and the pertussis toxin-dependent ADP-ribosylation of G alpha i, consistent with assembly of a G protein heterotrimer, NSAIDs had no effect on GTP binding. In contrast, NSAIDs inhibited GTP binding to heterotrimeric G alpha cytosol/beta gamma bovine when the complex was inserted into bilayer liposomes. The data indicate that salicylate and piroxicam disrupt neutrophil function via their capacity to interfere with GTP/GDP exchange at an alpha subunit of a regulatory G protein, an effect which requires assembly of the active heterotrimer G alpha i/beta gamma in a phospholipid bilayer.

Expression of nitric oxide synthase in human peripheral blood mononuclear cells and neutrophils.

It has been clearly demonstrated in rodents that nitric oxide (NO) plays an important role in host defense and immunity. However, evidence that human leukocytes express inducible nitric oxide synthase (iNOS) or its products has been inconclusive and a source of controversy. We report that iNOS could not be detected in human monocytes, HL-60 cells, neutrophils, and T cells by Western blotting analysis (< or = 10 pg) or by radiolabeled L-arginine-to-L-citrulline conversion (< or = 20 pmol L-citrulline) under conditions sufficient to induce iNOS in the rodent system and in human hepatocytes, which include activation with cytokines, endotoxins, and/or chemoattractants. However, sensitive methods such as RT-PCR and Northern blot analysis show "constitutively expressed" iNOS mRNA from human monocytes, neutrophils, Jurkat cells, and HL-60 cells. This iNOS mRNA is 4.4 kb and is similar to that seen in human hepatocytes and rodent macrophages. In spite of the constitutive expression of mRNA in neutrophils and the lack of detectable NOS activity (based on Western blotting and L-arginine-to-L-citrulline conversion assay), stimulation of human neutrophils unit FMLP in vitro induced the ADP-ribosylation of an intracellular NO target, glyceraldehyde-3-PO4 dehydrogenase (GAPDH), in a NO-dependent manner. These studies indicate that low levels of NOS protein are expressed in neutrophils (and perhaps T cells and monocytes) and produce NO following stimulation. The data indicate that, in addition to its phagocytic and tumoricidal activity. NO may also function as an autacoid signaling molecule within the cells.

The role of nitric oxide in tissue destruction.

Nitric oxide (NO) is synthesized via the oxidation of arginine by a family of nitric oxide synthases (NOS), which are either constitutive (ie. endothelial (ec)NOS and neuronal (nc)NOS) or inducible (iNOS). The production of nitric oxide plays a vital role in the regulation of physiological processes, host defence, inflammation and immunity. Pro-inflammatory effects include vasodilation, oedema, cytotoxicity and the mediation of cytokine-dependent processes that can lead to tissue destruction. Nitric oxide-dependent tissue injury has been implicated in a variety of rheumatic diseases, including systemic lupus erythematosus (SLE), rheumatoid arthritis and osteoarthritis. Conversely, the production of NO by endothelial cell NOS may serve a protective, or anti-inflammatory, function by preventing the adhesion and release of oxidants by activated neutrophils in the microvasculature. In this chapter we describe the multifaceted role of nitric oxide in inflammation and address the potential therapeutic implications of NOS inhibition.

Dying right to live longer: positing apoptosis as a link between maternal autoantibodies and congenital heart block.

The association of isolated congenital heart block (CHB) with maternal autoantibodies to SSA/Ro and SSB/La ribonucleoproteins is approaching the predictable, even in mothers who are completely asymptomatic. Indeed, this model of passively acquired autoimmunity offers an exceptional opportunity to examine the effector arm of immunity and define the pathogenicity of an autoantibody in mediating tissue injury. The study of CHB exemplifies not only translational research, which inherently draws upon clinical observations and explores them in the laboratory, but "integrational" research which attempts to fit critical clinical and basic observations together, even those seemingly at odds. The spectrum of conduction abnormalities includes second and third-degree block, but injury can extend to the myocardium and endocardium, in rare cases without AV nodal dysfunction. The rarity of disease continues to drive the search for factors (fetal and environmental) that might amplify the effects of the maternal autoantibodies. The identification of exaggerated apoptosis, macrophage/myfibroblast crosstalk, TGF beta expression, and extensive fibrosis in the conducting system and in some cases surrounding myocardium in fetuses dying with CHB, provide in vivo support for several parallel lines of in vitro investigation. Specifically, the consideration of exaggerated apoptosis as the initial link between maternal antibody and tissue injury led to the observation that cardiocytes are capable of phagocytosing autologous apoptotic cardiocytes and anti-Ro/La antibodies inhibit this function. Recognizing that this perturbation of physiologic efferocytosis might divert uptake to professional Fc gamma R-bearing phagocytes fits well with experiments demonstrating macrophage secretion of pro-inflammatory and fibrosing cytokines when coincubated with apoptotic cardiocytes bound by Ro/La antibodies. While CHB is rare, its study should set precedent for defining the role of autoantibodies in driving end organ disease.

Different temporal expression of immunodominant Ro60/60 kDa-SSA and La/SSB apotopes.

Opsonization of apoptotic cardiocytes by maternal anti-Ro/SSA and anti-La/SSB antibodies contributes to tissue injury in the neonatal lupus syndrome. The objective of the current study was to quantify the surface membrane expression of Ro/La components during different phases of apoptosis and map the Ro/La apotopes (epitopes expressed on apoptotic cells) bound by cognate antibodies. Multi-parameter flow cytometry was used to define early and late apoptotic populations and their respective binding by monospecific anti-Ro and anti-La IgGs. Anti-Ro60 bound specifically to early apoptotic Jurkat cells and remained accessible on the cell surface throughout early and late apoptosis. In contrast, anti-La bound exclusively to late apoptotic cells in experiments controlled for non-specific membrane leakage of IgG. Ro52 was not accessible for antibody binding on either apoptotic population. The immunodominant NH2-terminal and RNA recognition motif (RRM) epitopes of La were expressed as apotopes on late apoptotic cells, confirming recent in vivo findings. An immunodominant internal epitope of Ro60 that contains the RRM, and is recognized by a majority of sera from mothers of children with congenital heart block (CHB) and patients with primary Sjögren's syndrome, was also accessible as an apotope on early apoptotic cells. The distinct temporal expression of the immunodominant Ro60 and La apotopes indicates that these intracellular autoantigens translocate independently to the cell surface, and supports a model in which maternal antibody populations against both Ro60 and La apotopes act in an additive fashion to increase the risk of tissue damage in CHB.

Circulating endothelial cells and vascular injury in systemic lupus erythematosus.

In flares of systemic lupus erythematosus (SLE), endothelial cells activated by immune stimuli are potential participants in the inflammatory processes, which contribute to injury. Elevated levels of circulating endothelial cells (CEC) may be a proxy for vascular injury, as demonstrated in patients with sickle cell anemia during acute crises. In active SLE, CEC levels in peripheral blood are elevated (vs healthy controls and correlate with plasma C3a). CEC may reflect widespread unrecognized, ongoing injury despite the absence of clinical stigmata of vasculitis in patients with SLE.

The extraction of leukotrienes (LTC4, LTD4, and LTE4) from tissue fluids: the metabolism of these mediators during IgE-dependent hypersensitivity reactions in lung.

The metabolites of arachidonic acid known as the leukotrienes are a class of lipid mediators which have potent and diverse biological effects in pulmonary tissue. Leukotrienes C, D, and E (LTC4, LTD4, and LTE4) are known to be principal mediators of immunoglobulin E (IgE)-mediated hypersensitivity reactions in lung tissue. It is therefore important to develop reliable and quantitative isolation techniques for estimating levels of these mediators in tissue. In this study, LTC4, LTD4, and LTE4 were separated from other arachidonate metabolites by organic extraction procedures. 5-Hydroxyeicosatetraeonic acid and leukotriene B4 extract efficiently into the organic layer of aqueous:ether or aqueous:chloroform extractions, whereas arachidonate metabolites containing conjugated peptides (e.g., LTC4, LTD4, and LTE4) failed to extract into these organic solvents. An extraction step was therefore developed that affords quantitative extraction of LTC4, LTD4, and LTE4 into the organic phase of an isopropanol:ether:H2O mixture. This step is the key for a two-step extraction method that isolates histamine, LTC4, LTD4, and LTE4 with a recovery of 100, 85, 75, and 57%, respectively. One advantage of this separation procedure for obtaining these mediators by organic extraction is an ability to expediently process many samples. Furthermore, the leukotriene content of extracted samples can be analyzed using the guinea pig ileum bioassay without interference from vasoamines or platelet-activating factor. These later substances are eliminated from leukotriene-enriched fractions by this extraction process. When histamine and LTC4 were added to supernatant fluids recovered from isolated lung tissue, they were quantitatively recovered using this extraction method.(ABSTRACT TRUNCATED AT 250 WORDS)

Novel synthesis of S-nitrosoglutathione and degradation by human neutrophils.

S-nitrosoglutathione (SNO-GSH), a stable derivative of nitric oxide, is an endothelium-derived relaxation factor, which provokes vasodilation, inhibits platelet aggregation, and inhibits neutrophil (PMN) superoxide anion (O2+) generation. We have established a novel method for synthesis of S-nitrosoglutathione using a column containing S-nitrosothiol covalently attached to agarose. S-nitrosoglutathione was a product as assessed after separation using C-18 reverse-phase HPLC and absorption spectroscopy. We examined the stability of SNO-GSH in the presence or absence of PMN. The half-life (mercuric acid diazotization) of SNO-GSH in Hepes was greater than 60 min. The addition of resting PMN did not affect the T1/2 of SNO-GSH. PMN exposed to N-fMet-Leu-Phe (FMLP, 10(-7) M) reduced measurable SNO-GSH (15 microM) at 5 min (48 +/- 5.0% control, P less than 0.05). Incubation (5 min, 37 degrees C) of PMN with 10 microM tenidap (an anti-inflammatory drug which inhibits PMN activation) before addition of FMLP blocked the PMN-dependent degradation of SNO-GSH (42 +/- 3 vs 78 +/- 1.3% control, P = 0.01). We confirmed the recovery of SNO-GSH through measurements by bioassay (platelet aggregation) and HPLC analysis. The degradation of S-nitrosothiols by activated neutrophils may reverse the inhibitory effect of S-nitrosothiols on PMN functions and contribute to tissue injury at sites of inflammation.

Acetylcholine prevents intercellular adhesion molecule 1 (CD54)-induced focal adhesion complex assembly in endothelial cells via a nitric oxide-cGMP-dependent pathway.

OBJECTIVE: Nitric oxide (NO) is induced by exposure of endothelial cells (EC) to acetylcholine, where it acts in a paracrine manner to relax smooth muscle and as a defensive molecule to inhibit the adhesion of leukocytes to EC. The mechanism(s) of the antiadhesive properties of constitutive NO are poorly understood. In these studies, we found that NO induced by acetylcholine exerts autocrine effects, which interfere with normal adhesion mechanisms. METHODS: The function of the adhesion molecule intercellular adhesion molecule 1 (CD54) of EC was measured using latex beads coated with antibody to CD54 as a model for CD54 ligation by the leukocyte beta2 integrin. Recruitment of filamentous actin (F-actin) and of the signaling molecule vasodilator-stimulated phosphoprotein (VASP) was measured by immunofluorescence microscopy. RESULTS: Exposure of EC to anti-CD54 beads induced the subplasmalemmal assembly of F-actin and VASP. Acetylcholine blocked the anti-CD54 bead-induced translocation of F-actin and VASP; this effect was reversed by inhibition of NO production. The NO action did not interfere with binding, but completely inhibited the assembly of the focal activation complex, which we believe is necessary for firm heterotypic adhesion between leukocyte and EC. Further studies indicated that the NO effect was due to its capacity to raise cGMP. Platelet endothelial cell adhesion molecule 1 (CD31, also implicated in leukocyte adhesion) did not mimic CD54 responses. CONCLUSION: These results indicate that the ligation of endothelial cell CD54 induces the assembly of subplasmalemmal F-actin and the recruitment of VASP. NO derived from constitutive nitric oxide synthase acts to disrupt these CD54-elicited endothelial cell responses. This action may protect vascular endothelium from leukocyte-mediated injury.

Use of phospholipase D to alter the surface charge of membranes and its effect on the enzymatic activity of D-beta-hydroxybutyrate dehydrogenase.

The effect of an electrostatic potential on the enzymatic activity of D-beta-hydroxybutyrate dehydrogenase was examined. Phospholipase D was used to increase the surface charge and concomitantly the electrostatic potential of submitochondrial membranes. The apparent Km for the negatively charged substrates of D-beta-hydroxybutyrate dehydrogenase increased as the membranes were reacted with phospholipase D. There was a 10-fold increase in the apparent Km for NADH when the content of acidic phospholipids was increased by 24%. The addition of monovalent or divalent cations, which reduced the electrostatic potential, largely reversed the apparent Km changes. At the same ionic strength, divalent cations had a substantially larger effect than monovalent cations. Similar results were obtained when the purified apoenzyme was reconstituted in unilamellar vesicles containing different ratios of phosphatidylcholine and acidic phospholipids. When the apoenzyme was reconstituted into phosphatidylcholine vesicles containing increasing amounts of phosphatidylethanolamine, the apparent Km also increased but to a smaller extent, and increasing the ionic strength did not reverse this effect. The results show that the apparent Km of D-beta-hydroxybutyrate dehydrogenase can be significantly altered by an electrostatic potential as well as other properties of the phospholipid polar head group.

Effect of structural modification at carbon atom 1 of leukotriene B4 on the chemotactic and metabolic response of human neutrophils.

Human neutrophils biosynthesize the chemoattractant leukotriene B4 (LTB4) and metabolize LTB4 to omega oxidative products 20-hydroxy-LTB4 (20-OH-LTB4) and 20-carboxy-LTB4 (20-COOH-LTB4). In this study, we prepared the C-1 methyl ester and N-methyl amide of LTB4 and then examined neutrophil chemotaxis and metabolism of these derivatives of LTB4. The results show that chemical modification of LTB4 at carbon atom 1 dramatically affects metabolism of the lipid molecule. The free acid form of LTB4 was taken up and metabolized by human neutrophils, while the methyl ester and N-methyl amide derivatives were poor substrates for omega oxidation. Although human neutrophils were poorly attracted to the methyl ester of LTB4, the amide derivative was a complete agonist of the neutrophil chemotactic response and displayed an ED50 for chemotaxis identical to that of LTB4. Therefore, we concluded that omega oxidation is not a requirement for the neutrophil chemotactic response induced by LTB4. These results also indicate that the N-methyl amide of LTB4 may be a useful ligand for the elucidation of molecular mechanisms operative in neutrophil chemotaxis to LTB4, since the C-1 derivative is not further metabolized. Two separate responses of human neutrophils are elicited by LTB4, resulting in both cellular activation and generation of omega oxidation products. It appears that putative receptors on the neutrophils can distinguish between LTB4 and certain derivatives that are structurally identical except for modification at the C-1 position (i.e., the methyl ester). LTB4 derivatives modified at the C-1 position do not undergo conversion to omega oxidation products by the neutrophil.

Effect of changes in the phospholipid composition on the enzymatic activity of D-beta-hydroxybutyrate dehydrogenase in rat hepatocytes.

The phospholipid composition of primary rat hepatocytes was manipulated by supplementing the medium with choline analogues. The unnatural analogue l-2-amino-1-butanol was incorporated into membrane phospholipids to the largest extent, whereas the natural choline analogues ethanolamine, N-methylethanolamine, and N,N-dimethyl-ethanolamine were methylated to yield phosphatidylcholine. When cells were supplemented with [14C]ethanolamine, greater than 25% of the total phosphatidylcholine contained radiolabel in the polar head group after 2 days of supplementation. The extent of phospholipid methylation was reduced by depriving the cells of serine and methionine. Under these conditions, N-methylethanolamine and N,N-dimethylethanolamine were incorporated into phospholipids and were not further metabolized to phosphatidylcholine. After 3 days of supplementation with N-methylethanolamine, the content of phosphatidyl-methylethanolamine went from essentially 0 to 40% of the total phospholipids and surpassed the extent of incorporation of all other analogues. The formation of the new phospholipid species was primarily at the expense of phosphatidylcholine and phosphatidylethanolamine. D-beta-Hydroxybutyrate dehydrogenase, which requires phosphatidylcholine for activity, was assayed in submitochondrial membranes isolated from supplemented cells. For cells supplemented with either l-2-amino-1-butanol or N-methylethanolamine, the Km for NADH increased relative to choline-supplemented cells while the Km for acetoacetate remained the same. For example, after 3 days of supplementation with N-methylethanolamine, the Km for NADH was 3-fold higher than the value for the choline-supplemented control cells. The change in the Km was due to the change in the lipid environment with no alteration in the enzyme itself. The results suggest that the phosphatidylcholine molecules necessary to activate the enzyme exchange with the other phospholipids in the membrane so that the Km of the enzyme reflects the overall content of phosphatidylcholine as well as other properties of the membrane phospholipids.

Complement-mediated arachidonate metabolism.

The leukotrienes are important mediators of numerous responses in lung tissue. Both direct injury and immune injury result in the production of these arachidonate products. Several cellular components participate in the immune surveillance system including monocytes, mast cells and PMNs. Each cell type produces different quantities and types of leukotrienes in response to ionophore (A23187) activation. A common feature shared by each of these cells is control of arachidonic acid metabolism at the level of the 5-lipoxygenase. One provocative interpretation of our results is that the 5-lipoxygenase is activated by C5a and that concomitant modulation of 5-lipoxygenase activity provides a means whereby arachidonic acid metabolism is directed in these cells to either the cyclooxygenase or lipoxygenase pathway. Another common feature that these cells share is that they utilize arachidonic acid mobilized from other cells such as stimulated platelets, certain monocytes, or even damaged tissue. For example, free nonesterified arachidonic acid has been measured at 100 microM in inflamed tissue. Therefore, fluctuations in exogenous arachidonate levels may provide a significant modulation of the inflammatory response by controlling the levels of lipoxygenase products formed by leukocytes. In this scenario the humoral factor C5a is the initiator of the host's response to provide a variety of functional arachidonate products. Another feature that the cellular components of the immune system share is that they may utilize other exogenous lipid substrates. In this case, a lipid product of one cell type may serve as a signal or substrate for a second cell's lipoxygenase pathway. This hypothesis may explain the apparent synergy observed in this and other studies when mixed cell populations were activated. Several hydroperoxy lipids are proposed to be regulatory for the lipoxygenase pathway. Another valid interpretation could be that 5-hyperoxy-eicosatetraenoic acid and LTA4 produced in one cell may diffuse to another cell and be utilized by the lipoxygenase pathway of that cell type. From the results of this study we conclude that the secondary mediator profile obtained when cells are activated by arachidonic acid and C5a depends on the cell composition. We can extend this interpretation of our results to explain two seemingly opposite results obtained when C5a is administered to experimental animals either intrabronchially or intravenously. Future evaluations of the biological effects of C5a should therefore take into consideration the composition of the cells at the target tissue site.(ABSTRACT TRUNCATED AT 400 WORDS)