Biochemistry of phagocyte chemotaxis

Comparative study of peritoneal macrophage functions in mice receiving lethal and non-lethal doses of LPS

In previous studies, we have observed changes in several functions of peritoneal macrophages from female BALB/c mice with lethal endotoxic shock caused by intraperitoneal injection of Escherichia coli O55:B5 lipopolysaccharide (LPS; 100 mg/kg), which were associated with a high production of superoxide anion and tumor necrosis factor alpha (TNF-α). In the present work, both a lethal dose (250 mg/kg) and a non-lethal dose (100 mg/kg) of LPS were used in female Swiss mice. In peritoneal macrophages, the following functions were studied at 2, 4, 12 and 24 h after LPS injection: adherence to substrate, chemotaxis, ingestion of particles, and superoxide anion and TNF-α production. In both groups, the results showed a stimulation of adherence, ingestion and superoxide production as well as a decrease of chemotaxis, whereas TNF-α could not be detected in either of the two groups. These effects were more evident with the 250 mg/kg dose, especially as regards superoxide anion production, which was higher in the animals treated with a lethal dose of LPS.

Concentration and preliminary characterization of a chemical attractant of the oyster drill,Urosalpinx cinerea

Predatory muricid gastropods,Urosalpinx cinerea, respond to specific chemical stimuli by creeping upcurrent. Attractant substances originate from living barnacles. Newly hatched snails have no prior predatory experience but respond strongly to attractants. We report here methods for rapidly extracting and desalting attractants from seawater. Attractants from living barnacles are relatively large, at least partially proteinaceous, heat-stable molecules (> 1000 but < 10000 dallons) that adsorb onto Amberlite XAD-7, a polyacrylate water purification resin, at neutral pH. Attractants remain adsorbed to the resin during a wash with deionized water and can be eluted in a small volume with 100% methanol. Attractant substances are effective in the bioassay in μg/liter concentrations (octa- to nanomolar range). Potency is destroyed by nonspecific proteases (carboxy-peptidase and pronase) but not by trypsin. Attractant is not sequestered within barnacles.

Chemoattractants in fibrotic disorders

Fibrosis represents an excessive deposition of connective tissue which impedes the normal functions of an organ or tissue. The mechanisms leading to this increased deposition of connective tissue may be similar to those occurring in normal wound repair. We have previously shown that the repair process involves the migration of connective tissue cells to the site of injury and their subsequent proliferation. One of the principal factors controlling these events appears to be the platelet-derived growth factor (PDGF). PDGF acts as a potent chemoattractant and mitogen for connective tissue cells but not other cell types. In addition to PDGF, factors produced by monocytes and tissue macrophages also act as chemoattractants for connective tissue cells. These observations suggest that such activities may be abundant in areas of inflammation. In normal repair these factors would be present for a relatively short period of time, whereas in fibrosis the chronic inflammatory response could maintain a constant or repeated release of such factors. This would recruit additional connective tissue cells to the area of inflammation, changing the cellular composition of the affected organ or tissue, resulting in an expansive and permanent nodule of connective tissue.

Laminin expression by human periodontal ligament fibroblasts

Our previous study demonstrated that a laminin-like molecule produced by periodontal ligament fibroblasts (PLFs) induces gingival epithelial cell chemotaxis. The aim of this study was to identify the laminin isoforms that are expressed by PLFs. Proteins in PLF-conditioned medium from serum-free cultures were separated by gel filtration followed by gelatin-affinity chromatography to remove fibronectin. Protein expression of laminin isoforms was determined using Western blotting, and mRNA expression was examined by RT-PCR. Partially purified laminin evoked gingival epithelial cell chemotaxis, and this activity was blocked by anti-integrin alpha3, alpha6, and beta1 antibodies. Although RT-PCR analysis showed PLFs expressed laminin alpha1 to alpha5, beta1 to beta3, gamma1, and gamma2 chain mRNAs, the predominant laminin chains detected by Western blotting were alpha4, alpha2, beta1, beta2, and gamma1. These results suggest that PLFs secrete mainly laminin-8/9 (alpha4beta1gamma1/alpha4beta2gamma1) and laminin-2/4 (alpha2beta1gamma1/alpha2beta2gamma1). PLF-derived laminins may be involved in the pathogenesis and progression of periodontitis by inducing apical migration of epithelial cells in certain circumstances.

Ascorbic acid modulates in vitro the function of macrophages from mice with endotoxic shock

The toxic effects of oxygen radicals produced by immune cells can be controlled to certain degree by endogenous antioxidants because of their scavenger action. This control is specially important in a type of immune cell, i.e., the phagocyte, which produces oxygen-free radicals and uses antioxidants in order to support its functions. Antioxidants, such as ascorbic acid (AA), are free radical scavengers and improve the immune response. In the pathogenesis of endotoxic shock, a disease with high mortality caused by gram-negative bacterial endotoxin, the reactive oxygen species (ROS) produced by phagocytes have been implicated. In a previous study, we observed in peritoneal macrophages from BALB/c mice suffering lethal endotoxic shock caused by intraperitoneal (i.p.) injection of Escherichia coli lipopolysaccharide (LPS; 100 mg/kg) a high production of superoxide anion. Therefore, in the present work, we have studied the in vitro effect of AA, at different concentrations (0.001, 0.01, 0.1, 1 and 2.5 mM), on the various steps of the phagocytic process, i.e., adherence to substrate, chemotaxis, ingestion of particles and superoxide anion production of murine peritoneal macrophages obtained from BALB/c mice with that of endotoxic shock, at 2, 4, 12 and 24 h after LPS injection. The increased adherence, ingestion and superoxide anion production by macrophages from animals with endotoxic shock were lower in the presence of AA, reaching similar values to those of the control animals. The most effective AA concentration in cells from mice with endotoxic shock was 0.01 mM. These data suggest that AA can regulate the phagocytic process in endotoxic shock, principally decreasing free radical production and thus it could reduce endotoxic shock severity.

Modulation of murine macrophage function by N-acetylcysteine in a model of endotoxic shock

In previous studies we have observed changes in several functions of peritoneal macrophages from BALB/c mice with irreversible endotoxic shock caused by intraperitoneal injection of E. coli lipopolysaccharide (LPS) (100 mg/kg), which were associated with a high production of superoxide anion. Since antioxidants, such as N-acetylcysteine (NAC), are free radical scavengers that improve the immune response, in the present work we have studied different functions of peritoneal macrophages from BALB/c mice suffering the endotoxic shock above indicated and administered N-acetylcysteine (150 mg/kg i.p.) at 30 minutes after LPS injection. In the peritoneal macrophages obtained at 2, 4, 12 and 24 h after LPS injection, the following functions were studied: adherence to substrate, mobility, ingestion of particles, and production of superoxide anion and tumour necrosis factor (TNF alpha). The increase in adherence, ingestion and superoxide anion and TNF alpha production shown by macrophages from animals with endotoxic shock was counteracted by NAC injection. Moreover, the survival time of mice with endotoxic shock was increased in the presence of NAC. These data suggest that NAC, administered intraperitoneally, may be useful for the treatment of irreversible endotoxic shock by modulation of the function of macrophages with decreased superoxide anion and TNF alpha production and concomitant increase of survival time.

Pituitary adenylate cyclase-activating polypeptide (PACAP38) modulates lymphocyte and macrophage functions: stimulation of adherence and opposite effect on mobility

The effects of pituitary adenylate cyclase-activating polypeptide (PACAP38) in a concentration range from 10(-13) to 10(-6) M were studied, in vitro, on two functions of peritoneal rat lymphocytes and macrophages: adherence and mobility (spontaneous and chemotaxis). The results show that PACAP38 raised the adherence of the two cell types, increased the mobility of macrophages and decreased the mobility of lymphocytes. The maximal effects were observed at 10(-10) M in macrophages and at 10(-9) M in lymphocytes. Moreover, incubation with increasing concentrations of phorbol myristate acetate (PMA), a protein kinase C (PKC) activator, resulted in a progressive enhancement of adherence and chemotaxis of both macrophages and lymphocytes. In contrast, retinal, a PKC inhibitor, significantly decreased these capacities. Incubation of macrophages with both PMA and PACAP38 did not have a synergistic effect on chemotaxis and adherence whereas, with lymphocytes, adherence was increased and chemotaxis was partially decreased. On the other hand, incubation with forskolin (an enhancer of intracellular cyclic AMP [cAMP] levels) caused inhibition and stimulation of chemotaxis and adherence, respectively, in both cell types. PACAP38 prevented the inhibitory effect of forskolin on chemotaxis of macrophages but not of lymphocytes, whereas the simultaneous presence of PACAP38 and forskolin was synergistic for adherence of both peritoneal cells. In addition, PACAP38 was chemoattractant for macrophages but not for lymphocytes. Furthermore, a VIP receptor antagonist was able to partially reverse the modulatory effects of PACAP38 on lymphocytes, but not on macrophages. These data suggest that PACAP38 exerts its action through the binding to type I PACAP receptors and PKC activation in macrophages and through the elevation of intracellular cAMP levels by binding to type II PACAP receptors in lymphocytes. The present work reveals an additional link between neuropeptides and the immune system and suggests that the peptide PACAP modulates the immunological function of macrophages and lymphocytes.

Glucose-mediated alteration of cellular function in human periodontal ligament cells

Because diabetic patients are easily led to manifest severe periodontitis, we wanted to determine whether various glucose levels interfere with normal cellular function. Human periodontal ligament (PDL) cells were cultured in glucose-free medium, or in medium containing either 1100 mg/L of glucose (normal-glucose medium) or 4500 mg/L of glucose (high-glucose medium). Cells cultured in glucose-free medium changed their morphology from spindle-shaped to round, and incorporated trypan blue in a time-dependent manner. The incorporation rate was much faster in cells with shorter cell cycles than in those with longer cycles, suggesting the involvement of cell-cycle progression in cell death. However, fragmented DNA, which suggests apoptotic cell death, was not observed in these cells. We reasoned that initial cell rounding and detachment from the culture plate might be due to the conformational changes in cell-surface receptors to fibronectin, a major extracellular matrix for fibroblasts. Western blot analysis revealed that cells cultured in glucose-free medium lost their fibronectin receptor in a time-dependent manner. In addition, fibronectin receptor expression was much higher in cells cultured in high-glucose medium than in cells cultured in normal-glucose medium. Furthermore, the over-expression of the fibronectin receptor resulted in a suppressed chemotactic response of these cells to platelet-derived growth factor. On the basis of these data, it was hypothesized that a high glucose level induced over-expression of these receptors. This might be the mechanism by which a high glucose level compromises wound healing in diabetic patients and, at least in part, might be the reason diabetic patients are subject to severe periodontal destruction.

Periodontal ligament cells are chemotactic to fibroblast collagenase

Periodontal ligament (PDL) cell motility and the passage of PDL cells along a root surface are important components of tissue remodeling during periodontal regeneration. Proteolytic enzymes, including fibroblast collagenase, have been demonstrated to play an important role in tissue remodeling. Previous studies have shown that PDL cells chemotactically respond to a variety of matrix and growth factors. We therefore studied the effects of type I collagen fragments and fibroblast collagenase on PDL cell migration, since PDL cells have been shown to adhere preferentially to partially demineralized root surfaces with exposed type I collagen. Gingival epithelial cells were used as a control cell population. We report that PDL cells but not gingival epithelial cells preferentially migrate in a dose-dependent manner to both fibroblast collagenase and to type I collagen degradation products. Epithelial cell migration to fibroblast collagenase and type I collagen fragments was observed. Antibody to type I collagen inhibited the type I collagen fragment-mediated migration. Collagenase pre-treatment of PDL cells enhanced PDL cell migration to type I collagen fragments. In other assays, enzyme inhibitors were shown to decrease the collagenase-mediated PDL cell motility. Epithelial cells were shown to migrate preferentially to 92-kDa type IV collagenase and type IV collagen degradation products. Antibody to type IV collagen inhibited type IV collagen-induced epithelial cell migration. Taken together, these data suggest a role for collagenase in the fine control of PDL cell migration in tissue remodeling during periodontal regeneration.

Polymorphonuclear leukocyte chemotaxis induced by zinc, copper and nickel in vitro

Metallic dental restorations and prosthetic constructions are susceptible to corrosion in oral environment, resulting in the release of various heavy metal ions. Chloride salts of zinc, copper, nickel, chromium, iron and gold were tested for their ability to promote the migration of polymorphonuclear leukocytes (PMNs). Using a modified Boyden chamber assay for chemotaxis zinc, copper and nickel enhanced the migration of PMN cells in concentration range of 0.5-1.0 mM, whereas no augmentation in migratory activity was noted using chromium or iron. In contrast, an inhibition in migratory activity was observed in cells directed toward gold ions. Exposure of cells to zinc, copper or nickel ions induced an orientation reaction in leukocytes in a similar fashion as the polarization reaction induced by a potent peptide chemoattractant, N-formylmethionylleucylphenylalanine (fMLP), in these cells. Exposure of PMN cells to zinc or nickel in chemotactic concentrations stimulated the chemotaxis of these cells to fMLP 2-fold, whereas pretreatment of the cells with zinc prior to assay markedly decreased the subsequent chemotactic migration of the cells to this metal or to fMLP. The enhanced locomotion of PMN cells induced by zinc, copper or nickel ions was found to be in greater extent due to an increase in directed migration (chemotaxis) rather than an augmentation in random movement (chemokinesis) as assessed by Zigmond-Hirsch checkerboard analysis. These results suggest that zinc, copper and nickel ions attract leukocytes by inducing and promoting the chemotactic response in these cells, which may modulate the inflammatory response of host tissue around such metals.

Isolation, purification, and partial characterization of an autocrine periodontal ligament cell chemotactic factor

Periodontal ligament (PDL) cells are believed to play a critically important role in the regeneration of the periodontium. We have suggested that polypeptide growth factors can enhance periodontal regeneration by stimulating PDL cell chemotaxis and mitogenesis. This manuscript describes the identification of a novel chemotactic factor isolated from human PDL cells which we named PDL-CTX. PDL-CTX induces the directed migration of human PDL cells in vitro and was found to be a more potent chemotactic agent than other known growth factors. Additionally, PDL-CTX has no chemotactic effect on gingival fibroblasts or gingival epithelial cells. Both tryptic digestion and boiling abolished PDL-CTX's biological activity. The designed purification method included Mono-S cation exchange, heparin-sepharose affinity, and microbore reverse-phase HPLC. The purified factor has a relative molecular weight of approximately 7000 daltons based on sodium dodecyl sulfate (SDS) gel analysis. The amino acid composition and partial amino acid sequence were determined from HPLC-purified material. These were determined to be unique. Further investigation of the biological functions of PDL-CTX on PDL cells and other ligament cells should help improve our understanding of ligament repair.

Mitogenic and chemotactic responses of human periodontal ligament cells to the different isoforms of platelet-derived growth factor

A major focus of studies that center on regeneration of the periodontium is to determine the efficacy of the use of polypeptide growth factors. Platelet-derived growth factor has been reported to be a possible agent for clinical use. PDGF has various isoforms. Therefore, we decided to study the mitogenic and chemotactic responses of human periodontal ligament (PDL) cells to recombinant human PDGF-AB, AA, and BB. Addition of each isoform of PDGF to in vitro mitogenesis assays induced PDL cell proliferation in a dose-dependent manner. The maximum mitogenic effect was evident at the concentration of 100 ng/mL. In these assays, PDGF-BB was found to be the most potent mitogen. PDGF-AB elicited an intermediate response, and PDGF-AA was the least effective. The results of chemotaxis assays closely parallel those of the mitogenesis assays. PDGF-BB exhibited the most potent chemotactic effect. The maximal effect was observed at 10 ng/mL. The findings of these experiments indicate that PDGF-BB is more effective than the other isoforms in promoting mitogenesis and chemotaxis of PDL cells in vitro, and may therefore be a suitable ethical pharmaceutical for use in periodontal regeneration procedures.

Chemoattractant capacity of bombesin, gastrin-releasing peptide and neuromedin C is mediated through PKC activation in murine peritoneal leukocytes

Bombesin-like peptides have been recently shown to regulate immune functions. In the present work, we have studied their action as chemoattractants for murine peritoneal macrophages and lymphocytes. The results showed a significant increase in the number of cells that migrate when they are exposed to a gradient of bombesin, gastrin-releasing peptide (GRP) or neuromedin C (from 10(-8) to 10(-12) M). The most effective of the three neuropeptides studied was GRP, even more than formyl-Met-Leu-Phe peptide (FMLP), an established leukocyte chemoattractant. GRP action was mediated through specific cell receptors as it was significantly reduced in presence of a competitive and specific bombesin receptor antagonist. In the presence of retinal, a protein kinase C (PKC) inhibitor, the chemoattractant capacity of GRP was considerably reduced. In order to investigate further the mechanism of action involved in the GRP effect, we measured PKC activity. Peritoneal cells incubated with GRP experimented an increase in PKC activity to the same extent of that produced by the PKC activator phorbol myristate acetate (PMA). These data prove that bombesin-like peptides are potent chemoattractants for murine peritoneal macrophages and lymphocytes, and that their action is at least in part mediated through PKC activation.

Vasoactive intestinal peptide modulation of adherence and mobility in rat peritoneal lymphocytes and macrophages

In this work, the effects of vasoactive intestinal peptide (VIP) in a concentration range from 10(-13) to 10(-7) M were studied in vitro on two common activities of peritoneal rat lymphocytes and macrophages: adherence and mobility (spontaneous and chemotaxis). The results show that VIP stimulated the adherence of the two cells studied, and increased the macrophage mobility but decreased this activity in lymphocytes. Moreover, a specific protein kinase C (PKC) activator such as phorbol myristate acetate (PMA, 50 ng/ml) also stimulated significantly the adherence and chemotaxis of both macrophages and lymphocytes. By contrast, a PKC inhibitor, retinal (2 x 10(-5) M), decreased significantly these capacities. Macrophages incubated with both VIP and PMA in relation to those incubated with VIP or PMA showed an increase in adherence and chemotaxis, whereas in lymphocytes adherence was also increased but chemotaxis decreased. The incubation with forskolin (10(-5) M), an enhancer of intracellular cAMP levels, produced an inhibitory effect of the chemotaxis activity in both types of cells. VIP prevented this inhibitory effect of forskolin in macrophages but not in lymphocytes. In addition, VIP was chemoattractant for macrophages but not for lymphocytes. The present study proves that VIP proves that VIP has a coronary effect on the two principal and representative types of immune cells in the rat peritoneum: lymphocytes and macrophages, stimulating macrophage chemotaxis through PKC activation and inhibiting lymphocyte chemotaxis through adenylate cyclase activation.

Isolation of human salivary polymorphonuclear leukocytes and their stimulation-coupled responses

A simple method was developed to isolate viable human salivary polymorphonuclear leukocytes (SPMN) from the oral cavity, and stimulation-coupled responses of these cells were examined. From morphological characteristics and the presence of neutrophil-specific annexin protein (39-kDa protein), we found that these cells seemed to be very similar to human peripheral polymorphonuclear leukocytes (PPMN), although they were in rather young stages. Stimulation-coupled responses of these cells were observed in terms of superoxide (O2.-) genration, luminol chemiluminescence response (LCL), membrane depolarization, and changes in intracellular calcium ion concentration ([Ca2+]i). The rates of superoxide generation by various stimuli, such as formylmethionylleucylphenylalanine (FMLP), phorbol 12-myristate 13-acetate (PMA) and opsonized zymosan (OZ) were different. Superoxide generation and strong chemiluminescence response were observed without addition of any stimuli. This endogenous LCL was inhibited by azide and superoxide dismutase (SOD), but not by uric acid (UA). The intensity of the endogenous LCL decreased with time after isolation from the oral cavity. This decrease was accompanied by the appearance of a FMLP-coupled response. Furthermore, the endogenous activity which produced active oxygen species was maintained in the medium at 4 degrees C for a long period after isolation. From these results, it is suggested that SPMN have the ability to show characteristic responses to various stimuli, and that SPMN play important roles in the defense mechanisms in the oral cavity.

Analysis of the monocyte chemotactic response to lysophosphatidylcholine: role of lysophospholipase C

Previously, we reported that lysophosphatidylcholine (lyso-PtdCho), a component of oxidized low-density lipoprotein, was a monocyte chemoattractant (M.T. Quinn et al. (1988) Proc. Natl. Acad. Sci. USA 85, 2805-2809). Monocyte chemotaxis was also stimulated by lyso-platelet activating factor but not by platelet activating factor itself. In the present studies, we used other analogs of lyso-PtdCho to determine structural and metabolic features required for chemotactic activity. Although both D- and L-lyso-PtdCho stimulated chemotaxis, suggesting a lack of stereospecificity, studies using propanediol and ethanediol analogs of lyso-PtdCho suggested that a free hydroxyl moiety or an ester-linked fatty acid vicinal to the phosphocholine group of the lysophospholipid was required for the expression of activity. Incubation of [3H]choline-labeled lyso-PtdCho with monocytes resulted in the formation of labeled PtdCho, glycerophosphocholine (GPC), phosphocholine, and free choline, while resident peritoneal macrophages, cells which we show do not respond chemotactically to lyso-PtdCho, metabolized the labeled substrate to generate only labeled PtdCho and GPC; no labeled phosphocholine was found, suggesting a possible role for lysophospholipase C activity in the monocyte chemotactic response. Although monoacylglycerol, the product of lysophospholipase C hydrolysis of lyso-PtdCho, was not chemotactic for monocytes, diacylglycerol demonstrated chemotactic activity, suggesting that the subsequent acylation to diacylglycerol may be involved in the monocyte chemotactic response to lyso-PtdCho. Indeed, monocytes incorporated [3H]glycerol from [3H]glycerol-labeled lyso-PtdCho into di- and triacylglycerol. Based on these results, a model is proposed whereby the monocyte chemotactic response to lyso-PtdCho involves a sequence of metabolic steps which includes hydrolysis of lyso-PtdCho to monoacylglycerol and phosphocholine by lysophospholipase C followed by acylation of monoacylglycerol to diacylglycerol. Diacylglycerol would then act as an intracellular second messenger that could activate or facilitate the chemotactic response.

Mechanisms of action involved in the chemoattractant activity of three beta-lactamic antibiotics upon human neutrophils

The effects produced by three beta-lactamic antibiotics (N-formimidoyl thienamycin or imipenem, cefmetazole and cefoxitin) in vitro on protein carboxylmethylation, cAMP and cGMP levels in human polymorphonuclear neutrophils were studied. These antibiotics (50 micrograms/mL) exhibited chemoattractant activity for phagocytic cells and produced a fast (0.5 min) and significant stimulation of protein carboxylmethylation. They also increased intraphagocytic cGMP levels although no changes in cAMP levels were observed. Since the involvement of the above-mentioned mechanisms in leukotaxis have been established, the stimulation of neutrophil chemotaxis by the three antibiotics studied could possibly be mediated by one or more of these mechanisms.

Elastin repeat peptides as chemoattractants for bovine aortic endothelial cells

Cultured bovine aortic endothelial cells migrate toward a concentration gradient of repeating elastin peptides, specifically the repeating nonamers Gly-Phe-Gly-Val-Gly-Ala-Gly-Val-Pro and Gly-Leu-Gly-Val-Gly-Ala-Gly-Val-Pro and the repeating hexamer Val-Gly-Val-Ala-Pro-Gly. Dose-response experiments demonstrate that the peak of activity occurs at 8 x 10(-8) M for the nonapeptides and 1 x 10(-8) M for the hexapeptide. Checkerboard assays establish that the movement is chemotaxis and not chemokinesis. Because of the concentration difference in the responsiveness between the nonapeptide and the hexapeptide, the cells can differentiate between the two types of repeats. The positive control for the chemotaxis studies was fibronectin.

Resistance to the Sterne strain of B. anthracis: phagocytic cell responses of resistant and susceptible mice

Inflammatory responses were compared in vivo, and host phagocytic cell functions compared in vitro, of mice resistant (CBA/J) and susceptible (A/J) to lethal infection with the Sterne strain of Bacillus anthracis. Polymorphonuclear leukocyte (PMN) and macrophage responses at the initial site of infection were slower in A/J mice than in CBA/J mice. Whereas in A/J mice, the number of PMN ultimately responding to infection was equal to, or greater than, that in CBA/J mice, fewer macrophages accumulated. A/J mice failed to clear relatively low doses of the organisms and died. In vitro, chemotactic responses to both serum- and bacteria-derived attractants were similar for macrophages from A/J and CBA/J mice but were reduced for PMN from A/J mice. PMN and macrophages from the two mouse strains phagocytosed and killed spores in vitro to a similar extent, although killing by A/J PMN could be blocked by prior uptake of large numbers of killed spores. Thus susceptibility to lethal infection with Sterne strain correlated with the delayed influx (PMN) and reduced accumulation (macrophages) of phagocytes at the initial site of infection, but not with defective in vitro uptake or killing of spores.

Interactions of cytoplasmic granules with microtubules in human neutrophils

Ultrastructural and functional studies of degranulation responses by human neutrophils have suggested that microtubules (MTs) have a role in the intracellular transport of neutrophil granules. We have found that granule-MT complexes can be isolated from disrupted taxol-treated (1.0 microM) neutrophils, visualized by electron microscopy, and quantified in terms of granules per MT length. After incubation of neutrophils with the chemotactic peptide N-formyl-methionyl-leucyl-phenylalanine (fMLP), granule-MT complex formation was found to be increased two- to threefold. Enhanced binding of granules to MTs was detectable within 30 s of fMLP stimulation and was dependent on the concentration of fMLP. Incubation of cells with dibutyryl cAMP inhibited this fMLP-stimulated granule-MT complex formation in a dose-responsive fashion. These granule-MT interactions could be reproduced in a cell-free system with neutrophil granules isolated by density gradient centrifugation and MTs polymerized from phosphocellulose-purified tubulin. Furthermore, reconstituted granule-MT interactions were found to be modulated by ATPase inhibitors. Sodium orthovanadate increased granule-MT interactions in a concentration-dependent manner, while AMP-PNP, a nonhydrolyzable ATP analogue, and N-ethylmaleimide decreased or eliminated these interactions. In addition, we found that a MT-activated ATPase could be recovered from intact neutrophil granules by salt extraction, and that extracts enriched in this ATPase contained a polypeptide of between 115 and 120 kD which binds ATP and is immunologically related to kinesin. These studies demonstrate that cytoplasmic granules interact with MTs in human neutrophils in a regulated stimulus-responsive manner, and they suggest that such interactions may involve an MT-based, ATPase-dependent, vesicle translocation system as has been demonstrated in other types of cells.

Functional homology of chemotactic methylesterases from Bacillus subtilis and Escherichia coli

The methylesterase enzyme from Bacillus subtilis was compared with that from Escherichia coli. Both enzymes were able to demethylate methyl-accepting chemotaxis proteins (MCPs) from the other organism and were similarly affected by variations in glycerol, magnesium ion, or pH. When attractants were added to a mixture of B. subtilis MCPs and E. coli methylesterase, the rate of demethylation was enhanced. Conversely, when attractants were added to a mixture of E. coli MCPs and B. subtilis methylesterase, the rate of demethylation was diminished. These effects are what would be expected if, in these in vitro systems, the MCPs determined the rate of demethylation. These data suggest that, although the enzymes are from evolutionarily divergent organisms and are different in size, they have considerable functional homology.

Synthetic peptide analogs to barnacle settlement pheromone

Barnacle pheromone enhances the rate of settlement and metamorphosis of larvae of Balanus amphitrite Darwin. Analogs to the heterogenous pheromone peptides were sought. Settlement assays were used to assess both the pheromone and the potential analogs. The pheromone has a lower threshold of activity at a concentration of 0.2 micrograms BSA protein equivalence l-1. Treatment with carboxypeptidase eliminates biological activity. Series of dipeptides were tested to determine if dipeptides could promote settlement. Combinations of acidic, neutral, and basic amino acids in dipeptides were examined. Specific small peptides can mimic barnacle pheromone. Only peptides with a basic carboxy-terminal amino acid and either a neutral or a basic amino-terminal amino acid enhance settlement. Six peptides were shown to mimic pheromone activity at concentrations comparable to the native molecule. Some peptides were more potent than others. The most effective peptides were L-leucyl-L-arginine and L-histidyl-L-lysine which had a lower threshold of settlement enhancement of 2.0 x 10(-10) M and caused a 130% increase in settlement rate at 2.0 x 10(-8) M. Glycyl-glycyl-L-arginine, glycyl-L-histidyl-L-lysine, L-leucyl-glycyl-L-arginine and L-tyrosyl-L-arginine had thresholds between 2.0 x 10(-8) M and 2.0 x 10(-9) M. Peptide pheromone analogs should be useful in determining the nature and mechanism of barnacle pheromone receptor interactions.

Chemotaxis of cells isolated from periodontal tissues to different biological response modifiers

Directed migration of many different cell types is necessary for uneventful wound healing to occur. From clinical periodontal regeneration procedures, it is commonly believed that periodontal ligament cells will be of critical importance in obtaining a new connective tissue attachment. Here we present data which indicate that extracellular matrix components (fibronectin) and polypeptide growth factors (FGF, TGF-a, and TGF-β) modulate the ability of periodontal ligament cells to express directed migration. These data indicate a potential role for matrix components and growth factors in clinical periodontal regenerative procedures.

Functional properties of a novel neutrophil chemotactic factor derived from human monocytes

Neutrophilic granulocytes (PMN) are attracted to sites of inflammation by chemotactic factors, the most potent of which are the complement split product C5a, the leukotriene B4 and the bacterial chemotactic factor-related tripeptide formyl-methionyl-leucyl-phenylalanine (FMLP). In addition to inducing directed migration, these agents increase the adherence of PMN to synthetic surfaces and endothelial cells; some stimulate an oxidative burst and the production of reactive oxygen derivatives, and they may be involved in the release of granule constituents. Here, we describe studies on the activities stimulated by a novel monocyte-derived chemotaxin (MOC). Human MOC attracted human PMN, but not monocytes or eosinophils. Like all chemotactic agents, it increased the adherence of PMN on nylon fibers. In contrast to other chemotactic factors it did not stimulate the release of superoxide anion regardless whether the cells were in suspension or adherent on nylon fibers. There was no release of the primary granule enzyme glucosaminidase or the secondary granule component vitamin B12-binding protein in the absence or presence of cytochalasin B. The results suggest that MOC is a unique chemotactic agent with properties different from the most potent chemotactic factors C5a, LTB4 and FMLP. The delayed release from macrophages suggests its involvement in protracted and chronic inflammatory reactions.

Effects of matrix proteins on rabbit corneal epithelial cell adhesion and migration

Extracellular matrix and basement membrane proteins are important in promoting the adhesion and migration of various cell types. Laminin and type IV collagen are found in basement membranes throughout the body while fibronectin is found associated with some basal lamina, in loose connective tissue, and in all body fluids. In the current study fibronectin, laminin, and type IV collagen were assessed to determine their effect on the adhesion and migration of dissociated rabbit epithelial cells. In a kinetic analysis fibronectin was found to be the most effective of the three proteins in promoting cell adhesion. Cell adhesion promoted by fibronectin could be modulated by an arg-gly-asp-ser (RGDS) peptide, a sequence which is found within the fibronectin molecule. In dose-response experiments type IV collagen effectively promoted cell adhesion at concentrations as low as 4 x 10(-16) moles per well in 96 well tissue culture plates. Type IV collagen was the most effective protein tested in promoting chemotactic and haptotactic migration. These proteins, proteolytic fragments, and peptides derived from them, could prove useful as therapeutic agents, modifying corneal epithelial phenotypic behavior in wound healing, corneal transplantation and following ocular surgery or trauma.

Neutrophil accumulation and cutaneous responses in experimental cutaneous candidiasis of genetically complement-deficient mice

Mice deficient in the fifth component of complement were studied for their ability to respond to and clear experimental cutaneous Candida albicans infections. The complement-deficient animals took longer to clear the infections and developed a significantly greater delayed hypersensitivity response to Candida than did normal animals. However, although the serum of the complement-deficient animals was incapable of generating in vitro chemotactic activity for neutrophils after appropriate stimulation, the epidermal neutrophilic infiltrate in the Candida-infected skin of these animals was equivalent to that in the normal animals. The progression of the infection, including the early relocation of the invading Candida pseudohyphae to a more superficial site in the stratum corneum and the thickening of the epidermis itself, was also similar in the complement-deficient and normal animals. Therefore, although mice lacking the fifth complement component cannot generate complement-derived serum chemotactic factors and are somewhat less efficient in clearing experimental cutaneous candidiasis, the accumulation of neutrophils in the Candida-infected skin of these animals and their initial cutaneous responses to the infections are normal.

Cholecystokinin and the immune system: receptor-mediated chemotaxis of human and rat monocytes

The ability of the peptide cholecystokinin (CCK) to induce monocyte chemotaxis was tested both in vivo and in vitro. In the in vitro assay, the activity of different forms of CCK on human monocytes was studied demonstrating the importance of sulfation on tyrosine for the chemotactic activity. CCK receptor antagonists benzotript and CR-1369 are able to block CCK 8 sulfated chemotaxis, thus suggesting the presence of CCK receptors on human monocytes. In both acute and chronic experiments, the peptide specifically increases the number of peritoneal macrophages, when injected into rat peritoneal cavity. These data suggest that immune system cell migration from one body compartment to another can be produced by a neuropeptide receptor-mediated process.

Inhibitory effect of sulfonated shale oils (ammonium bituminosulfonate) on the stimulation of neutrophilic granulocytes by the chemotactic tripeptide f-Met-Leu-Phe

Sulfonated shale oils (ammonium bituminosulfonate, ichthammol, Ichthyol), shown previously to induce the directed migration of human neutrophils in Boyden chambers and to inhibit the directed migration towards the chemotactic factors C5a, LTB4, and f-Met-Leu-Phe, were studied for their effect on other neutrophil functions, which are stimulated by chemotactic factors. Like other chemotactic factors ammonium bituminosulfonate increased the adherence of neutrophils to nylon fibers, but it did not induce the release of the primary granule enzyme glucosaminidase from cytochalasin B-treated cells and it did not stimulate the production of oxygen radicals as measured by lucigenin-dependent chemiluminescence if studied under nontoxic conditions. When added together with the chemotactic tripeptide f-Met-Leu-Phe, ammonium bituminosulfonate inhibited adherence augmentation, enzyme release, and oxygen-radical production induced by the chemotactic factor. The results indicate that ammonium bituminosulfonate not only inhibited chemotactic migration but the whole spectrum of neutrophil functions induced by a chemotactic factor.

Tumor cell autocrine motility factor

A cell motility-stimulating factor has been isolated, purified, and partially characterized from the serum-free conditioned medium of human A2058 melanoma cells. We term this activity "autocrine motility factor" (AMF). AMF has the properties of a protein with an estimated size of 55 kDa. At concentrations of 10 nM or less, AMF stimulated the random or directed motility of the producer cells. However, AMF is not an attractant for neutrophils. Amino acid analysis of the purified AMF protein revealed a high content of serine, glycine, glutamic acid, and aspartic acid residues. The activity of AMF was not replaced or blocked by known growth factors such as epidermal growth factor or type beta transforming growth factor. Mechanistic studies showed that AMF stimulated the incorporation of [3H]methyl into cell membrane phospholipids after incubation with [methyl-3H]methionine with a sustained increase in the methylation of phosphatidyldimethylethanolamine to phosphatidylcholine. In contrast, AMF did not affect the incorporation of [1,2-14C]choline into phosphatidylcholine. AMF was produced in large amounts by three different clones of ras oncogene-transfected metastatic NIH 3T3 cells but not by the nontransformed parental cells. AMF may play a major role in the local invasive behavior of tumor cells and may also facilitate the concerted invasion by groups of tumor cells.

Receptor-coupled activation of phosphoinositide-specific phospholipase C by an N protein

Cleavage of phosphatidylinositol 4,5-bisphosphate by phospholipase C results in the production of two important second messengers: inositol-1,4,5-trisphosphate and 1,2-diacylglycerol. Although several receptors promote this cleavage, the molecular details of phospholipase C activation have remained unresolved. In this study, occupancy of a Ca2+-mobilizing receptor, the oligopeptide chemoattractant receptor on human polymorphonuclear leukocyte plasma membranes, was found to lead to the activation of a guanine nucleotide regulatory (N) protein by guanosine 5'-triphosphate. The activated N protein then stimulated a polyphosphoinositide-specific phospholipase C by reducing the Ca2+ requirement for expression of this activity from superphysiological to normal intracellular concentrations. Therefore, the N protein-mediated activation of phospholipase C may be a key step in the pathway of cellular activation by chemoattractants and certain other hormones.

Human endothelial cells are chemotactic to endothelial cell growth factor and heparin

The response of human endothelial cell migration to various extracellular matrix components and growth factors has been assessed. Human endothelial cells demonstrate increased chemotaxis and chemokinesis when placed in a modified Boyden chamber with endothelial cell growth factor (ECGF) used at a concentration of 10(-9) M. Anti-ECGF antibody inhibits the chemotactic response. Heparin (10(-8) to 10(-10) M) was also chemotactic and was shown to potentiate the chemotactic activity of ECGF. Although laminin, fibronectin, the polypeptide (epidermal, fibroblast, and nerve) growth factors, and collagen types I, II, III, IV, and V demonstrate a chemotactic response, these activities were one third to one half less than observed with ECGF. These data suggest that ECGF and heparin may play a significant role as response modifiers of human endothelial cell migration which may be relevant to tumor metastasis, wound healing, and atherogenesis.

Demonstration of receptor-mediated chemotaxis by human spermatozoa. A novel quantitative bioassay

A novel in vitro technique is described for measuring the chemotactic activity of soluble substances for human spermatozoa. This new bioassay has demonstrated that the synthetic chemotactic peptide N-formyl-Met-Leu-Phe elicits a potent, specific (i.e., receptor-mediated) chemotactic effect on human spermatozoa with an EC50 of 3.2 X 10(-10) M. Quantitative chemotactic studies on human spermatozoa with nine N-formylated-peptide analogs have shown a rank order of peptide potency indistinguishable (p less than 0.001) from that obtained in binding and chemotactic studies with rabbit neutrophils. The competitive antagonist Boc (t-butoxycarbonyl)-Phe-Leu-Phe-Leu-Phe, 10(-6) M, completely inhibited the chemotaxis elicited by f-Met-Leu-Phe, 10(-9) M, and was able to shift by one order of magnitude the molar concentration required by f-Met-Leu-Phe-Phe and f-Met-Leu-Phe to elicit the maximal response. The ability of N-formylated peptides to function as sperm chemoattractants reveals a high degree of correlation with binding, chemotaxis, and lysosomal enzyme release previously employed to define the neutrophil chemotactic receptor. This first unequivocal demonstration of substances having a receptor-mediated chemotactic effect for human male gametes suggests that human spermatozoa may indeed have the ability to respond chemotactically to appropriate environmental signals.

Benzodiazepine receptor-mediated chemotaxis of human monocytes

Benzodiazepines, which are widely prescribed for their antianxiety effects, are shown to be potent stimulators of human monocyte chemotaxis. The chemotactic effects of benzodiazepine receptor agonists were blocked by the peripheral benzodiazepine receptor antagonist PK-11195, suggesting that these effects are mediated by the peripheral-type benzodiazepine receptor. Diazepam was also active in inducing chemotaxis. Binding studies on purified monocytes revealed high-affinity peripheral benzodiazepine receptors, and the displacement potencies of various benzodiazepines correlated with their relative potencies in mediating chemotaxis. The demonstration of functional benzodiazepine receptors on human monocytes, together with recent evidence of receptor-mediated monocyte chemotaxis by other psychoactive peptides (such as opiate peptides), suggests a biochemical substrate for psychosomatic communication.

A low-Mr chemoattractant for vascular endothelial cells

The formation of new blood vessels occurs by sprouting from previously existing microvasculature. The process involved directed migration of the vascular endothelial cells towards chemical signals released from the target tissue. We have used the Boyden chemotaxis chamber method to identify chemotactic signals for fetal bovine vascular endothelial cells. Human placenta organ cultures produce a high-Mr chemoattractant for the endothelial cells from which a low-Mr factor can be liberated with trichloroacetic acid treatment and ethanol extraction. This activity was isolated from extracts of human placenta using Sephadex LH-20, Amberlite XAD-2, and silica gel thin-layer chromatography. The Mr of the factor is less than 400, it is lipophilic and resistant to proteolytic enzymes. The factor induces chemotactic migration of both aortic endothelial cells and capillary endothelial cells from the retina, but has no effect on fibroblasts or leukocytes suggesting a specific function of the compound for the vascular endothelial cells.

Peptide fragments of laminin and fibronectin promote migration (haptotaxis and chemotaxis) of metastatic cells

The migration of tumour cells through basement membranes and extracellular matrices is an integral component of tumour invasion and metastasis. Laminin (LMN) and fibronectin (FN) at 1-100 micrograms/ml promote the directed migration of metastatic murine melanoma cells 40-70-fold greater than controls in modified Boyden chambers. Antibodies abrogated the migration of cells in response to the respective protein. Preincubation of melanoma cells with plasma FN had no effect on subsequent migration to LMN or FN. The migration of these cells was largely related to substratum-attached molecules and increasing adhesion gradients of cells; this has been termed haptotaxis. Peptide fragments of both FN and LMN were isolated by affinity chromatography with monoclonal antibodies, heparin or other constituents. FN has two unique domains, 80-125 K and 66 K, which promote the adhesion of tumour cells, whereas only one appeared to be responsible for promoting migration. Peptides of LMN, isolated with heparin and monoclonal antibody, define a cell migration-promoting activity within the 200 K chains of LMN. Serum spreading factor and epinectin, the latter an adhesion molecule derived from squamous epithelial tumour cells, are also capable of promoting the migration of malignant cells. Thus, directed migration of metastatic tumour cells may be promoted with peptide fragments of adhesion molecules and blocked with the respective antibody.

Opiate receptor-mediated chemotaxis of human monocytes

The opiate peptides, D-ala-D-leuenkephalin, beta-endorphin and dynorphin, [1-13] are potent stimulators of human mononuclear cell chemotaxis. Peak responses were observed in the range of 10(-8) - 10(-11)M with activity detectable at 10(-14)M. Morphine was without effect in this assay. Incubation of cells with (-) naloxone but not (+) naloxone completely blocked activity, supporting stereospecific opiate receptor-mediated chemotaxis. Opiates and other neuropeptides are discussed as components of a network whose purpose is to integrate brain and behavioral modalities with immune function.

Substance P receptor-mediated chemotaxis of human monocytes

The undecapeptide substance P (SP) was tested for its ability to promote human monocyte chemotaxis in a modified Boyden chamber assay. Substance P was found to be active in this assay system with an ED50 for chemotactic effect of approximately 10(-13) M. This response was shown to be chemotactic in nature since a concentration gradient of attractant was required for maximal effect. Other substance P analogs tested showed a rank order of potency of substance P greater than or equal to SP(3-11) greater than SP(8-11) approximately equal to SP(9-11) much greater than SP(1-9), SP, free acid. These results suggest that chemotactic responsiveness is largely encoded in the C-terminus of the molecule. The relative potency order for SP and its analogs in promoting monocyte chemotaxis correlates well with their potencies in displacing labeled SP when binding sites are directly measured in other tissues, such as rat brain or human lymphocytes. Additionally, the chemotactic effects of SP could be partially reversed by the weak antagonist [D-Arg1, D-Pro2, D-Trp7,9, Leu11]-SP. The N-formyl peptide receptor antagonist, t-Boc-Phe-Leu-Phe-Leu-Phe, did not block SP-mediated chemotaxis, further indicating the specificity of these effects. These results suggest the existence of a specific substance P receptor on human monocytes which directs this chemotactic response. The ability of monocytes to respond chemotactically to SP may be relevant to the enhancing effects of SP in arthritis or other inflammatory diseases.

The role of cell adhesion proteins--laminin and fibronectin--in the movement of malignant and metastatic cells

Metastasizing tumor cells must traverse diverse extracellular matrices during dissemination. Extracellular matrices consist of two basic types, interstitial stroma and basement membranes. Extracellular matrices are chemically complex structures that interact with cell surfaces by a number of mechanisms. There has been a great deal of effort in recent years to understand the molecular nature of extracellular matrices, especially as it relates to the adhesion of normal and malignant cell types. Adhesive noncollagenous glycoproteins, such as laminin and fibronectin, serve pivotal roles in basement membrane and stromal matrices, respectively. These proteins participate in establishing the architecture of extracellular matrices as well as in attaching to the surface of cells and affecting cellular phenotype. This phenotypic effect ranges from adhesion and motility to growth and differentiation. Changes in adhesive characteristics and motility of cells have long been suspected to play a role in mediating the spread of malignant neoplasms. This article is designed to review extracellular matrix constituents that are currently known that can mediate the adhesion and motility of malignant neoplasms. The adhesion of normal and malignant cells to matrices is a complex process mediated by several distinct mechanisms which are initially manifested by changes in cytoskeletal architecture. The topic of normal and malignant cell adhesion to matrices will also be discussed in this regard, since any explanation of tumor cell migration must account for the complex dynamic interactions of the cell surface with the substratum as well as with the cytoskeleton. Finally, current efforts designed to understand the molecular nature of tumor cell:matrix interactions that contribute to metastatic behavior will also be discussed. The rationale behind these studies is that selective inhibition of specific tumor:extracellular matrix interactions can provide an avenue for therapeutic intervention of metastatic cancer.

Localization of chemotactic peptide receptors on rabbit neutrophils

The chemotaxis of blood leukocytes is initiated by the binding of a chemoattractant to specific receptors on the leukocyte cell surface. Although a great deal is known about the biochemical and morphological events accompanying chemotactic activation, there is very little morphological information about the chemoattractant receptors themselves. This latter information is needed so that we may understand the mechanism by which these inflammatory cells detect and respond to chemical gradients. One class of chemotactic factors extensively used to characterize the complex behavioral responses following leukocyte activation are the synthetic formylmethionyl peptides. These peptides, now known to be the analogs of the naturally occurring N-terminal peptides produced by bacteria, are released into culture medium and are believed to be responsible, at least in part, for the accumulation of leukocytes at the sites of bacterial infection. We have localized the receptors for the chemotactic hexapeptide N-formylnorleucyl-leucyl-phenylalanine-norleucyl-[125I]tyrosyl-lys ine [N-fNle-Leu-Phe-Nle-[125I]Tyr-Lys] on whole rabbit peritoneal neutrophils (PMN) using light microscope autoradiography. By this method, the inherent formylpeptide receptor distribution on cells incubated at 4 degrees C appears to be uniform over the surface of both rounded and structurally polarized PMN. Following a short 37 degrees C incubation, cells retain a large proportion of labelled hexapeptide at or near the cell surface and, in addition, polarized PMN redistribute the hexapeptide anteriorly away from the cell uropod.

The effect of a sulfonated shale oil extract (Ichthyol) on the migration of human neutrophilic granulocytes in vitro

The sulfonated shale oil extract, Ichthyol, was studied for its effect on the migration of human neutrophilic granulocytes by the Boyden chamber technique. When presented to the cells in a concentration gradient, Ichthyol induced a directed migration. There was little or no chemokinetic effect of Ichthyol when added to the cell compartment of the Boyden chamber. The chemotactic migration towards the tripeptides, formyl-methionyl-leucyl-phenylalanine and formyl-norleucyl-leucyl-phenylalanine, towards the arachidonic acid-derived eosinophil chemotactic factor released from neutrophils by the ionophore A 23187, and towards complement-derived chemotactic activity of normal human serum was inhibited or abrogated by Ichthyol. The Ichthyol effect on f-MLP chemotaxis could be partly overcome by excessive f-MLP concentrations. It was reversible when Ichthyol-incubated cells were washed and resuspended in regular buffer. It is suggested that various substances contained in Ichthyol interacted with either the chemotactic factors or the cell membrane or both and thus blocked cell stimulation. The results could help to explain the cell accumulation and abscess formation observed with Ichthyol in inflammatory skin lesions and the anti-inflammatory properties of the drug.

Laminin and fibronectin promote the haptotactic migration of B16 mouse melanoma cells in vitro

The migration of tumor cells through basement membranes and extracellular matrices is an integral component of tumor invasion and metastasis. Laminin and fibronectin are two basement membrane- and extracellular matrix-associated noncollagenous glycoproteins that have been shown to promote both cell adhesion and motility. Purified preparations of laminin and fibronectin stimulated the directed migration of B16 murine metastatic melanoma cells in vitro as assessed in modified Boyden chambers. The stimulation of migration occurred over a concentration range of 1-100 micrograms/ml of laminin or fibronectin, with a peak response occurring between 12.5 and 25 micrograms/ml. The maximal response of these cells was 80-120-fold higher than control migration. Affinity-purified antibody preparations specifically abrogated the migration of these cells in response to the respective proteins. Tumor cells in suspension were preincubated in physiologic levels of plasma fibronectin prior to assay to partially mimic what occurs when a metastasizing cell is in the blood stream. This preincubation with plasma fibronectin had no effect on the subsequent migration of cells in response to either laminin or fibronectin. Furthermore, experiments using filters precoated with fibronectin or laminin indicated that these cells could migrate by haptotaxis to these two proteins. We conclude that tumor cell migration in response to such noncollagenous adhesive glycoproteins could be an important aspect in the invasion and metastasis of certain malignant cell types.

Adherence and migration of guinea pig granulocytes after enzyme treatment of the cell surface

Glycogen-induced polymorphonuclear granulocytes (PMN) from the peritoneal cavity of guinea pigs were examined (1) for their adherence to nylon fibers in the absence and presence of the adherence-enhancing chemotactic peptide formyl-methionyl-leucyl-phenylalanine (f-MLP), (2) for their random migration through the filter of a Boyden chamber and (3) for their chemotactic migration towards f-MLP. The cells were analyzed before and after treatment with the enzymes neuraminidase, papain and trypsin. PMN adhesiveness was increased by neuraminidase digestion but reduced by treatment with the proteolytic enzymes. Neuraminidase and trypsin had no effect on cell migration, while papain reduced random migration without affecting f-MLP-induced chemotaxis. The data suggest that the type of adherence measured by the nylon fiber method differs from the temporary attachment of cells migrating through a chemotaxis filter towards an attracting substance.

Generation of chemotactic activity in normal guinea pig serum by treatment with acid

Chemotactic activity was generated in normal guinea pig serum following titration of the pH to 4 by the addition of hydrochloric acid. The process was time and temperature dependent. The chemotactic material was stable when kept at pH 4, but decayed within one or two days when the pH was raised to neutrality. Fractionation of the acid-treated serum by Sephacryl S-200 gel filtration revealed two peaks of activity, one eluting with molecules larger than bovine serum albumin, the other in the 13,000 MW range. After heating the serum at 56 degrees C for 60 min no chemotactic activity could be generated by acid, while EDTA, EGTA, hydrazine and the enzyme inhibitors benzamidine, EACA, PMSF, and pepstatin, added to the serum prior to the addition of acid, had no effect. The results suggest that chemotactic factors, remarkably similar to the products of complement activation, could be generated in guinea pig serum by a mechanism differing from the classical or the alternative complement activation pathways.

Chemotaxis: basic aspects of methodology, mechanisms and pathology

This review is an attempt to discuss the basic conceptual tools that are a prerequisite for any clinical study of chemotactic defects. They include familiarity with definitions of common terms and with the merits and drawbacks of the several possible in vivo and in vitro assay methods. Cellular mechanisms involved in locomotion are complex. They include basic requirements for cell metabolism as well as receptor recognition, attachment to surfaces and contraction of the cytoskeleton of the cell. Of the many chemotactic factors reported, few are well characterized and universally agreed upon. Similarly, with the use of more stringent criteria, a number of clinical defects of chemotaxis have proven transitory or even artifactual.

Migration by haptotaxis of a Schwann cell tumor line to the basement membrane glycoprotein laminin

Laminin is a large (greater than 850-kdalton) glycoprotein that is localized within basement membranes. Recent work has indicated that this protein is present within the endoneurium of mouse sciatic nerve. Furthermore, it has been shown that a rat Schwannoma cell line, RN22F, produced laminin and that laminin promoted the attachment of these cells to bacterial plastic. This report presents evidence that RN22F cells migrate in vitro to laminin in a concentration-dependent fashion. Laminin was extracted from the mouse EHS tumor and purified by molecular sieve and heparin-agarose affinity chromatography. The migration of Schwannoma cells to laminin, as assessed in a microwell modified Boyden chamber, was inhibited in a dose-dependent manner by affinity-purified antilaminin antibody. Zigmond-Hirsch checkerboard analysis experiments indicated that laminin stimulated both random and directed movement of RN22F cells. Additionally, reversal of the laminin gradient in the chambers also stimulated RN22F migration in a concentration-dependent manner, suggesting that directed migration of RN22F cells was due to a substratum-bound laminin (haptotaxis) as opposed to cell movement in response to fluid-phase laminin (chemotaxis). Binding studies using [3H]laminin demonstrated that laminin bound to the filter surface under the assay conditions used, and support the contention that cells are migrating to substrate-bound material. Furthermore, RN22F cells were shown to migrate on filters coated with laminin in the absence of additional fluid-phase laminin. The magnitude of this response could be altered by changing the relative density of bound laminin. In contrast, fibronectin promoted only marginal migration of RN22F cells. Collectively, these observations indicate that haptotaxis may be a mechanism by which laminin may guide cells during development and raise the possibility that it may be involved in peripheral nervous system myelination.

Enhancement of chemotactic migration by the local anesthetic tetracaine

The local amine anesthetic tetracaine added to a suspension of guinea pig or human neutrophilic granulocytes inhibited their random migration in Boyden chambers, but increased their chemotactic migration towards the chemotactic tripeptide f-Met-Leu-Phe, complement-activated normal guinea pig serum, and the eosinophil chemotactic factor ECF. Tetracaine not only increased the distance migrated by the leading cells, it also caused more cells to leave the upper filter surface and to migrate into the filter. The effect required the presence of the drug; cells preincubated with tetracaine and washed did not differ from control cells. It is suggested that tetracaine specifically enhanced a mechanism operative in a cell's response to a concentration gradient of a chemotactic factor.