Thrombospondin stimulates motility of human neutrophils

Polymorphonuclear leukocytes (PMNs) migrate to sites of inflammation or injury in response to chemoattractants released at those sites. The presence of extracellular matrix (ECM) proteins at these sites may influence PMN accumulation at blood vessel walls and enhance their ability to move through tissue. Thrombospondin (TSP), a 450-kD ECM protein whose major proteolytic fragments are a COOH-terminal 140-kD fragment and an NH2-terminal heparin-binding domain (HBD), is secreted by platelets, endothelial cells, and smooth muscle cells. TSP binds specifically to PMN surface receptors and has been shown, in other cell types, to promote directed movement. TSP in solution at low concentrations (30-50 nM) "primed" PMNs for f-Met-Leu-Phe (fMLP)- mediated chemotaxis, increasing the response two- to fourfold. A monoclonal antibody against the HBD of TSP totally abolished this priming effect suggesting that the priming activity resides in the HBD of TSP. Purified HBD retains the priming activity of TSP thereby corroborating the antibody data. TSP alone, in solution at high concentrations (0.5-3.0 microM), stimulated chemotaxis of PMNs and required both the HBD and the 140-kD fragment of TSP. In contrast to TSP in solution, TSP bound to nitrocellulose filters in the range of 20- 70 pmol stimulated random locomotion of PMNs. The number of PMNs migrating in response to bound TSP was approximately two orders of magnitude greater than the number of cells that exhibited chemotaxis in response to soluble TSP or fMLP. Monoclonal antibody C6.7, which recognizes an epitope near the carboxyl terminus of TSP, blocked migration stimulated by bound TSP, suggesting that the activity resides in this domain. Using proteolytic fragments, we demonstrated that bound 140-kD fragment, but not HBD, promoted migration of PMNs. Therefore, TSP released at injury sites, alone or in synergy with chemotactic peptides like fMLP, could play a role in directing PMN movement.     

High-Molecular-Weight Hyaluronic Acids Inhibit Chemotaxis and Phagocytosis but Not Lysosomal Enzyme Release Induced by Receptor-Mediated Stimulations in Guinea Pig Phagocytes

The effects of high-molecular-weight (HMW) hyaluronic acids (HAs) of 1.9 × 10⁶ Da, 8 × 10⁵ Da and 3 × 10⁵ Da on the receptor-mediated functions of guinea pig peritoneal phagocytes were studied. HMW-HAs of 1.9 × 10⁶ Da (HA190) and 8 × 10⁵ Da (HA80) effectively inhibited the chemotactic activity of polymorphonuclear leukocytes (PMNs) for formyl-Met-Leu-Phe (fMLP). The degree of inhibition was dose-dependent and the concentrations of HA190 and HA80 required for 50% inhibition were 0.5–1.5 mg/ml and 1.5–2.5 mg/ml, respectively. HMW-HA of 3 × 10⁵ Da (HA30) hardly affected the chemotaxis within a concentration range of 0.5–5.0 mg/ml. The phagocytic activities of PMNs and macrophages (Møs) for serum-opsonized zymosan (SOZ) and polystyrene latex particles were also inhibited by these HAs in a dose- and molecular-weight-dependent manner and HA190 was again the most inhibitory. By contrast, the release of lysosomal enzyme from Møs stimulated with SOZ was not significantly affected by HMW-HAs at any concentration used. Furthermore, the binding of [³H]fMLP with PMNs and the rosette formation of Møs with SOZ were not influenced by the presence of HMW-HAs. These findings suggested that the binding of HMW-HAs to the HA receptors on PMNs and Møs might produce certain intracellular signals which would be responsible for the suppression of the chemotaxis and the phagocytosis but not for the release of lysosomal enzyme. For the generation of such signals, higher-molecular-weight HMW-HAs would be more effective than lower one.     

Leukocytic cell sources of airway tissue kallikrein

Lung tissue kallikrein (TK) is a serine proteinase that putatively plays a role in the pathophysiology of asthma by generating kallidin and bradykinin, mediators that contribute to airway hyperresponsiveness. In previous studies we observed biphasic increases in TK activity in bronchoalveolar lavage fluid following airway allergen challenge in allergic sheep. Although glandular TK is likely a major source of the initial increase in TK, the sources of the late increases in TK that are associated with the development of airway hyperresponsiveness may be dependent on activated resident and recruited inflammatory cells including alveolar macrophages (AMs) and neutrophils (PMNs). These cells increase concomitantly with the late increases in TK activity. To test this hypothesis, we obtained AMs from bronchoalveolar lavage fluid and PMNs and monocytes (precursors of AMs) from sheep blood and determined whether these cells contained TK and whether these same cells could release TK upon activation. Using confocal microscopy, immunocytochemical techniques, and enzyme activity assays, we found that all three cell types contained and secreted TK. All three cell types demonstrated basal release of TK, which could be increased after stimulation with zymosan. In addition, PMNs also released TK in the presence of phorbol ester, suggesting multiple secretory pathways in these cells. Furthermore, we showed that human monocytes also contain and secrete TK. We conclude that in the airways, monocytes, PMNs, and AMs may contribute to increased TK activity. Knowing the sources of TK in the airways could be important in understanding the mechanisms of inflammation that contribute to the pathophysiology of asthma and may help in the development of new therapies to control the disease.     

Neutrophil Chemotaxis in Cord Blood of Term and Preterm Neonates Is Reduced in Preterm Neonates and Influenced by the Mode of Delivery and Anaesthesia

Bacterial infections, even without any perinatal risk factors, are common in newborns, especially in preterm neonates. The aim of this study was to evaluate possible impairment of neutrophil chemotaxis in term and preterm neonates compared with adults as well as neonates with different modes of delivery and anaesthesia. We analysed the expression of the adhesion molecule L-Selectin as well as shape change, spontaneous and N-formyl-methionyl-leucyl-phenylalanine (fMLP)-induced transmigration of neutrophils in a flow cytometric assay of chemotaxis after spontaneous delivery with Cesarian Section (CS) under spinal anaesthesia (mepivacaine, sufentanil), epidural anaesthesia (ropivacaine or bupivacaine, sufentanil) or general anaesthesia (ketamine, thiopental, succinylcholine). Chemokinesis was higher (p=0.008) in cord blood neutrophils than in the adult ones, whereas those could be more stimulated by fMLP (p=0.02). After vaginal delivery neutrophils showed a higher spontaneous and fMLP-stimulated chemotactic response compared to neonates after CS without labor. Comparing different types of anaesthesia for CS, spinal anaesthesia resulted in less impairment on chemotaxis than general anaesthesia or epidural anaesthesia. The new flow cytometric assay of neutrophil chemotaxis is an appropriate and objective method to analyse functional differences even in very small volumes of blood, essential in neonatology. Term neonates do not show reduced chemotaxis compared to adults. Preterm neonates present with reduced chemotaxis and chemokinesis, confirming the well known deficits in their neutrophil function. The side effects of maternal drugs on the neonatal immune system have to be considered especially when the immune response is already impaired, as in preterm infants.     

Enzymic activities of Trichophyton rubrum and the chemotaxis of polymorphonuclear leucocytes

The enzymic activity of Trichophyton rubrum has been investigated in relation to the plasma-dependent chemotaxis of polymorphonuclear leucocytes (PMNs). In Boyden-type experiments use of a cytoplasmic extract of T. rubrum (CETr) produces neutrophil chemotactic factor (NCF) from plasma. CETr was shown to have activity for eight enzymes: heat treatment of CETr led to a partial loss of activity for seven enzymes and a significant reduction in the number of PMNs migrating. Addition of CETr to plasma and incubation for 18 h at 37 degrees C before use led to complete loss of chemotactic activity. The similar incubation of plasma with trypsin led to a complete loss of chemotactic activity. CETr has greater activity than trypsin in the production of NCF from plasma. The results are discussed in relation to reports on the importance of serine esterases in PMN chemotaxis. The failure of PMNs to migrate into keratinized tissue infected with T. rubrum is noted and it is suggested that the high enzymic activities necessary for the colonization of keratinized tissue effect a breakdown of NCF.     

Substance P primes human neutrophil activation: a mechanism for neurological regulation of inflammation

The neuropeptide substance P (SP), a member of the tachykinin family, has stimulatory effects on various cell types at nanomolar concentrations. SP has also direct effects on polymorphonuclear leukocytes (PMNs). However, unlike other cells, stimulation of PMNs requires extremely high concentrations of the peptide (greater than 10 microM), suggesting that direct PMN activation by SP is not physiologically relevant. By measuring primed stimulation of PMNs, we now demonstrate potent synergistic effects of nanomolar doses of SP on the migratory and cytotoxic functions of human PMNs stimulated by fMLP and C5a. This synergism between SP and chemotactic peptides reveals a new regulatory activity of SP and suggests that neurogenic stimuli may prepare neutrophils for an exaggerated inflammatory response to other phlogistic mediators.     

Study of chemotactic activity developed by neutrophils from rheumatoid arthritis patients

Neutrophils are the predominant cells accumulated in the synovial fluid (SF) of rheumatoid arthritis (RA) patients. Accumulation of neutrophils may be regarded as a possible way by which neutrophils exert cytotoxic functions. The aim of the present study was to analyze the chemotactic response of neutrophils (PMNs) isolated from the peripheral blood or SF of patients with RA by performing the chemotaxis assay, in which N-formyl-methionyl-leucyl-phenylalanine (FMLP) was used as chemotactic agent. Our results showed that FMLP induced response of peripheral blood neutrophils from 12 patients with RA was similar with the response of 15 healthy controls. A decreased chemotactic response to FMLP was, however, observed in PMNs isolated from the SF of RA patients as comlipared with peripheral blood cells. Therefore, this defective chemotactic ability of neutrophil, was inversely correlated with the number of infiltrating cells in SF. These results indicate that chemotactic ability of neutrophils may be reduced after migration to the SF. Because PMNs chemotaxis in vivo has likely occurred in the presence of serum or SF, we tried to simulate the same conditions in vitro. Therefore, we analyzed the effect of serum or SF on the RA-PMNs chemotaxis. Heat-inactivated serum produced a marked reduction of chemotactic activity developed by PMNs isolated from patients with RA. Notably, a significant increase of chemotactic activity was observed when FMLP and serum stimuli were used together, as compared with the same stimuli used alone. The results suggested that complement activation might interfere with neutrophils chemotaxis. SF amplifies the chemotactic activity of PMNs isolated from peripheral blood of RA patients, but does not affect the chemotaxis developed by PMNs isolated from SF. The data might suggest that several components of SF (IL-8, leukotrien B4, thrombin, platelet-activating factor, etc.) could serve as a potent stimulus for recruitment of neutrophils from periphery into the RA joint. In conclusion, serum or SF components seem to contribute to chemotaxis of neutrophils and play a role in differential killing of PMNs and incidence of infection.     

THE REGULATORY ROLE OF DIVALENT CATIONS IN HUMAN GRANULOCYTE CHEMOTAXIS : Evidence for an Association between Calcium Exchanges and Microtubule Assembly

Optimal human granulocyte chemotaxis has been shown to require both calcium and magnesium. Exposure of granulocytes to three different chemotactic factors (C5a, kallikrein, and dialyzable transfer factor) yielded a rapid calcium release, depressed calcium uptake, and was associated with a shift of calcium out of the cytoplasm and into a granule fraction. Colchicine, sodium azide, and cytochalasin B, in concentrations that inhibited chemotaxis, also inhibited calcium release while low concentrations of cytochalasin B, which enhanced chemotaxis, also enhanced calcium release. Microtubule assembly was visualized both in cells suspended in C5a without a chemotactic gradient and in cells actively migrating through a Micropore filter. The data suggest microtubule assembly is regulated, at least, in part, by the level of cytoplasmic calcium. It is proposed that asymmetric assembly of microtubules may be instrumental in imparting the net vector of motion during chemotaxis.     

The chemotaxis defect of Shwachman-Diamond Syndrome leukocytes

Shwachman-Diamond Syndrome (SDS) is a rare autosomal recessive, multisystem disorder presenting in childhood with intermittent neutropenia and pancreatic insufficiency. It is characterized by recurrent infections independent of neutropenia, suggesting a functional neutrophil defect. While mutations at a single gene locus (SBDS) appear to be responsible for SDS in a majority of patients, the function of that gene and a specific defect in SDS neutrophil behavior have not been elucidated. Therefore, employing 2D and 3D computer-assisted motion analysis systems, we have analyzed the basic motile behavior and chemotactic responsiveness of individual polymorphonuclear leukocytes (PMNs) of 14 clinically diagnosed SDS patients. It is demonstrated that the basic motile behavior of SDS PMNs is normal in the absence of chemoattractant, that SDS PMNs respond normally to increasing and decreasing temporal gradients of the chemoattractant fMLP, and that SDS PMNs exhibit a normal chemokinetic response to a spatial gradient of fMLP. fMLP receptors were also distributed uniformly through the plasma membrane of SDS PMNs as in control PMNs. SDS PMNs, however, were incapable of orienting in and chemotaxing up a spatial gradient of fMLP. This unique defect in orientation was manifested by the PMNs of every SDS patient tested. The PMNs of an SDS patient who had received an allogenic hematopoietic stem cell transplant, as well as PMNs from a cystic fibrosis patient, oriented normally. These results suggest that the defect in SDS PMNs is in a specific pathway emanating from the fMLP receptor that is involved exclusively in regulating orientation in response to a spatial gradient of fMLP. This pathway must function in parallel with additional pathways, intact in SDS patients, that emanate from the fMLP receptor and regulate responses to temporal rather than spatial changes in receptor occupancy.     

9- and 13-hydroxy-linoleic acid possess chemotactic activity for bovine and human polymorphonuclear leukocytes

The presence of polymorphonuclear leukocytes (PMNs) within the airways is a characteristic feature of a variety of lung diseases. Pulmonary alveolar macrophages (PAMs) and epithelial cells release many different factors which contribute to the recruitment of inflammatory cells into infected airways. PAMs and tracheal epithelial cells are able to produce linoleic acid metabolites (9-HODE and 13-HODE) besides arachidonic acid metabolites. The objective of the present study was to determine whether 9-HODE and 13-HODE possess chemotactic activity for isolated PMNs. It was found that 9-HODE and 13-HODE induced a chemotactic response of both human and bovine PMNs in vitro. The HODEs evoked chemotaxis with a linear dose response from 10(-10) to 10(-6) M to the same extent as the arachidonic acid metabolite 15-HETE. At 10(-8) M, 9-HODE and 13-HODE were approximately half as potent in inducing chemotaxis as compared to LTB4.     

Chemotactic activity of the peritoneal lavage fluid of guinea pigs with inflammatory processes caused by the inoculation of various types of suture thread

Minced non adsorbable or adsorbable suture threads introduced into peritoneal cavity of guinea pigs elicit at inflammation with mononuclear and giant cells surrounding suture thread fragments. We studied the presence in the peritoneal cavity of chemotactic factors for PMN cells and we compared the results in relation to the different type of the suture threads used (Dexon, Mersilene, Gore-Tex). The peritoneal cavity was washed, the fluids collected and used as chemotactic agents. The chemotactic response was assayed by employing multiwell chemotaxis chambers (Neuro Probe) and PMNs from normal, non-treated guinea pigs. Quantification of the migration was calculate by chemotactic index (A/B) (B = random migration, A = chemotaxis). The results demonstrate that a chemotactic activity is present in peritoneal fluids following the inflammatory process. This activity is evident at 7th day after Dexon and Mersilene inoculation; using PTFE however, it decreases at 14th d, when the inflammatory process is already developing into healing tissue. In conclusion the chronic inflammation determines the appearance of chemotactic factors for PMN cells; it is suggested that reactive, mononuclear cells, involved in the process, could be responsible for their production and release.     

Comparison of neutrophil functions between two strains of inbred mice

In this study, differences between two strains of inbred mice in aspects of neutrophil function, namely Rac1 expression, chemotaxis, nicotinamide adenine dinucleotide phosphate oxidase activity and formation of neutrophil extracellular traps (NETs), were determined. Neutrophils from CBA/CaH mice exhibited weaker Rac1 expression and a slower chemotactic gradient than BALB/c mice. Furthermore, PMA‐ or fMLP‐stimulated neutrophils from CBA/CaH mice generated much less superoxide and NETs than similarly stimulated neutrophils from BALB/c mice. These findings suggest that neutrophils from BALB/c mice are functionally more efficient than those from CBA/CaH mice.     

The role of cytoplasmic microtubules in polymorphonuclear leukocyte chemotaxis : Evidence for the release hypothesis by means of time-lapse analysis of PMN movement relative to dot-like attractants

The present experiments were designed to elucidate the role of cytoplasmic microtubules in the chemotaxis of human polymorphonuclear leukocytes (PMNs) by means of the Boyden chamber technique and by means of analysis of PMN locomotion around a dot-like attractant.Casein induced positive chemotaxis in a small and variable fraction of the PMNs in the Boyden chamber.The movements of individual PMNs in coverslip preparations of clotted autoplasma were analysed as regards velocity of locomotion, locomotive index and net radial dislocation relative to the cell centre, with or without a yeast-phagocytosing leukocyte as a dot-like attractant.PMNs without obvious attractants tended to leave the visual field, i.e. they had a negative net radial dislocation relative to the centre of the visual field. Their locomotive indices suggested that their disappearance from the visual field was due to random movement. In contrast, the locomotive indices of PMNs influenced by attractants suggested the presence of both positive and negative chemotaxis in the population of moving PMNs.Yeast-phagocytosing leukocytes attracted wandering PMNs isolated by the Isopaque-Ficoll method (IF-PMNs) with a force which approximately balanced the basic tendency of the IF-PMNs to leave the visual field. Selective pretreatment of the moving IF-PMNs with podophyllic acid ethylhydrazide (SPI), 0.5 μg/ml (1.05 × 10⁻⁶ M), did not inhibit their attraction towards the central yeast phagocyte. The attraction of wandering IF-PMNs towards the central yeast phagocyte was inhibited by selective pretreatment of the phagocytes with SPI, 0.5 μg/ml. These observations indicate that cytoplasmic microtubules have an essential role in the release of chemotactic substances from phagocytosing leukocytes but not in the direction-finding of attractant-approaching PMNs.From the present observations by means of SPI, it is suggested that antitubulin inhibition of the release of chemotactic substances from phagocytosing leukocytes is the mechanism of inhibition of PMN chemotaxis by sub-antimitotic antitubulin concentrations in vitro. The latter phenomenon is thought to reflect the cellular basis of the anti-inflammatory action of the antitubulins.     

Inhibition of human neutrophil chemotaxis by the protein kinase inhibitor, 1-(5-isoquinolinesulfonyl) piperazine

The protein kinase inhibitor, 1-(5-isoquinolinesulfonyl) piperazine (C-I), inhibits superoxide release from human neutrophils (PMN) stimulated with phorbol myristate acetate or synthetic diacylglycerol, without inhibiting superoxide release from PMN stimulated with the chemoattractants C5a or N-formyl-methionyl-leucyl-phenylalanine (f-Met-Leu-Phe). In this study, we investigated the effect of C-I on human PMN chemotaxis to C5a, f-Met-Leu-Phe, leukotriene B4 (LTB4), and fluoresceinated N-formyl-methionyl-leucyl-phenylalanine-lysine (f-Met-Leu-Phe-Lys-FITC). PMN, preincubated for 5 min at 37 degrees C with 0 to 200 microM C-I, were tested for their migratory responses to the chemoattractants. C-I (greater than or equal to 1 microM) significantly inhibited PMN chemotaxis to f-Met-Leu-Phe, f-Met-Leu-Phe-Lys-FITC, and C5a without affecting random migration. Maximal inhibition of chemotaxis to these attractants occurred with greater than or equal to 50 microM C-I, at which chemotaxis was inhibited by 80 to 95%. The C-I inhibition was reversible. In contrast, 200 microM C-I did not inhibit the number of PMN migrating to LTB4, although, the leading front of PMN migration to LTB4 was inhibited by C-I. C-I inhibited PMN orientation to C5a and f-Met-Leu-Phe without affecting orientation to LTB4. C-I did not inhibit the binding of radiolabeled f-Met-Leu-Phe or f-Met-Leu-Phe-Lys-FITC to PMN. These findings suggest that the chemotactic responses of PMN to f-Met-Leu-Phe and C5a involve a protein kinase-dependent reaction which is inhibited by C-I.     

Effect of blood serum, caffeine and heparin on in vitro phagocytosis of frozen-thawed bull sperm by neutrophils derived from the peripheral blood of cows

Although polymorphonuclear leukocytes (PMNs) are recruited into the uterine lumen to phagocytize sperm, factors controlling the phagocytotic ability of PMNs in cattle are not well documented. The objective was to determine the effects of blood serum, caffeine, and heparin on chemotaxis of PMNs for sperm and phagocytosis of sperm by PMNs in cows. Polymorphonuclear leukocytes were obtained (centrifugation) from a cow's peripheral blood. In Experiment 1, the chemotactic activity of PMNs increased (P < 0.01) when fresh serum was included in the medium (1226 cells/mm² in serum vs. 1110 cells/mm² in BSA), regardless of the presence of sperm, whereas heat-inactivated serum (1099 cells/mm²) did not affect their activity (P = 0.65). Phagocytosis of live and dead sperm by PMNs both increased (P < 0.01) in the presence of fresh serum (incidences of 54.5 and 48.0%, respectively), but stimulation was decreased (P < 0.01) by supplementation of the medium with ≥1 mM caffeine (20.6-30.3%). Serum-stimulated chemotactic activity of PMNs (1218 cells/mm²) was also decreased (P < 0.01) in the presence of caffeine (1090 cells/mm²). Furthermore, supplementation of PMNs with heparin in the presence of serum decreased (P < 0.01) both phagocytotic (from 43.8% to 21.5-31.7%) and chemotactic activities of PMNs (from 1124 to 1048-1108 cells/mm²). We inferred that opsonization in the presence of active complement stimulated phagocytotic and chemotactic activities of PMNs, and that both caffeine and heparin decreased serum-stimulated phagocytotic and chemotactic activities of PMNs.     

Preservation of polymorphonuclear neutrophils at cryogenic temperatures (−80 °C)

The effects of cryoprotectant alone and cryoprotectant plus additives on the preservation of polymorphonuclear neutrophils (PMNs) at cryogenic temperatures (?80 °C) were studied.A considerable difference among cryoprotective agents was observed in their protective effect against freeze injury of neutrophils. Based upon degree of chemotactic inhibition and impairment of trypan blue exclusion, Me₂SO proved to be superior to ethylene glycol and glycerol as a cryoprotectant and to exhibit the best protective effect at a concentration of 4.2%. When PMNs were frozen in Me₂SO alone, the ability of PMNs to exclude dye was retained after 3 days of cryopreservation, while chemotaxis was inhibited markedly. One-week preservation produced the death of 50% of the cells. To improve the protective effect of Me₂SO against chemotactic inhibition by cryopreservation, additives such as glucose, ATP, and albumin were included in the freezing medium. Addition of albumin displayed the most distinct improvement in the recovery of chemotaxis, although ATP also exhibited a protective effect, especially during short-term storage. Studies on the combined effect of these additives with ethylene glycol or glycerol showed that only albumin had a considerably better protective effect against dye exclusion injury but not against chemotactic inhibition. Phagocytosis and adhesion were less inhibited by freezing than was chemotaxis. A combination of Me₂SO and ATP markedly protected phagocytosis and adhesion from freeze injury. However, cyanide-insensitive oxygen uptake during phagocytosis, as well as chemotaxis, were considerably inhibited.     

Tissue kallikrein protects cortical neurons against hypoxia/reoxygenation injury via the ERK1/2 pathway

Systemic or local delivery of human tissue kallikrein gene (hTK) has been shown to be an effective strategy to alleviate cerebral ischemia/reperfusion (I/R) injury, and tissue kallikrein (TK) administration can suppress glutamate- or acidosis-mediated neurotoxicity in vitro. In the present study, the role of TK in hypoxia/reoxygenation (H/R) induced neuronal cell death was investigated. We found that TK administration could remarkably alleviate H/R-induced neuronal injury by reduction of LDH release and promotion of neuron viability. The protective effects of TK could be counteracted by bradykinin B2 receptor (B2R) antagonist HOE140, which could suppress up-regulation of TK on the ERK signal pathway under H/R condition. These results indicate that TK plays an important role in preventing neurons from H/R damage at least partially through the TK-B2R-ERK1/2 pathway.     

Heterogeneity in chemotaxis of neutrophils with different densities

We investigated N-formyl-Methionyl-Leucyl-Phenylalanine (fMLP)-induced chemotaxis of neutrophils with different densities. FMLP-induced (10(-8)M) chemotaxis of neutrophils with lower density were significantly reduced when compared to neutrophils with higher density (p less than 0.05). These findings imply a relationship between the neutrophil density and chemotaxis.     

Human immunoglobulin G potentiates superoxide production induced by chemotactic peptides and causes degranulation in isolated human neutrophils

Neutrophils are major cellular mediators of host defense and inflammation. They can be activated to produce superoxide and to release the contents of their granules to the extracellular space. We observed that monomeric human immunoglobulin G (IgG) sensitizes these cells to the chemotactic peptide N-formylmethionylleucylphenylalanine (fMLP). In cells submaximally stimulated by fMLP this enhancement was especially prominent. With saturating fMLP concentrations, the rate of O2- production was still about twice that in the control. No synergy with other activators (phorbol myristate acetate, concanavalin A) was observed. Binding of fMLP to the cells was decreased by IgG, resembling the effect of cytochalasin B. IgG did not induce O2- production on its own, but it stimulated degranulation of the neutrophils.     

Heat shock induces alterations of the lipoxygenase pathway in human polymorphonuclear granulocytes

We have investigated the effect of the heat shock response on the leukotriene generation, chemotaxis, and generation of oxygen radicals of human polymorphonuclear granulocytes (PMNs) by preincubating the PMNs at 42 degrees C. Subsequently, the different test systems were performed at 37 degrees C. As we confirmed by the release of lactate dehydrogenase and beta-glucuronidase the elevated temperatures did not result in cytotoxic or degranulating processes. After heat shock treatment the generation of leukotrienes induced by the Ca(++)-ionophore A23187, fMLP or opsonized zymosan was inhibited in a time and temperature dependent manner (preincubation phase) as was measured by HPLC-analysis. In contrast, the conversion of 14C-arachidonic acid revealed the generation of LTB4, 5-HPETE and 5-HETE solely as a result of the preincubation at 42 degrees C without any further stimulation. In addition, the chemiluminescence response induced by opsonized zymosan and the chemotaxis against C5a and LTB4 was clearly inhibited after heat shock treatment. With regard to enzyme activities of the heat treated PMNs the protein kinase C activities were enhanced whereas the LTD4-dipeptidase and the LTB4-omega-hydroxylase were not affected.