Role of the Phagocyte in Host-Parasite Interactions VIII. Effect of Whole-Body X Irradiation on Nicotinamides, Lysosomal Enzymes, and Bactericidal Activities of Leukocytes During Phagocytosis

By studying the effects of whole-body X irradiation on phagocytosis, a correlation between the metabolic and bactericidal activities of leukocytes following X irradiation was demonstrated. The total nicotinamide adenine dinucleotide (NAD) and nicotinamide adenine dinucleotide phosphate (NADP) content of polymorphonuclear neutrolphils (PMN) isolated from irradiated guinea pigs increased significantly when compared to nonirradiated controls. The ratio of unreduced to reduced (NAD) generally increased in PMN isolated from irradiated animals. This occurred with both resting and phagocytizing cells. The ratio of unreduced to reduced NADP of resting PMN isolated from irradiated animals had a tendency to increase. However, in phagocytizing cells a significant decrease in the ratio was noted. The total acid and alkaline phosphatase and beta-glucuronidase increased up to about 10 days postirradiation. These lysosomal enzymes returned to approximately normal by the 17th day postirradiation. All three lysosomal enzymes (acid and alkaline phosphatases and beta-glucuronidase) were released from the granules at a significantly faster rate during phagocytosis after irradiation. The bactericidal activities of PMN isolated from irradiated animals gradually decreased, and in some cases increased growth of the organisms was observed. The uptake or association of bacteria with PMN isolated from irradiated animals varied with the postirradiation time. Generally, a correlation with bactericidal activities could be made. The data indicate that the bactericidal system in phagocytes consists of at least two agents, H(2)O(2) and myeloperoxidase.     

Preferential binding of the neutrophil cytoplasmic granule-derived bactericidal/permeability increasing protein to target bacteria. Implications and use as a means of purification

The specificity of the basic bactericidal/permeability increasing protein (BPI) of polymorphonuclear leukocytes (PMN) for gram-negative bacteria is attributable to its strong attraction for the negatively charged envelope LPS. The antibacterial activity of PMN homogenates or extracts toward Escherichia coli corresponds to their BPI content and is blocked by anti-BPI IgG, suggesting that BPI action is unaffected by the presence of other PMN proteins. To test if BPI is preferentially bound to E. coli when other antibacterial proteins are present, we have measured binding in buffered (pH 7.5) balanced salts solution of [125I] human BPI to E. coli J5 in the presence and absence of other human PMN granule proteins. BPI binding is saturable with an apparent K = 23 nM and 2.2 million binding sites/cell. While binding of [125I] human BPI is competitively inhibited by human or rabbit BPI, it is only weakly inhibited by myeloperoxidase, lysozyme, or cathepsin G. In contrast, myeloperoxidase binding to E. coli is strongly inhibited by BPI. Moreover, incubation of E. coli with crude extracts of PMN or CML spleen results in near quantitative binding of BPI, identified by silver staining and immunoblotting after SDS-PAGE of the washed E. coli pellet, without recognizable binding of other leukocyte proteins (greater than 98% of added total protein is recovered in supernatant). After addition of 200 mM MgCl2, approximately 80% of bound BPI is released as fully active and pure protein (as judged by SDS-PAGE and HPLC). Thus the selective and reversible binding of BPI in crude PMN extracts to target bacteria provides a one-step "affinity" purification procedure.     

Effect of Phenylbutazone on Phagocytosis and Intracellular Killing by Guinea Pig Polymorphonuclear Leukocytes

The anti-inflammatory drug phenylbutazone has been found to inhibit both engulfment and intracellular killing of E. coli by guinea pig peritoneal polymorphonuclear (PMN) leukocytes. The bactericidal activity of leukocytic homogenates was also inhibited by the drug. Addition of the drug at various time intervals to a phagocytic reacting system caused an almost immediate cessation of bactericidal activity. Metabolic studies showed that the drug sharply curtailed glucose-l-(14)C and (14)C-formate oxidation of both resting and phagocytizing PMN leukocytes. These data indicated an effect upon the hexose monophosphate shunt and H(2)O(2) formation. Further investigation showed that the sites of inhibition were on glucose-6-phosphate and 6-phosphogluconate dehydrogenase. These inhibitions resulted in decreased H(2)O(2) production. It is suggested that H(2)O(2) activates lysosomes and subsequently complexes with the lysosomal enzyme, myeloperoxidase. This complex is a potent bactericidal agent in the phagocyte.     

Priming activity for chemiluminescence reaction of PMN in the culture supernatant of streptococcal preparation (OK-432)-stimulated spleen cells

We investigated the effect of supernatant from human spleen cell culture stimulated with a streptococcal preparation, OK-432 (OK sup), on the luminol-dependent chemiluminescence (CL) of human polymorphonuclear leukocytes (PMN). The fMLP-stimulated CL of PMN was markedly enhanced by the pretreatment with OK sup. This result indicates that OK sup contained the factor(s) that primes fMLP-stimulated CL of PMN. The priming factor(s) in OK sup was partially inactivated by the treatment at 56 C for 30 min and pH 2 or pH 10 treatments. Since the enhancing effect of OK sup on the CL was inhibited by the treatment of sodium azide and the addition of catalase or taurine, it was assumed that OK sup augments the activity of MPO-H2O2-HOCl system of fMLP-stimulated PMN.     

Isolation of two isoforms of a novel 15-kDa protein from rabbit polymorphonuclear leukocytes that modulate the antibacterial actions of other leukocyte proteins

We have recently reported the use of the highly selective and reversible binding of the potent bactericidal/permeability-increasing protein (BPI) to target Gram-negative bacteria (Escherichia coli) for its isolation from crude extracts of human polymorphonuclear leukocytes (PMN). We now report the use of the same procedure for the purification from rabbit PMN of BPI and also of a novel 15-kDa species that consists of two nearly identical isoforms. These 15-kDa proteins have no demonstrable antibacterial activities by themselves. However, one isoform (p15A) potentiates strongly and the other (p15B) weakly the early antibacterial effects of both rabbit and human BPI. Both isoforms inhibit the late lethal action of BPI. Whereas the potentiating effect is specific for BPI the inhibitory effect is seen also with another antibacterial protein of PMN granules, azurocidin. Thus, we have identified in rabbit PMN a previously unrecognized 15-kDa protein species that may modulate during phagocytosis the antimicrobial effects of BPI (and other granule proteins).     

Two novel muramidases from skin mucosa of rainbow trout (Oncorhynchus mykiss)

Two novel antibacterial muramidases were purified to homogeneity from skin exudates of rainbow trout (Oncorhynchus mykiss). Unusually, one has an acidic isoelectric point and it is the first anionic muramidase to be reported for fish. Its molecular mass is 14,268 Da, as determined by mass spectrometry. The other muramidase is cationic with a mass of 14,252 Da. Partial N-terminal amino acid sequencing and peptide mapping strongly point to it being a c-type lysozyme, the first to be purified and characterised from skin of a salmonid. Its optimum pH ranges from 4.5 to 5.5 and its optimum temperature, at pH 5.0, is 33-49 degrees C, although it still exhibits activity at 5 degrees C. It is strongly bactericidal to the Gram-(+) bacterium Planococcus citreus, with a minimum bactericidal concentration of 100 U ml(-1), but is neither chitinolytic nor haemolytic. These two muramidases probably contribute to epithelial defence of the fish against microbes, either alone or in synergism with antibacterial peptides.     

Antibacterial Effect of Irradiated Sugar Solution

Effects of irradiated sugar solutions on the growth and viability of E. coli B were investigated on glucose, fructose and sucrose. The antibacterial effect was demonstrated to be classified into two types; the bactericidal effect was developed in every sugar solutions irradiated in air, while the bacteriostatic effect was found especially in fructose irradiated in air free. The bactericidal activity was abolished by heating, pH change to alkali, and addition of catalase or ferrous ions, suggesting its entity is a peroxide products(s). No appreciable activity was observed with the radiation produced hydrogen peroxide and low molecular carbonyl compounds with each alone and even with their combination. Behaviours of the bacteriostatic activity on similar treatments indicate that the entity is unlikely a peroxide compound but a more thermostable and thiol reactive product.     

In vitro oxidative activity of cupric complexes of kanamycin A in comparison to in vivo bactericidal efficacy

The interactions of copper(II) complexes of kanamycin A with oxidation-susceptible biomolecules: 2'-deoxyguanosine, plasmid DNA and yeast tRNA(Phe) were studied in both the presence and absence of hydrogen peroxide. The mixture of complex with H(2)O(2) was found to be an efficient oxidant, converting dG to its 8-oxo derivative, generating strand breaks in plasmid DNA and multiple cleavages in tRNA(Phe). Some of these reactions may play a role in toxic effects of aminoglycoside antibiotics. These complexes were screened for their antibacterial activity. The microbiological studies undertaken to compare the bactericidal action of kanamycin A alone and complexed with copper(II) ions in both neutral and oxidative environment revealed that the enhancement of bactericidal action by Cu(II) was not statistically significant.     

Changes in antibacterial and proteolytic activity of polymorphonuclear leucocytes following the whole body x-irradiation of rabbits

In whole body x-irradiated rabbits with 150 r, 500 r and 1000 r an antibacterial and proteolytic activity in extracts of polymorphonuclear leucocytes obtained from peritoneal exudate was tested immediately and 1, 3, 6, 10 and 21 days following irradiation. The changes in antibacterial activity tested inEscherichia coli, Bethesda andSalmonella adelaide strains depended on the intensity of radiation and time interval between radiation and collection of leucocytes. With increasing radiation the antibacterial activity inBethesda andSalmonella adelaide strains was decreased. In rabbits irradiated 150 r and 500 r a decrease or even a disappearance of bactericidal activity on the sixth day in all strains tested was found, whereas after an irradiation with 1000 r the antibacterial activity was found to be low immediately after irradiation and this decrease could be detected up to the tenth day. UsingEscherichia coli strains the antibacterial activity of leucocyte extracts did not show such a regular dependence on the intensity of radiation and time as with other strains used. The proteolytic activity of leucocyte extracts tested at pH 3.5 (cathepsin D and E) and pH 2.0 (cathepsin E) within 3 days after irradiation was higher with increasing radiation. At other time intervals the activity did not show regular changes. The dynamics of changes in proteolytic activity at both pH was different and also a relation between proteolytic and antibacterial activity was not found.     

Evaluation of the inhibitory effects of human serum components on bactericidal activity of human beta defensin 3

Naturally occurring cationic antimicrobial peptides (CAPs) are an essential component of the innate immune system of multicellular organisms. At concentrations generally higher than those found in vivo, most CAPs exhibit strong antibacterial properties in vitro, but their activity may be inhibited by body fluids, a fact that could limit their future use as antimicrobial and/or immunomodulatory agents. In the present study, we evaluated the effects of human serum components on bactericidal activity of the human beta-defensin 3 (hBD-3), a CAP considered particularly promising for future therapeutic employment. Human serum diluted to 20% strongly inhibited the bactericidal activity of the peptide against both the Gram-positive species Staphylococcus aureus and the Gram-negative species Acinetobacter baumannii. Such activity was not restored in serum devoid of salts (dialyzed), pre-treated with protease inhibitors, or subjected to both of these treatments. The addition of physiological concentrations of NaCl, CaCl2, and human albumin in the bactericidal assay abolished bactericidal activity of hBD-3 against S. aureus, while it only partially inhibited the activity of the peptide against A. baumannii. Although a proteolytic activity of serum on hBD-3 was demonstrated at the protein level by Western blot, addition of physiological concentrations of trypsin to the bactericidal assay only partially affected the antibacterial properties of the peptide. Altogether, these results demonstrate a major role of mono-divalent cations and serum proteins on inhibition of hBD-3 antibacterial properties and indicate a relative lack in sensitivity of the bactericidal activity of this peptide to trypsin and trypsin-like proteases.     

Antibacterial fatty acids: An update of possible mechanisms of action and implications in the development of the next-generation of antibacterial agents

The antibacterial activity of fatty acids (FA) is well known in the literature and represents a promising option for developing the next-generation of antibacterial agents to treat a broad spectrum of bacterial infections. FA are highly involved in living organisms' defense system against numerous pathogens, including multidrug-resistant bacteria. When combined with other antibacterial agents, the remarkable ability of FA to enhance their bactericidal properties is a critical feature that is not commonly observed in other naturally-occurring compounds. More reviews focusing on FA antibacterial activity, traditional and non-traditional mechanisms and biomedical applications are needed. This review is intended to update the reader on the antibacterial properties of recent FA and how their chemical structures influence their antibacterial activity. This review also aims to better understand both traditional and non-traditional mechanisms involved in these recently explored FA antibacterial activities.     

Role of the Phagocyte in Host-Parasite Interactions XI. Relationship Between Stimulated Oxidative Metabolism and Hydrogen Peroxide Formation, and Intracellular Killing

The increased respiratory and hexose monophosphate activities noted in phagocytizing cells results in the formation of hydrogen peroxide. This is brought about by the oxidation of reduced nicotinamide adenine dinucleotide phosphate by its oxidase. Evidence is presented which indicates that this H(2)O(2) is involved in the intracellular killing of bacteria. When molecular oxygen was excluded from phagocytizing leukocytes by anaerobiosis, thus inhibiting H(2)O(2) formation, reduced intracellular killing was observed. In some cases the impairment of leukocytic bactericidal activity by anaerobiosis could be partially reversed by the addition of H(2)O(2). Exogenous catalase also could reduce intracellular killing. In addition, when leukocytic isolates were dialyzed so as to reduce endogenous H(2)O(2), the bactericidal activity of the leukocytes was significantly decreased under both aerobic and anaerobic conditions. These results occurred with both guinea pig and human leukocytes and with several test microorganisms.     

Phagocytosis and neutrophil bactericidal capacity in patients with uremia

The phagocytic activity and bactericidal capacity of polymorphonuclear neutrophils (PMN) were evaluated in patients with advanced chronic renal failure. The studies were made in patients undergoing hemodialysis, maintenance peritoneal dialysis as well as in nondialysed patients. Evaluations were carried out by using of the recently described fluorochrome microassay which enabled these parameters to be estimate independently. The phagocytic activity was seriously diminished in nondialysed patients, whereas it was similar to controls in those hemodialysed and undergoing peritoneal dialysis patients. In all evaluated groups of patients the bactericidal capacity was significantly reduced. The lowest values could always be observed in nondialysed patients. The decrease of bactericidal capacity was significantly more evident in patients undergoing peritoneal dialysis as compared with those hemodialysed. The obtained results confirm some previous reports suggesting the impairment of PMN function in uremic patients. This results in their increased susceptibility to infection. They also reveal the existence of a close relationship between the extent of observed dysfunctions and the management applied.     

The major bactericidal activity of human seminal plasma is zinc-dependent and derived from fragmentation of the semenogelins

One of the major roles of seminal plasma is to provide antimicrobial protection for the spermatozoa in the female reproductive tract. We found that the bactericidal activity of seminal plasma was highest after resolution of the seminal clot and that this antibacterial activity subsequently became greatly diminished. The antibacterial activity was derived from peptides generated by fragmentation of the semenogelins while the semenogelin holoproteins displayed no antibacterial activity. After ejaculation the semenogelin-derived peptides were fragmented to smaller and smaller fragments over time and thereby lost antibacterial activity. This paralleled the loss of antibacterial activity of whole seminal plasma both in vitro and after sexual intercourse. Moreover, the antibacterial activity of the semenogelin-derived peptides generated in seminal plasma was strictly zinc-dependent both at neutral and low pH. These data provide novel roles for the resolution of seminal clots and for the high zinc concentration in human seminal plasma.     

‘Lollipop’-shaped helical structure of a hybrid antimicrobial peptide of temporin B-lipopolysaccharide binding motif and mapping cationic residues in antibacterial activity

BackgroundTemporins are attractive templates for the development of antibiotics. However, many temporins are inactive against Gram-negative bacteria. Previously, we demonstrated conjugation of a lipopolysaccharide binding motif peptide to temporins yielded hybrid non-haemolytic AMPs that killed several Gram-negative bacteria.MethodsWe carried out a systematic Ala replacement of individual cationic and polar amino acid residues of LG21, a hybrid AMP consisted of temporin B (TB) and LPS binding motif. These Ala containing analogs of LG21 were examined for antibacterial activity, cell membrane permeabilization and liposome leakage assays using optical spectroscopic methods. Atomic resolution structure of LG21 was determined in zwitterionic dodecyl phosphocholine (DPC) micelles by NMR spectroscopy.ResultsCationic residues in the LPS binding motif of LG21 were critical for bactericidal and membrane permeabilization. Detergent bound structure of LG21 revealed helical conformation containing extensive sidechain/sidechain packing including cation/π interactions in the LPS binding motif. The helical structure of LG21 resembled a ‘lollipop’ like shape that was sustained by a compacted bulky aromatic/cationic head with a comparatively thinner ‘stick’ at the N-terminal region. The ‘head’ of the structure could be localized into micelle-water interfacial region whereas the ‘stick’ region may be inserted into the hydrophobic core of micelle.ConclusionsThe LPS binding motif of LG21 played dominant roles in broad spectrum activity and the 3-D structure provided plausible mechanistic insights for permeabilization of bacterial membrane.General significanceHybrid AMPs containing LPS binding motif could be useful for the structure based development of broad spectrum antibiotics.     

Production of H2O2 by bovine blood and milk polymorphonuclear leucocytes

The ability of bovine polymorphonuclear leucocytes (PMN) to release H2O2 was investigated. Resting PMN suspended in buffer released only small amounts of H2O2 which was appreciably increased during phagocytosis of heat killed coliforms. However, in the presence of bovine serum (BS), foetal calf serum (FCS) and milk whey (MW) no increase of H2O2 could be detected unless sodium azide (NaN2) was added. It appears that the enzyme content of these fluids (catalase and lactoperoxidase) consumed the released H2O2 and NaN2, which inactivates these enzymes, abolished this interference. Live organisms required BS or MW both for phagocytosis and for H2O2 production. Bovine IgG2 and, to a lesser extent, IgG1 but not SIgA or IgM stimulated the release of H2O2 independently of phagocytosis; this indicates the presence of receptors specific for IgG2 and IgG1 on the cell surface. Ingestion of casein micelles triggered the greatest burst of H2O2 production by cells suspended in buffer. In general, PMN isolated from blood were more active than cells isolated from milk. Since the extracellular release of H2O2 reflects the intracellular level of H2O2, the lower metabolic activity of milk PMN may contribute to the lesser intracellular bactericidal activity of milk leucocytes. The possibility that the release of H2O2 may activate extracellularly the lactoperoxidase system, known to be bactericidal in milk, is discussed.     

Separation and purification of a potent bactericidal/permeability-increasing protein and a closely associated phospholipase A2 from rabbit polymorphonuclear leukocytes. Observations on their relationship.

Two antibacterial proteins from rabbit polymorphonuclear leukocytes, a potent bactericidal cationic protein that increases the envelope permeability of susceptible gram-negative bacteria and a phospholipase A2, have been purified to near homogeneity by ion exchange, gel filtration, and hydrophobic interaction chromatography. The apparently noncatalytic bactericidal/permeability-increasing protein has an approximate molecular weight of 50,000 and is isoelectric at pH 9.5 to 10.0. The molecular properties, including amino acid composition, and the antibacterial potency and specificity of this rabbit leukocyte protein and of the bactericidal/permeability-increasing protein from human granulocytes that we have recently purified (J. Biol. Chem. 253, 2664-2672, 1978) are closely similar. Both proteins kill several strains of Escherichia coli and Salmonella typhimurium. Rough strains are more sensitive than smooth strains. All gram-positive bacterial species tested are insensitive to high concentrations of either rabbit or human protein. The phospholipase A2, purified by hydrophobic interaction chromatography on phenyl-Sepharose, ran as a single band on sodium dodecyl sulfate-polyacrylamide gel electrophoresis with an apparent molecular weight of 14,000 and had a specific enzymatic activity comparable to that of purified phospholipases A2 from other sources. Separation of the phospholipase A2 from the bactericidal/permeability-increasing protein has no noticeable effect on the bactericidal and permeability-increasing activities of the purified bactericidal protein, but removes the ability of the phospholipase A2 to hydrolyze the phospholipids of intact Escherichia coli. Upon recombination of the phospholipase A2 with the bactericidal/permeability-increasing protein, the phospholipase A2 regains its activity toward the phospholipids of intact E. coli suggesting that these two antibacterial leukocyte proteins act in concert.     

Adverse Effect of Ammonium Salts on the Antibacterial Activity of Paraformaldehyde Solutions

The antibacterial activity of aqueous solutions of paraformaldehyde in concentrations from 0.1 to 0.4% (w/v) is bacteriostatic rather than bactericidal in the presence or absence of ammonium chloride. The presence of ammonium chloride significantly lengthened the time of exposure to paraformaldehyde necessary for inhibition of growth of the test organism (Staphylococcus aureus FDA 209) when unbuffered solutions were used. Elevation of the pH of the reacting mixture of paraformaldehyde and ammonium chloride by partial buffering lengthened the time of exposure necessary for inhibition of growth of the test organism. Decrease of antibacterial activity was concomitant with the disappearance of paraformaldehyde from the reacting mixture. The reaction of paraformaldehyde with ammonium chloride was rapid at room temperature (25 C) and at pH levels near neutrality. The fate of the reacting paraformaldehyde, including the possibility of the formation of hexamethylenetetramine or methylenimine, is discussed with particular reference to loss of antibacterial activity.     

The influence of temperature and organic matter on the bactericidal activity of short-chain organic acids on salmonellas.

Acetic and lactic acids and BioAdd, a commercial preparation of formic and propionic acid, were tested at a concentration of 0.1% (w/w) at 20, 30, 40 and 50 degrees C and in the presence of organic material for bactericidal activity against Salmonella serotype Kedougou. BioAdd was the most active of the solutions at all temperatures, followed by lactic acid and acetic acid. The presence of horse blood at all four temperatures, and milk and serum at 50 degrees C, did not greatly affect the antibacterial activity of the acids although yeast extract (50 degrees C) provided some protection for the salmonella. Acid activity was related to low pH values although the bactericidal activity of acetic acid with blood and milk was greater than the unadulterated acid even though the pH was 0.4 units higher.     

Enhanced killing of Pseudomonas aeruginosa by human polymorphonuclear leukocytes in presence of subinhibitory concentrations of carbenicillin and ticarcillin

The effect of carbenicillin and ticarcillin on the killing of Pseudomonas aeruginosa was studied with an in vitro system using peripheral blood polymorphonuclear (PMN) leukocytes collected from human donors. No corticosteroid was given to the donor prior to leukocytes collection by a continuous flow cell separator. The assay was carried out with or without serum. P. aeruginosa yield after a 4 hour-incubation was estimated by colony counting. In Hanks' balanced salt solution, P. aeruginosa strains 74 and 78 were resistant to human PMN leukocytes. The presence of subinhibitory concentrations of carbenicillin or ticarcillin (1/10th the minimal inhibitory concentration (MIC) for P. aeruginosa 74, 1/4th the MIC for P. aeruginosa 78) enhanced the bactericidal activity of human leukocytes. Difference between the numbers of bacteria recovered with PMN cells and without cells increased with concentration of carbenicillin or ticarcillin. The synergistic effect was not observed when serum (heated fetal calf serum or heated pooled human serum) was used. The mode of action of carbenicillin and ticarcillin on bactericidal activity of phagocytic cells was not elucidated, but we suggest the effect is due not to action on the phagocytic cells themselves but on the microorganisms.