Systemic spread of Campylobacter jejuni after intravenous infections

Mice were infected intravenously with Campylobacter jejuni in order to study systemic translocation of this vibrio, as well as the interactions between bacteria and the host's defense mechanisms. It was found that granulocytes phagocyte C. jejuni in the bloodstream and that phagocytosis could be stimulated with LPS-pretreatment or, less effectively, opsonizing antibodies. It could also be demonstrated that these circulating 'infected' granulocytes are eliminated from the bloodstream mostly by the hepatic Kupffer's cells and that virulent strains of C. jejuni persist in the liver up to thirty days. It has to be concluded that phagocytosis by granulocytes and clearance of C. jejuni from the bloodstream by the liver represent important defense mechanisms in systemic Campylobacter infections.     

Systemic spread of Campylobacter jejuni after intravenous infections

Abstract Mice were infected intravenously with Campylobacter jejuni in order to study systemic translocation of this vibrio, as well as the interactions between bacteria and the host's defense mechanisms. It was found that granulocytes phagocyte C. jejuni in the bloodstream and that phagocytosis could be stimulated with LPS-pretreatment or, less effectively, opsonizing antibodies. It could also be demonstrated that these circulating 'infected' granulocytes are eliminated from the bloodstream mostly by the hepatic Kupffer's cells and that virulent strains of C. jejuni persist in the liver up to thirty days. It has to be concluded that phagocytosis by granulocytes and clearance of C. jejuni from the bloodstream by the liver represent important defense mechanisms in systemic Campylobacter infections.     

Determination of maximal bactericidal activity in human granulocytes

A conventional in vitro test assay was used to determine maximal bactericidal capabilities of human granulocytes. By means of a mathematical model the maximal phagocytosis and killing activity could be calculated for S. aureus and P. aeruginosa serving as test organisms. The evaluation allowed moreover the determination of the optimal bacterial load and also of critical bacterial concentrations leading to a complete depression of observable granulocyte killing functions. In contrast to other studies frozen suspensions of bacteria were used allowing the employment of identical microorganisms within a complete series of experiments. On average one granulocyte was found to ingest a maximum of 17 CFU of S. aureus with 9 CFU killed under optimal ratios of bacteria per granulocyte. For P. aeruginosa the granulocyte function reached peak values of 96 CFU ingested and 62 CFU killed per one granulocyte. The new assay might provide a highly reproducible method for clinical assessment of granulocyte dysfunctions in various diseases.     

Stimulation of human neutrophilic granulocyte chemotaxis by monoclonal antibodies

Two mouse monoclonal antibodies, L12.2 and S5.22, were developed that are specific for human neutrophilic granulocytes and produce a twofold to threefold stimulation of n-formyl-methionine-leucyl-phenylalanine (FMLP)-induced chemotaxis. Stimulation of chemotaxis by the antibodies is specific for FMLP and is concentration dependent. L12.2 appears to be more potent in stimulating chemotaxis and is isotypically distinct from S5.22. In addition, although L12.2 reacts only with mature peripheral blood granulocytes, S5.22 reacts with leukemic cells of both myeloid and monocytic origin and with immature granulocyte precursor cells. This suggests that L12.2 interacts with an antigen that appears late in the differentiation pathway, whereas S5.22 binds to an antigen that is present throughout the myeloid lineage. By means of the under-agarose and Boyden chamber techniques, L12.2, but not S5.22, by itself was also found to be a potent granulocyte chemoattractant. Cells in a gradient of L12.2 display polarized and oriented morphology. L12.2 alone, but not S5.22, also stimulates granulocyte phagocytosis and induces superoxide anion production. Neither L12.2 nor S5.22 affected the release of myeloperoxidase or lysozyme from granulocytes either alone or in combination with FMLP, C5a, or the tumor promoter, 12-O-tetradecanoyl-phorbol-13-acetate (TPA). These results suggest that L12.2 interacts with a single antigenic determinant on granulocytes that is involved in chemotaxis, phagocytosis, and superoxide anion release.     

Flow-cytometric characterization of stimulation, free radical formation, peroxidase activity and phagocytosis of human granulocytes with 2,7-dichlorofluorescein (DCF)

A standardized four-step assay for the flow cytometric determination of the oxidative activity of human polymorphonuclear leukocytes (PMNL) from normal human individuals and from septic patients was developed, using 2,7-dichlorofluorescin-diacetate (DCFH-DA) as indicator for the intracellular formation of H2O2 and free radicals. Spontaneous H2O2 and free radical formation was measured by preincubation of buffy coat PMNLs from fresh peripheral venous blood at 37 degrees C and pH 7.4 with 10 microM DCFH-DA. Intracellular peroxidase activity was determined by addition of 1 mM external H2O2 to this assay. A maximum of granulocyte oxidative burst activity was elicited by the addition of 150 nM phorbol-myristate-acetate (PMA). A physiological burst was generated by incubating buffy coat PMNLs together with E. coli bacteria. The DNA of dead cells was in all instances simultaneously counterstained with propidium iodide (PI). Quiescent or H2O2 or bacteria treated granulocytes moved as a single cell cluster to higher fluorescences. Stimulation with PMA, in contrast, generated always a bimodal distribution of granulocyte fluorescence with the high activity cell cluster being approximately sevenfold more active than the low activity cell cluster. Roughly half of the granulocytes in normal individuals had high fluorescence. An increase of the high activity granulocytes was observed in septic patients. Model experiments with the nonfluorescent DCFH-DA cleavage product DCFH (2,7-dichlorofluorescin) showed that DCFH was quickly photo-oxidized to fluorescent DCF (2,7-dichlorofluorescein) by UV-light and to a lower degree by daylight. DCFH even slowly autooxidized in the dark.(ABSTRACT TRUNCATED AT 250 WORDS)     

Image-based Flow Cytometry Technique to Evaluate Changes in Granulocyte Function In Vitro

Granulocytes play a key role in the body’s innate immune response to bacterial and viral infections. While methods exist to measure granulocyte function, in general these are limited in terms of the information they can provide. For example, most existing assays merely provide a percentage of how many granulocytes are activated following a single, fixed length incubation. Complicating matters, most assays focus on only one aspect of function due to limitations in detection technology. This report demonstrates a technique for simultaneous measurement of granulocyte phagocytosis of bacteria and oxidative burst. By measuring both of these functions at the same time, three unique phenotypes of activated granulocytes were identified: 1) Low Activation (minimal phagocytosis, no oxidative burst), 2) Moderate Activation (moderate phagocytosis, some oxidative burst, but no co-localization of the two functional events), and 3) High Activation (high phagocytosis, high oxidative burst, co-localization of phagocytosis and oxidative burst). A fourth population that consisted of inactivated granulocytes was also identified. Using assay incubations of 10, 20, and 40-min the effect of assay incubation duration on the redistribution of activated granulocyte phenotypes was assessed. A fourth incubation was completed on ice as a control. By using serial time incubations, the assay may be able to able to detect how a treatment spatially affects granulocyte function. All samples were measured using an image-based flow cytometer equipped with a quantitative imaging (QI) option, autosampler, and multiple lasers (488, 642, and 785 nm).     

Binding of 125I-labeled granulocyte colony-stimulating factor to normal murine hemopoietic cells

The binding of granulocyte colony-stimulating factor (G-CSF) to murine bone marrow cells was investigated using a radioiodinated derivative of high specific radioactivity which retained full biological activity. The binding was time- and temperature-dependent, saturable and highly specific. The apparent dissociation constant for the reaction was 60-80 pM at 37 degrees C and 90-110 pM at 4 degrees C, similar to that found for the binding of G-CSF to murine leukemic cells (WEHI-3B D+) and significantly higher than the concentration of G-CSF required to stimulate colony formation in vitro. Autoradiographic analysis confirmed the specificity of binding since granulocytic cells were labeled but lymphocytes, erythroid cells and eosinophils were not. Blast cells and monocytic cells were partially labeled, the latter at low levels. In the neutrophilic granulocyte series, grain counts increased with cell maturity, polymorphs being the most heavily labeled but all cells showed considerable heterogeneity in the degree of labeling. Combination of Scatchard analysis of binding with autoradiographic data indicated that mature granulocytes from murine bone marrow exhibited 50-500 G-CSF receptors per cell.     

Phagocytosis, intracellular pH, and cell volume in the multifunctional analysis of granulocytes by flow cytometry

Phagocytosis of Escherichia coli K12 strain bacteria was used to measure by flow cytometry the functional activities of human granulocytes in whole blood or buffy coat preparations. In a first measurement, the increase in electric cell volume and acridine orange (AO) green and red fluorescence were used to quantify the degree of phagocytosis. In a second measurement, the intracellular pH and esterase activity of each cell were determined with 1,4-diacetoxy-2,3-dicyanobenzene to obtain information on the metabolic activities during phagocytosis and degradation of bacteria. The DNA of dead cells was simultaneously counterstained with propidium iodide in both assays. The volume, the AO green and red fluorescence, the internal pH, and esterase activity were automatically averaged for all granulocytes or lymphocytes of a measurement. The calculated mean values were transferred into the self-learning database of the DIAGNOS1-program system. The functional granulocyte parameters of normal healthy individuals can be used as reference values for the automated diagnosis of abnormal granulocytes in various infectious disease states. The assays require 1 ml of heparinized whole blood and the results are available within 1 hour.     

The non-neuronal cholinergic system in peripheral blood cells: effects of nicotinic and muscarinic receptor antagonists on phagocytosis, respiratory burst and migration

Peripheral blood cells express the complete non-neuronal cholinergic system. For example synthesis of acetylcholine and nicotinic as well muscarinic receptors have been demonstrated in leucocytes isolated from human peripheral blood. In the present experiments mononuclear cells and granulocytes were isolated from the peripheral blood to investigate content and synthesis of acetylcholine as well as phenotypic functions like respiratory burst, phagocytosis and migration. Mononuclear cells (T-cells and monocytes) contained 0.36 pmol/10(6) cells acetylcholine, whereas acetylcholine content in granulocytes was 100-fold lower. Acetylcholine synthesis amounted to 23.2+/-4.7 nmol/mg protein/h and 2.90+/-0.84 in CD15+ (granulocytes) and CD3+ cells (T-lymphocytes), respectively. Neither atropine (blockade of muscarinic receptors) nor tubocurarine (blockade of nicotinic receptors) exerted an effect on the respiratory burst. Tubocurarine (30 muM), alone or in combination with atropine (1 microM), reduced phagocytosis in granulocytes by 13% and 19%, respectively (p<0.05). Spontaneous transwell migration of granulocytes was doubled by tubocurarine combined with atropine (p>0.05). Also alpha-bungarotoxin (10 microg/ml) enhanced spontaneous granulocyte migration, but hexamethonium (300 microM) was without effect. The present experiments demonstrate a cholinergic modulation of immune functions in peripheral leucocytes under in vitro conditions, i.e. in the absence of a neuronal innervation. Blockade of nicotine receptors (alpha1 muscular subtype) facilitates spontaneous migration of granulocytes.     

Cryoinjury in human granulocytes and cytoplasts.

Although most isolated cells can be successfully cryopreserved, human granulocytes have little functional recovery after cryopreservation, even under optimized conditions. Cytoplasts, which are vesicles created from human granulocytes by depletion of organelles including granules and the nucleus, can carry out some of the complex functions of the parent granulocyte such as phagocytosis of bacteria, even after cryopreservation. Human granulocytes and cytoplasts were used in this comparative study of low-temperature responses to assess the relative importance of the plasma membrane and the granules in cryoinjury to human granulocytes. Boyle-van't Hoff plots of cell volume as a function of the reciprocal of osmolality showed that granulocytes and cytoplasts have similar osmometric behavior and equivalent osmotically inactive fractions. The hydraulic conductivities were also similar, indicating that the osmotic properties of the plasma membrane and cytoplasm were retained during preparation of the cytoplasts. Assessment of membrane integrity using fluorescein diacetate after graded freezing stresses showed that the low-temperature responses of cytoplasts were similar to those of human lymphocytes and hamster fibroblasts, with recoveries much higher than those of human granulocytes, particularly after post-thaw incubation at 37 degrees C. The results indicate that the plasma membrane is not the primary site of injury to granulocytes during freezing and thawing, and suggest that activation of cytoplasmic elements, such as granules, may constitute the early events in cryoinjury to human granulocytes. These studies have significance in approaches to the cryopreservation of granulocytes and other types of cells, such as platelets, with increased sensitivity to the conditions encountered during freezing and thawing.     

Kinetics of neutrophil-releasing activity of filtration leukapheresis and postleukapheresis plasma

A rat model was used to study the effect of filtration leukapheresis on the kinetics of granulocyte mobilization in normal rat donors and in recipients of plasma obtained from these donors. Our earlier observations showed that infusion of postpheresis plasma (PPP) into normal homologous recipients is consistently capable of inducing a marked granulocytosis. The effects of such a transfusion is dose related and duration dependent. This study shows that the granulocytosis occurring subsequent to administration of PPP was directly related to the duration of pheresis in the donor. Its maximum effect occurred 2–3 hr after transfusion. Animals with a low granulocyte count were less capable of mobilizing granulocytes during filtration leukapheresis than animals with a higher prepheresis count, possibly due to low endogenous stores of granulopoietin. Additionally, rats < 300 g were capable of mobilizing fewer granulocytes per volume of circulating blood than were larger (older?) animals. The maximum ability of PPP to increase circulating granulocyte numbers was found when postpheresis plasma was injected along with concurrent removal of circulating granulocytes by filtration leukapheresis.     

Phagocytosis and killing of Staphylococcus aureus by granulocytes in mice after granulocyte-macrophage colony stimulating factor (GM-CSF) injection

GM-CSF is a hematopoietic growth factor. In vitro it stimulates the proliferation of myeloid progenitors and formation of granulocyte and macrophage colonies. It was found that GM-CSF in vitro is also stimulated the function of mature granulocytes, but we have no information about such influence in vivo. The purpose of this investigation was the evaluation in vivo of the GM-CSF effect on phagocytosis, bactericidal activity, and lysosome enzyme activities in granulocytes. GM-CSF was injected into mice subcutaneously during 5 consecutive days in the dose of 1 microgram/kg/d. The examination of the percent of cell phagocytizing bacteria (Staphylococcus aureus), NBT test, bactericidal activity and activation of acid phosphatase, alkaline phosphatase, peroxidase and esterase was performed every day and an evident increase of the tested parameters was found. These results prove in vivo activation of granulocytes by GM-CSF.     

M-related protein (Mrp) contributes to group A streptococcal resistance to phagocytosis by human granulocytes

The M protein has been postulated to be a major group A streptococcal (GAS) virulence factor because of its contribution to the bacterial resistance to opsono-phagocytosis. Direct evidence of this was only provided for GAS strains which expressed a single M protein. The majority of GAS express additional, structurally similar M-related proteins, Mrp and Enn, which have been described as IgG- and IgA-binding proteins. To determine the involvement of Mrp and M protein in phagocytosis resistance, the mrp and emm genes from serotypes M2, M4, and M49 as well as from M-untypeable strain 64/14 were insertionally inactivated. The mrp and emm mutants were subjected to direct bactericidal assays. As judged by numbers of surviving colony-forming units, all mutant strains with the exception of the mrp 4 mutant exhibited reduced multiplication factors as compared to the isogenic wild-type strains. Subsequent analysis of phagocytosis by flow cytometry, measuring association of BCECF/AM-labelled bacteria and granulocytes, paralleled the results from direct bactericidal assays regardless of whether isolated granulocytes or whole blood were utilized. Resistant wild-type GAS strains bound to less than 24% of granulocytes, whereas phagocytosis-sensitive controls attached to more than 90% of the white blood cells. 40 to 60% of the granulocytes associated with the mrp and emm mutants within 1 h of co-incubation. Kinetic data suggested that attachment to granulocytes proceeds faster for emm mutants than for corresponding mrp mutants. By adding a dihydro-rhodamine123 stain and measuring fluorescence induced by oxidative burst, the experimental data suggested that bacteria bound to granulocytes were also engulfed and integrated into phagolysosomes. Thus, these data indicated that, if present, both mrp and emm gene products contribute to phagocytosis resistance by decreasing bacterial binding to granulocytes.     

Mechanism of lysosomal enzyme release from Mercenaria mercenaria granulocytes: a scanning electron microscope study

A scanning electron microscope study of Mercenaria mercenaria granulocytes at 1 and 2 hr postchallenge with a 0.02-ml Millipore-filtered, sterile sea water suspension of heat-killed Bacillus megaterium at a concentration of 4 × 10⁶ bacteria/ml revealed that (1) granulocytes challenged with bacteria revealed more and larger lysosomes protruding from their surfaces than those of the control groups; (2) release of intact lysosomes from granulocytes into serum occurred concurrently with phagocytosis; (3) enzymes released from discharged lysosomes acted on bacterial cell walls causing their partial degradation, thereby enhancing endocytosis; and (4) degranulation is a normal process but is greatly enhanced when stimulated by phagocytosis of bacteria. This study also demonstrated that lysosomes budded off from the plasma membrane of granulocytes into serum, although the actual biochemical mechanism(s) that causes the detachment of lysosomes from the plasma membrane and the subsequent lysis of the double-membraned lysosomes to release the hydrolases remains unresolved.     

Differences in initial rate of intracellular killing of Salmonella typhimurium by granulocytes of Salmonella-susceptible C57BL/10 mice and Salmonella-resistant CBA mice

The contribution of granulocytes to differences in the innate susceptibility of mouse strains to infection by Salmonella typhimurium was assessed on the basis of the size and composition of the inflammatory exudate after i.p. injection of bacteria and the intracellular killing of the bacteria by exudate peritoneal cells and blood granulocytes of resistant CBA and susceptible C57BL/10 mice. The increase in the numbers of both peritoneal granulocytes and macrophages 24 hr after i.p. injection of various numbers of live S. typhimurium was two to four times higher in C57BL/10 mice (p less than 0.05) than in CBA mice. However, despite the larger number of phagocytes in the inflammatory exudate, the numbers of viable S. typhimurium in the peritoneal cavity 24 hr after injection was higher (p less than 0.01) in C57BL/10 mice than in CBA mice. Because the proportion of noningested bacteria was similar in the two mouse strains (less than 30%), these findings indicate a difference in the rate of intracellular killing of the bacteria by exudate peritoneal cells (greater than 75% granulocytes) of the two mouse strains. Subsequent determination of the initial rate of intracellular killing (Kk) of S. typhimurium revealed that after phagocytosis of the bacteria in vivo, exudate peritoneal granulocytes (harvested 24 hr after i.p. injection of 10(3) live S. typhimurium) of CBA mice killed S. typhimurium twice as efficiently (Kk = 0.014 min-1; p less than 0.01) as exudate granulocytes of C57BL/10 mice (Kk = 0.008 min-1) did. Similarly, the initial rate of intracellular killing of the ingested S. typhimurium by blood granulocytes of CBA mice (Kk = 0.017 min-1) was two times higher (p less than 0.01) than that of C57BL/10 mice (Kk = 0.007 min-1). These findings may be specific for S. typhimurium, because L. monocytogenes were killed with equal efficiency by exudate granulocytes and blood granulocytes of these mouse strains (p greater than 0.20). The results of the present study are relevant with respect to the innate resistance of mice to S. typhimurium, particularly during the initial phase of infection when the inflammatory exudate contains predominantly granulocytes.     

Methodological aspects of assessing phagocytosis of Vibrio anguillarum by leucocytes of gilthead seabream (Sparus aurata L.) by flow cytometry and electron microscopy

In this paper we optimize a flow cytometric method for evaluating the phagocytic activity of leucocytes in gilthead seabream (Sparus aurata L.) and characterize the phagocytic cells observed. Optimal conditions were established for the fluorescein-labelling and analysis of the bacterium Vibrio anguillarum by flow cytometry. Head-kidney leucocytes were incubated with the heat-killed fluorescein isothiocyanate (FITC)-labelled bacteria for different periods, during which the kinetics of phagocytosis was studied. Attached and interiorized bacteria were distinguished. Although phagocytic ability reached a maximum after 60 min, phagocytic capacity reached its maximum at 20 min. The amount of ingested bacteria per phagocyte was estimated from the mean fluorescence of the leucocytes. Cytochalasin B or colchicine was used to inhibit phagocytosis. Monocyte-macrophages and acidophilic granulocytes showed phagocytic activity as demonstrated by transmission electron microscopy. In conclusion, the technique presented allows the screening of thousands of cells, and individual cell evaluation, by quantifying interiorized particles in fish phagocytes. Our ultrastructural results demonstrate that V. anguillarum is actively phagocytized by seabream macrophages and acidophilic granulocytes.     

Augmentation of activities of peripheral granulocytes and of resistance against bacterial infection after administration of G-CSF into mice]

We evaluated the metabolic capability of murine peripheral granulocytes after administration of recombinant human granulocyte colony-stimulating factor (rhG-CSF) by quantitative flow cytometric assay for H2O2-dependent oxidative product formation. Intraperitoneal administration of a daily dose of 10 micrograms of rhG-CSF for 5 days induced doubling of the leukocyte population. Differential counting of peripheral leukocytes and scattergram by flow cytometry showed an increased mature granulocyte population. After stimulation with phorbol myristate acetate, the granulocytes of the rhG-CSF-administered mice demonstrated some hyperresponsive population and an increased H2O2 production. The hyperresponsive population showed H2O2 production 4-6 times higher than did normal cells. Granulocytes from the G-CSF-treated mice revealed an augmented phagocytic activity and an increased expression of Mac-1 molecules. Moreover, mice treated with G-CSF showed an enhanced resistance against intravenous infection with a lethal dose of E. coli. Granulocytes showing such markedly increased oxidative metabolism may be a significant component of the host defence to various infective organisms.     

Cellular immune responses of spruce budworm larvae to Entomophthora egressa protoplasts and other test particles

The protoplast stage of two isolates of Entomophthora egressa developed normally and eventually produced conidiophores when injected into larvae of the spruce budworm, Choristoneura fumiferana. The spruce budworm hemocytes never made long-term contact with the protoplasts either in vivo or in vitro. The protoplasts made active, short-term contact with spruce budworm granulocytes both in vivo and in vitro. Total larval hemocyte counts (THC) initially declined when larvae were injected with protoplasts, growth medium (MGM), or Escherichia coli. The recovery rate to THC control levels was similar for MGM and protoplasts and supports the concept of nonrecognition of protoplasts by the hemocytes. The granulocytes were important in both nodulation and phagocytosis of E. coli and Bacillus cereus, whereas the plasmatocytes were important in phagocytosis. In in vitro studies, spruce budworm granulocytes did not adhere to rod-shaped hyphal bodies, spherical hyphal bodies, or germinating spherical hyphal bodies of E. egressa, whereas the granulocytes readily encapsulated the hyphae. There was no evidence for the production by the protoplasts of metabolites which might interfere with hemocyte adhesion. When protoplasts contacted Tenebrio molitor granulocytes, the protoplasts reacted by increasing the number of protoplasmic extensions and by granule discharge. The process of granule discharge may be an active protoplast defense mechanism. The sporangiospores of Absidia repens and Rhizopus nigricans adhered to spruce budworm granulocytes; however, the number of A. repens spores per granulocyte and the level of granulocytes with spores decreased in the presence of phenylthiourea. The adhesion of A. repens spores to granulocytes was enhanced by N-acetylglucosamine, whereas glucosamine, sucrose, fucose, fructose, arabinose, and galactose either had no effect on or reduced spore adhesion. Thus, the chitin (or its subunits) in the hyphal wall may initiate the granulocyte response.     

Purification of human granulocyte catalase in chronic myeloid leukemia.

Human granulocyte catalase (hydrogen peroxide:hydrogen peroxide oxidoreductase, EC 1.11.1.6) was purified from chronic myeloid leukemia cells. The purification procedure included heat precipitation, ammonium sulphate fractionation, DEAE-Sephadex chromatography, gel chromatography on Sephadex G-200 and isoelectric focusing with an approximate yield of 30% and a 1000-fold purification. The molecular weight of the subunit obtained by sodium dodecyl sulphate electrophoresis was 65 800. So20,w was 11.6 +/- 0.24. The pH-optimum was 6.6-6.7 and the spectrum showed a major peak at 405 nm and shoulders at 500, 540 and 625 nm typical for catalase. The electrophoretic mobility was towards the anode at pH 8.6 and identical to normal granulocyte and erythrocyte catalase. These three species of catalase gave the reaction of identity on immunodiffusion and crossed immunoelectrophoresis. The content of catalase and its activity of isolated granulocytes were approximately identical in normal and chronic myeloid leukemia granulocytes while the specific activity of leukemic catalase was higher than normal. No difference in catalase content was found between mature and immature leukemic granulocytes.     

Purification and characterization of the elastase-like enzyme of the bovine granulocyte

The extracts of granules isolated from bovine granulocytes show elastase- and chymotrypsin-like activities, as detected with specific synthetic substrates. Extraction of these enzymes depends upon salt concentration. In the course of the present studies a 21-fold purification of the elastase-like enzyme was achieved on a (Ala)3-CH-Sepharose 4B gel. The molecular weight of the enzyme is 33 000, as determined by gel electrophoresis in the presence of sodium dodecyl sulfate. The elastase-like activity is inhibited by phenylmethylsulfonyl fluoride, soybean trypsin inhibitor, basic pancreatic inhibitor and by heparin at different rates. Elastatinal inhibits the enzyme competitively (Ki = 80 microM). The cytosol of bovine granulocytes contains a protein which strongly inhibits the elastase-like enzyme of the bovine granulocyte (Ki = 0.4 nM) as well as porcine pancreatic elastase (Ki = 11 nM).