Inhibition of neutral proteases from polymorphonuclear (PMN) neutrophils by salicylazosulfapyridine (SASP)

Summary Cytochemical methods were used to demonstrate the inhibitory effect of salicylazosulfapyridine (SASP) on the activity of neutral proteases produced by neutrophilic granulocytes (PMN proteases). The SASP metabolites (5-aminosalicylic acid and sulfapyridine), produced by splitting of SASP by bacteria in the colon, did not inhibit the activity of PMN proteases. Paradoxically, sulfapyridine intensified PMN protease activity. A similar effect however could not be demonstrated for 5-aminosalicylic acid.     

Capsaicin stimulates the migration of human polymorphonuclear cells (PMN) in vitro

Capsaicin, a homovanillic acid derivative in plants, has distinct pharmacological effects in vivo, e.g. it depletes primary afferent neurons of substance P and other tachykinins. The effect of capsaicin on the migration of human neutrophils was tested in concentrations ranging from 10⁻⁸ M to 10⁻³ M. In comparison to the control 10⁻⁸ M, capsaicin significantly enhanced the migration of PMN cells (CI 1.29; 2P < 0.009) and a peak migration activity was detected with 10⁻⁶ M (CI 1.32; 2P < 0.01). With higher concentrations of capsaicin the CI was not significantly changed. These results show that capsaicin, a plant derived neurotoxin, exhibits a migration modifying activity on human neutrophils through a direct mechanism not mediated by neuropeptides. In addition capsaicin (10⁻⁷ and 10⁻⁵ M) did not affect the luminol-dependent chemiluminescence and therefore does not contribute to a superoxide anion generation in human PMN.     

Species-specific expression of sialosyl-Lex on polymorphonuclear leukocytes (PMN), in relation to selectin-dependent PMN responses

Sialosyl-Le^x (SLe^x) and its positional isomer sialosyl-Le^a are the epitopes recognized by the lectin domain of E- and P-selectins. Expression of SLe^x in polymorphonuclear leukocytes (PMN) plays an important role in recruitment of these cells at sites of inflammation through activation of selectins. We studied expression of SLe^x in PMN of seven mammalian species in comparison with that in humans. Only PMN of humans (no other species) expressed SLe^x or other lacto-series epitopes such as Le^x or Le^y. The observed absence of these epitopes in rat PMN seems inconsistent with recent reports that the lung inflammation process in a rat model is inhibited by perfusion of SLe^x oligosaccharide (Mulligan MS,et al. (1993a)Nature 364:149; (1993b)J Exp Med 178:623). Rat selectins may be able to recognize SLe^x, even though this epitope is absent in rat PMN.Abbreviations FITC fluorescein isothiocyanate - mAb monoclonal antibody - PMN polymorphonuclear leukocytes - SLe^a sialosyl-Le^a antigen - SLe^x sialosyl-Le^x antigen     

Serine proteases mediate inflammatory pain in acute pancreatitis

Acute pancreatitis is a life-threatening inflammatory disease characterized by abdominal pain of unknown etiology. Trypsin, a key mediator of pancreatitis, causes inflammation and pain by activating protease-activated receptor 2 (PAR(2)), but the isoforms of trypsin that cause pancreatitis and pancreatic pain are unknown. We hypothesized that human trypsin IV and rat P23, which activate PAR(2) and are resistant to pancreatic trypsin inhibitors, contribute to pancreatic inflammation and pain. Injections of a subinflammatory dose of exogenous trypsin increased c-Fos immunoreactivity, indicative of spinal nociceptive activation, but did not cause inflammation, as assessed by measuring serum amylase and myeloperoxidase activity and by histology. The same dose of trypsin IV and P23 increased some inflammatory end points and caused a more robust effect on nociception, which was blocked by melagatran, a trypsin inhibitor that also inhibits polypeptide-resistant trypsin isoforms. To determine the contribution of endogenous activation of trypsin and its minor isoforms, recombinant enterokinase (ENK), which activates trypsins in the duodenum, was administered into the pancreas. Intraductal ENK caused nociception and inflammation that were diminished by polypeptide inhibitors, including soybean trypsin inhibitor and a specific trypsin inhibitor (type I-P), and by melagatran. Finally, the secretagogue cerulein induced pancreatic nociceptive activation and nocifensive behavior that were reversed by melagatran. Thus trypsin and its minor isoforms mediate pancreatic pain and inflammation. In particular, the inhibitor-resistant isoforms trypsin IV and P23 may be important in mediating prolonged pancreatic inflammatory pain in pancreatitis. Our results suggest that inhibitors of these isoforms could be novel therapies for pancreatitis pain.     

On testing the activity of proteases from human polymorphonuclear neutrophils on blood smears.

A cytochemical method is presented for the demonstration of proteases in human polymorphonuclear (PMN) neutrophils on fixed blood smears. This new technique is based on solubilization of proteases from PMN neutrophils by incubation with 0.25 M NaCl in borate buffer at pH 8.5 which leads to degradation of erythrocytes and plasma in a disclike zone (halo) around centrally situated PMN neutrophils, an effect that is visualized by staining smears using a modified colloidal iron reaction. Halo formation is inhibited by trypsin inhibitors of soya-bean as well as of chicken egg white mucoid and by phenylmethyl-sulfonylfluoride.     

Characterization of a C5a receptor on human polymorphonuclear leukocytes (PMN)

Elucidation of the interactions between C5a and granulocytes is central to understanding the role of C5a in inflammation. In this study, interactions between C5a and PMN have been studied at two levels. Binding of human C5a to intact human cells has been characterized by using the radiolabeled ligand 125I-C5a. Binding is shown to be reversible, saturable, and to reach equilibrium in 60 to 90 min at 0 degrees C. Results show high affinity C5a binding sites with Kd = 2 X 10(-9) M and a range of 50,000 to 113,000 binding sites per PMN. These values for C5a receptors are comparable with the number of fMLP and LTB4 receptors on PMN. Binding of C5a to PMN fails to reach equilibrium at 37 degrees C because there is an irreversible loss of available surface receptors caused by an active internalization of the ligand-receptor complex. Interactions between C5a and human PMN were characterized further by cross-linking experiments, with the use of ethylene glycol bis succinimidylsuccinate (EGS). Cross-linking of 125I-C5a to intact PMN followed by subcellular fractionation revealed a single radioactive band present only in the plasma membrane fraction and visualized by autoradiography. Similar experiments resulted in a covalent linkage between 125I-C5a and a component in the isolated plasma membrane of PMN. The covalent complex containing C5a and a putative receptor has been visualized by autoradiography as a single 60,000 Mr complex on SDS-PAGE. The complex is not present when experiments are performed in the presence of excess unlabeled C5a or in the absence of EGS. Therefore, the putative receptor for C5a on human neutrophils is estimated to be approximately 48,000 Mr, assuming contribution of 12,000 to 13,000 daltons by the ligand 125I-C5a.     

The functional competence of uterine-derived polymorphonuclear neutrophils (PMN) from mares resistant and susceptible to chronic uterine infection: a sequential migration analysis

The functional competence of uterine-derived polymorphonuclear neutrophils (PMNs) from 28 mares was measured for migration responsiveness by use of a chamber (filter) assay. Uterine infection was induced with Streptococcus zooepidemicus in mares considered resistant to chronic uterine infection (Grade I). In sequential analysis of uterine flushings obtained from these mares 5, 12, 15, 20, and 25 h after infection was induced, PMNs showed an initial rise at 12 h (from 5), then a general decline in migration response and in concentration of cells per ml from 12 through 25 h post-inoculation. In contrast, PMNs obtained from the uterine flushings from mares considered susceptible to chronic uterine infection (Grade III) demonstrated premature migration dysfunction 12 h after infection. Subsequent increases in functional competence of the PMNs were demonstrated at 15 and again at 25 h after induced infection. The concentration of uterine PMNs per ml from mares considered susceptible to chronic endometritis remained elevated from 12 through 25 h after inoculation, which suggests a possible continued recruitment of new PMNs from the peripheral circulation. The results of this study suggest that uterine-derived PMNs obtained from mares susceptible to chronic uterine infection have a compromised ability to migrate. This dysfunction may play an important role in rendering the endometrium (uterus) susceptible to chronic endometritis.     

Calcium-activated neutral proteases (calpains) are carbohydrate binding proteins

Calcium-activated neutral proteases (calpain, EC 3.4.22.17) bind to agarose matrices (Bio-Gel A-150m, Sepharose 4B, and Ultrogel AcA 34) with high affinity in the presence of calcium. 6-O-beta-Galactopyranosyl-D-galactose, a disaccharide which closely resembles the repeating unit of the agarose matrices, completely blocks the binding of calpains and can release agarose-bound enzymes in the presence of calcium. At least 1 microM level of free calcium is required for binding. Other calcium binding proteins, including calmodulin, calpastatin, casein, and neurofilament proteins, fail to bind under the same conditions. Both calpain I and calpain II can be readily purified from crude enzyme preparations by agarose chromatography in the presence of calcium and leupeptin. Agarose-bound enzymes are eluted with calcium-free solutions or can be released in the presence of calcium by 1% Triton X-100, but not by 1 M urea or 20% ethylene glycol. Enzymes eluted from agarose are activated, as evidenced by the appearance of faster migrating forms (76 and 78 kDa) of the 80-kDa catalytic subunit of calpain I upon electrophoresis and by the increased sensitivity of calpain II to activation by micromolar levels of calcium. The electrophoretic migration of the 30-kDa regulatory subunit is, however, unaltered in enzyme fractions eluted from an agarose column. When the enzyme subunits are dissociated in 1 M NaSCN, only the 30-kDa subunit binds to the agarose matrix. Furthermore, neither calpain I nor calpain II binds to agarose when their 30-kDa subunit is autocatalyzed to an 18-kDa fragment, indicating that the NH2-terminal of the 30-kDa subunit is important for the binding of calpains to an agarose matrix.     

Bactericidal properties of neutrophils from peripheral blood (PMN)of patients with Lyme borreliosis

In recent years in Poland, the interest has increased in studies about tick borne diseases, mainly Lyme borreliosis. Immune response and genotype of pathogen play an important role in the course of this disease. Phagocytic cells, especially PMN are dominant in defence mechanisms against bacterial infections. The main feature of PMN is their ability to destroy pathogenic microorganisms by phagocytosis. The aim of this study was to estimate the phagocytic activity of PMN connected with intracellular respiratory burst in patients with Lyme borreliosis. The PMN activity tests completed were: phagocytosis, spontaneous and reduced of nitrotetralizate blue test (NBT). Decreased phagocytic activity and oxygen metabolism of PMN from patients with borreliosis in comparison with values of controls were found. Normalization of these parameters after treatment was observed. Changed phagocytic activity connected with intracellular oxygen metabolism during the course of therapy was the main observation. Depression of phagocytic activity of PMN connected with oxygen metabolism can influence defence reactions in patients with Lyme borreliosis. It is suggested that changes observed are acquired and associated with Borrelia burgdorferi presence.     

Preservation of polymorphonuclear neutrophils at low temperature (4 °C)

Polymorphonuclear neutrophils (PMNs) stored at 4 °C well retained all functions examined during 3 days of storage. However, PMNs stored for 1 week showed a marked decrease in both chemotactic migration and stimulated cyanide-insensitive oxygen consumption, while adhesion, phagocytosis, and dye exclusion ability were well maintained. Addition of ATP or albumin to the PMN suspension did not produce any improvement in the maintenance of these functions.     

Inhibition of lymphycyte reactivity in vitro by autologous polymorphonuclear cells (PMN).

The influence of autologous polymorphonuclear cells (PMN) on lymphocyte reactivity was investigated by monitoring the uptake of tritiated thymidine by unstimulated, phytohemagglutinin (PHA)-stimulated, and fetuin-stimulated lymphocytes in vitro. Addition of PMN at PMN-to-lymphocyte ratios (P:L) of 0.5 to 2.0 progressively inhibited lymphocyte reactivity. Soluble extracts, obtained by sonication and ultracentrifugation (100,000g for 90 min) of PMN, also inhibited lymphocytes. The PMN-derived inhibitor(s) is noncytotoxic, heat labile (56 °C for 60 min), resistant to freeze-thawing (20 cycles), and appears to be nondialyzable. Inhibition was more marked when the factor was added at the initiation of lymphocyte cultures than when added with the tritiated thymidine 24 hr prior to cell harvest. Thus thymidine released by PMN which diluted the radiolabeled nucleotide and degradation of the tritiated thymidine did not explain these results. Lymphocytes incubated for 3 days in the medium containing the inhibitor reacted normally to PHA following washing, indicating that inhibition was reversible. These results suggest that a PMN-derived lymphocyte inhibitor(s) may modulate lymphocyte-mediated immune reactivity.     

Down-regulation and inactivation of neutral endopeptidase 24.11 (enkephalinase) in human neutrophils

Neutral endopeptidase (EC 3.4.24.11, NEP) is an integral membrane protein of human neutrophils. NEP is identical with the common acute lymphoblastic leukemia antigen (CALLA) of leukemic cells. The expression of NEP on the surface of neutrophils is down-regulated by endocytosis which can be induced by phorbol 12-myristate 13-acetate (PMA) at 37 degrees C. The activity of the enzyme on the surface of intact cells decreases by 76% within 5 min. The activity can be recovered, however, if the cells are lysed within 5 min of the endocytosis. After 30 min, only 32% of the NEP activity is present in the neutrophil lysates. The loss of activity is presumably due to proteolytic inactivation. Diacylglycerol and monoclonal antibody to CALLA/NEP also induce internalization of NEP. PMA induces endocytosis even at 4 degrees C, but NEP is not inactivated at that temperature. The disappearance of NEP activity after adding PMA was inhibited by various agents. Among the most active were the phospholipase inhibitor 4-bromophenacyl bromide and a combination of the serine protease and cathepsin inhibitors, diisopropylfluorophosphate and N-ethylmaleimide. The employment of fluorescent monoclonal antibody confirmed the down-regulation and internalization of NEP antigen on the neutrophils. Since NEP inactivates chemotactic peptides and thereby affects chemotaxis of neutrophils (Painter, R. G., Dukes, R., Sullivan, J., Carter, R., Erd?s, E. G., and Johnson, A. R. (1988) J. Biol. Chem. 263, 9456-9461), the down-regulation of NEP activity on the cell membrane may modulate the function of these cells in inflammation.     

Analysis of polymorphonuclear leukocyte (PMN) migration by the leading-front technique : Random locomotion and chemotaxis

The present study was designed to elucidate the contribution of non-stimulated random movement, stimulated random movement, antitubulin-resistant chemotaxis and antitubulin-sensitive chemotaxis to the casein-induced PMN migration into a micropore filter, evaluated by the leading-front technique. This analysis was conducted by a simplified test design including PMN migration, (a) without casein; (b) in a gradient of casein; and (c) in casein without gradient. Treatment with the antitubulin SPI (a podophyllotoxin derivative) inhibited PMN migration within a casein gradient down to the level of the stimulated PMN random movement induced by casein. The casein-induced PMN chemotaxis measured by the leading-front technique is thus composed of stimulated random movement and antitubulin-sensitive chemotaxis without evidence of antitubulin-resistant chemotaxis. It is suggested that the anti-inflammatory effects of the antitubulins (colchicine, podophyllotoxin, Vinca alcaloids, griseofulvin) are due to an inhibition of the antitubulin-sensitive chemotaxis.     

Circadian variation of cytosol glucocorticoid receptors in human polymorphonuclear leukocytes (PMN) and mononuclear cells (MN) in a normal population

Glucocorticoid cytosol and whole cell receptors from human PMN's have been quantified, and compared to those of human MN leukocytes on the same blood sample. The normal cytosol PMN receptor density (N = 15) averaged 1,254 +/- 105 (SE) molecules bound/cell at 0900 h and increased significantly to 1,497 +/- 98 at 2,100 h (P less than 0.02). MN cell cytosol receptor density was 1,198 +/- 145 at 0900 h and increased significantly to 1,551 +/- 117 molecules bound/cell at 2,100 h (P less than 0.01). Corresponding whole cell receptor densities at 0900 h were 2,845 +/- 273 (PMN) and 3,547 +/- 290 (MN) and these did not change significantly at 2,100 h. Conclusions: Cytosol receptors in normal human PMN and MN cells increased significantly at 2,100 h from the 0900 h level while serum cortisol levels were dropping. Whole cell receptors in the same PMN and MN cell samples did not change significantly between 0900 and 2,100 h. The normal circadian variation in serum cortisol influences the distribution of the glucocorticoid receptor between the cytosol and the nucleus, but does not influence the amount of receptor available to the whole cell. This is the first time that an endogenous physiological variation of cortisol concentration has been utilized to demonstrate a corresponding change in receptor capacity in vivo.