Experimental pneumococcal meningitis: III. Chemotactic activity in cerebrospinal fluid.

Chemotactic activity was assayed in CSF of rabbits with pneumococcal meningitis to further characterize the inflammatory response in this infection. CSF chemotactic activity was detected in increasing levels for 72 hr after infection. Activity was stable at 56 degrees and was inactivated by agents which denature proteins. Gel filtration demonstrated two chemotactically active fractions in infected CSF with mol wts of approximately 3000 and 11,000. Bacterial products appear to account for a portion of the observed CSF chemotactic activity, but the role of host factors remains to be clarified.     

Cells with natural killer activity in the cerebrospinal fluid of normal mice and athymic nude mice with acute Sindbis virus encephalitis

Sindbis virus causes an acute, nonfatal inflammatory encephalitis in weanling BALB/c mice. Mononuclear inflammatory cells are present in the cerebrospinal fluid (CSF) as well as in the parenchyma of the brain. Both aspects of this inflammatory response were eliminated by treatment with cyclophosphamide. Athymic nude (nu/nu) mice developed no inflammation in the brain, but did develop a CSF pleocytosis that peaked on day 2 after infection. The time course of the appearance of cells in the CSF was earlier in nu/nu mice than their heterozygote (nu/+) littermates. The pleocytosis in nu/nu mice reached a peak on day 2, whereas in nu/+ mice the peak was on day 4, as it is in normal BALB/c mice. To determine whether some of the CSF cells in nu/nu mice may be natural killer (NK) cells, NK activity was measured in a 4-hr assay by using a YAC-1 target cell. NK cell activity in the spleen and peripheral blood was induced by infection with Sindbis virus in nu/nu mice with a similar time course to that of nu/+ mice (peak 1 day after infection). CSF from nu/nu mice had NK activity present 2 days after infection that was greater than that present in either the peripheral blood or spleen. BALB/c and nu/+ mice had insufficient cells present for assay at day 2, but BALB/c mice had NK activity present in the CSF 3 and 5 days after infection that exceeded that in the peripheral blood or spleen. Brain interferon was detectable on day 1 in nu/nu mice, but not until day 2 in nu/+ mice even though the amounts of brain virus were the same in the two groups at all time points. It is concluded that cells with NK activity contribute to the CSF pleocytosis induced by acute Sindbis virus encephalitis.     

Group B streptococci inhibit the chemotactic activity of the fifth component of complement

Infection with group B streptococci (GBS) is associated with a poor acute inflammatory response in which neutrophils fail to localize at the site of invasion. In the present studies, we have examined the effects of group B streptococci on C-derived chemotactic activity in human serum. Fresh human serum was activated to form C5a and C5adesarg by incubation with zymosan. The activated serum was then incubated with group B organisms, centrifuged, and the supernatants tested for chemotactic activity for human polymorphonuclear leukocytes. Group B organisms caused a dose-dependent decrease in C-dependent chemotactic activity. The degree of inhibition was profound with 1 X 10(9) bacteria/ml (10% of control). Experiments indicated that significant chemotactic factor inactivation occurred within 2 min of exposure to GBS organisms, while maximal inhibition occurred after 30 min incubation. A number of different strains of GBS of types I, II, and III possessed inhibitory activity. In contrast, group D streptococci, Staphylococcus aureus, Escherichia coli and Klebsiella pneumoniae failed to inhibit the C-derived chemotactic activity in human serum. Group A streptococci that were M protein positive also inactivated C-dependent chemotactic activity in serum, as previously reported. The inhibitory activity of the GBS strains could be abolished by heat or trypsin treatment but not by neuraminidase, pronase, or pepsin. C5a levels in zymosan-activated serum as measured by RIA were not decreased after incubation with an inhibitory strain suggesting that absorption was not involved. SDS-PAGE analysis revealed that group B streptococci degrade the C5a molecule, increasing its electrophoretic mobility by removing a fragment with a m.w. of approximately 650 Da. Thus, one of the reasons for the poor inflammatory response at the site of GBS infection may reside in the ability of these pathogens to inactivate C-derived inflammatory mediators. The GBS C5a-ase activity probably serves as an additional virulence factor for these organisms contributing to the poor inflammatory response characteristic of group B streptococcal infection.     

Modulation of monocyte chemotactic function in inflammatory lesions. Role of inflammatory mediators

Monocyte recruitment and accumulation in the synovial tissue is pivotal in the evolution of rheumatoid arthritis (RA). In the present study we examined the chemotactic potential of monocytes obtained from synovial fluid (SF) of patients with RA. Functionally, SF monocytes exhibited greatly diminished chemotactic activity to C5a compared with monocytes from the peripheral blood. In contrast, their chemotactic responsiveness to the synthetic peptide, FMLP, was nearly normal. To define a mechanism for this differential chemotactic dysfunction, cell-surface receptors for C5a (C5aR) and FMLP (FMLP-R) were evaluated. Whereas FMLP-R expression was similar on both blood and inflammatory monocytes, C5aR expression was markedly reduced on SF cells. Because decreased C5a binding in certain RA SF samples could not be attributed to free C5a, known or suspected components of inflammatory SF were evaluated for their ability to modulate chemotactic ligand receptors. Bacterial products including LPS and streptococcal cell walls, which are potent monocyte activators, down-regulated C5aR without affecting FMLP-R. Moreover, the cytokines IFN-gamma and granulocyte-macrophage-CSF selectively decreased C5aR in parallel with decreased in vitro chemotactic activity to C5a. Thus, these data indicate that 1) synovial effusions may contain C5a and/or inflammatory mediators that modulate phenotypic and functional changes in monocytes, 2) chemotactic ligand receptors are independently regulated in inflammatory lesions, and 3) decreased C5aR expression and chemotactic potential likely provide a mechanism whereby monocyte-macrophages persist within the inflamed synovium.     

Production of neutrophil-specific lipid chemoattractant activity by cultured endothelial cells: heterogeneity dependent on species, ligand, or endothelial cell site of origin.

Previous studies have demonstrated that the interaction of cultured bovine aortic and pulmonary arterial endothelial cells and the proinflammatory vasoactive amines histamine, serotonin, and angiotensin II, causes production of three novel lipid neutrophil-specific chemoattractants that are distinct from other phospholipid or lipid neutrophil chemoattractants. In this study, we investigated the species and site specificity of this inflammatory response by incubating human aortic and pulmonary arterial endothelial cells with histamine, serotonin, and angiotensin II and assaying the supernatants for their effect on neutrophil migration. Each of these vasoactive amines caused production of neutrophil chemoattractant activity in a concentration dependent manner in both cell types. For each amine, production was blocked by a specific antagonist: cimetidine for histamine, methiothepin for serotonin-stimulated aortas, ketanserin for serotonin-stimulated pulmonary arteries, and saralasin for angiotensin II. In each case, all chemoattractant activity partitioned into the organic phase and resolution by HPLC yielded two chemotactic lipids. As with the lipid chemoattractants produced by bovine endothelial cells, these lipids did not coelute with PAF, LTB4, 5-HETE, or 15-HETE, nor did they increase lymphocyte or monocyte migration. The pattern of chemotactic activity following resolution by HPLC was similar in both human aortic and pulmonary arterial endothelial cells, but was different from that of bovine aortic and pulmonary arterial endothelial cells in that only two chemoattractant lipids appeared; the third chemotactic lipid was never produced. These studies demonstrate that human endothelial cells may actively participate in neutrophil enriched local inflammatory responses by production of neutrophil-specific chemotactic factors. They also suggest this response may be dissimilar depending on the site and species from which the endothelial cells originate.     

Cellular changes in bone marrow of malaria-infected mice. III. Chemotaxis of granulocytes

The number of bone marrow cells and their chemotactic activity was studied during malaria infection. Two days after infection of Balb/c mice with Plasmodium berghei, an increase in granulocyte number was observed in the blood. A modified Boyden chamber chemotaxis assay was employed to investigate the mechanism of granulocyte accumulation in the blood. Bone marrow cells from normal mice, from mice during a primary lethal infection and from immune mice after challenge were compared. The complement factor C5a showed chemotactic activity for bone marrow cells; a significant decrease of chemotaxis was only observed after 6 days of primary infection. Extracts of spleen, liver and infected erythrocytes lacked chemotactic activity, or caused inhibition of cell migration. Serum from mice with a 2-day primary infection contained chemotactic activity. The active component was heat labile, protease sensitive and had an estimated molecular weight of 250,000.     

Digestion of the fifth component of complement by eosinophil lysosomal enzymes. Production of eosinophil specific chemotactic activity

Recently our laboratory has shown that neutrophils contain enzymatic activity within their lysosomal granules which will generate chemotactic activity for neutrophils and tumor cells from the fifth component of complement (C5). We have now expanded this initial observation and have demonstrated that eosinophils can release enzymatic activity from their lysosomal granules upon stimulation with immune complexes or opsoninized zymosan, but not with C5a or synthetic chemotactic peptides. Furthermore, the enzymatic activity released from the eosinophil lysosomal granules can cleave C5 into eosinophil-specific chemotactic activity. The generation of the eosinophil chemotactic activities from C5 is blocked by prior treatment of the eosinophil preparations with a number of protease inhibitors. The eosinophil-derived C5 cleaving activity possesses a pH optimum of 7.2, thus suggesting the enzymatic activity is a neutral protease. The demonstration that enzyme activities derived from eosinophils have the ability to generate eosinophil chemotactic factor(s) from C5 may explain why eosinophils are the predominant inflammatory cell in both nasal polyps and in the nasopharynx and bronchi of patients with allergic conditions such as hay fever and asthma.     

Influenza virus-induced encephalopathy in mice: interferon production and natural killer cell activity during acute infection.

Mice injected intracerebrally with infectious influenza virus (60 hemagglutinin units) developed lethargy, seizures, comas, and died 2 to 5 days postinfection. As early as 6 h after infection, the cerebrospinal fluid (CSF) in these animals was infiltrated with polymorphonuclear cells, mononuclear leukocytes, and large granular lymphocytes. Potent natural killer (NK) cell activity was observed for both CSF and spleen cell populations over the same period. This NK cell activity correlated with interferon (IFN) levels in the CSF and serum. Treatment of lethally infected mice with either anti-IFN alpha-IFN beta or anti-ganglio-n-tetraoglyceramide antiserum ameliorated the disease, reduced mortality, and effected changes in the relative proportions of inflammatory cell populations infiltrating the CSF. The possible significance of IFN and NK cell activity in the development of this influenza virus-induced encephalopathy is discussed.     

Cell-Specific Expression of RANTES, MCP-1, and MIP-1α by Lower Airway Epithelial Cells and Eosinophils Infected with Respiratory Syncytial Virus

Respiratory syncytial virus (RSV) is the major cause of acute bronchiolitis in infancy, a syndrome characterized by wheezing, respiratory distress, and the pathologic findings of peribronchial mononuclear cell infiltration and release of inflammatory mediators by basophil and eosinophil leukocytes. Composition and activation of this cellular response are thought to rely on the discrete target cell selectivity of C-C chemokines. We demonstrate that infection in vitro of human epithelial cells of the lower respiratory tract by RSV induced dose- and time-dependent increases in mRNA and protein secretion for RANTES (regulated upon activation, normal T-cell expressed and presumably secreted), monocyte chemotactic protein-1 (MCP-1), and macrophage inflammatory protein-1α (MIP-1α). Production of MCP-1 and MIP-1α was selectively localized only in epithelial cells of the small airways and lung. Exposure of epithelial cells to gamma interferon (IFN-γ), in combination with RSV infection, induced a significant increase in RANTES production that was synergistic with respect to that obtained by RSV infection or IFN-γ treatment alone. Epithelial cell-derived chemokines exhibited a strong chemotactic activity for normal human blood eosinophils. Furthermore, eosinophils were susceptible to RSV and released RANTES and MIP-1α as a result of infection. Therefore, the inflammatory process in RSV-induced bronchiolitis appears to be triggered by the infection of epithelial cells and further amplified via mechanisms driven by IFN-γ and by the secretion of eosinophil chemokines.     

Generation of lipid neutrophil chemoattractant by irradiated bovine aortic endothelial cells

Radiation injury to blood vessels is associated with an acute inflammatory process. We investigated the capacity of cultured bovine aortic endothelial cells (BAEC) to produce chemotactic factors after radiation injury. BAEC in serum-free media were irradiated with a cobalt-60 Gammacell 220 and the cell supernatants were assayed for chemotactic activity for human neutrophils in a Boyden chamber. There was a rapid release of chemotactic activity into the BAEC supernatants which was dependent both on the dose of radiation (5 to 40 Gy) and the time between irradiation and sample collection. In contrast, isolation of BAEC lysates by freeze-thawing was not associated with the presence of similar chemotactic activity. The chemotactic activity released from the irradiated BAEC was not destroyed by boiling nor by treatment with trypsin. The release of the chemotactic activity was, however, inhibited by the addition of a lipoxygenase inhibitor but not by the addition of a cyclooxygenase inhibitor before the irradiation. The chemotactic activity was recovered from the cell supernatants in the lipid phase after extraction with chloroform/methanol. Furthermore, the chloroform/methanol extracts co-eluted with authentic leukotriene B4 when the BAEC were prelabeled with [14C] arachidonic acid. However, we were unable to detect endogenous leukotriene B4 with RIA. Instead, the only detectable endogenous lipid present in the supernatants was 13-hydroxyoctadecadienoic acid which is derived from linoleic acid via the lipoxygenase pathway. 13-Hydroxyoctadecadienoic acid, however, had no chemotactic activity. These findings suggest that endothelial cells rapidly release a chemotactic agent after irradiation, the release of which is associated with a lipoxygenase pathway. The release of this chemotactic activity may account in part for the acute inflammatory response that is observed after ionizing irradiation.     

Monokine-induced neutrophil chemotactic factor gene expression in human fibroblasts

Although fibroblasts are important in providing a structural framework for most tissues, they also appear to be active participants in the inflammatory process via the production of specific mediators. The production of inflammatory mediators by fibroblasts is especially important in relation to their strategic location within connective tissue as they may act as a cellular communication bridge between the interstitium and vasculature. In this paper, we demonstrate that fibroblasts may participate in these inflammatory reactions by the production of a neutrophil chemotactic factor (NCF) with characteristics similar to a recently isolated and cloned monocyte-derived NCF. Either tumor necrosis factor-alpha-, interleukin-1 alpha-, or interleukin-1 beta-stimulated fibroblasts showed both a time- and dose-dependent increase in steady-state levels of NCF mRNA and secretion of chemotactic activity. In contrast, lipopolysaccharide and interleukin-6 failed to induce fibroblast-derived NCF. The expression of fibroblast-derived NCF mRNA was first detectable by 30 min poststimulation, whereas chemotactic activity was significantly observed 3-4 h postchallenge. Heat-inactivated monokine (100 degrees C) failed to induce NCF mRNA expression, suggesting that only the active proteins are capable of inducing NCF. Gel filtration analysis using high pressure liquid chromatography indicated peak chemotactic activity with an approximate molecular mass of 8000 daltons. This peak of NCF activity was found to be relatively stable to both heat and trypsin inactivation. Specificity of the fibroblast-derived neutrophil chemotactic activity was demonstrated with inhibition of chemotaxis by the addition of neutralizing antibody directed against recombinant human neutrophil chemotactic factor. These data provide evidence that monokine-treated fibroblasts can synthesize a potent chemotactic agent with molecular and physicochemical characteristics similar to monocyte-derived NCF and that this factor may contribute to neutrophil-mediated disease processes.     

Eosinophils in the cerebrospinal fluid of mice infected with Angiostrongylus cantonensis are resistant to apoptosis

Interleukin-5 (IL-5) transgenic mice were used to assess the immunological features of CSF eosinophils from mice infected with Angiostrongylus cantonensis. CSF eosinophils were hypodense by day 14 post infection (p.i.). CSF eosinophils survived longer in vitro than peritoneal eosinophils collected from cadmium sulphate (CdSO₄) -treated normal IL-5 transgenic mice. Apoptosis was measured by Annexin V binding and the presence of a distinct laddering pattern of DNA fragmentation on agarose electrophoresis. Regardless of the presence or absence of Actinomycin D, CSF eosinophils collected from IL-5 transgenic mice from days 15–36 p.i. exhibited less apoptosis than peritoneal eosinophils collected from uninfected IL-5 transgenic mice. CSF eosinophils collected from A. cantonensis infected C57BL/6 mice at days 15–34 p.i. showed elongation of survival time and less apoptosis during in vitro cultivation. Reduced apoptosis was noted only in CSF eosinophils, but not in peritoneal eosinophils recovered from the same infected IL-5 transgenic mice. CPP32/Caspase 3 activity of cultured peritoneal eosinophils from both infected and uninfected IL-5 transgenic mice was higher than that of cultured CSF eosinophils. Stimulation with A23187 readily induced apoptosis of peritoneal eosinophils, but not CSF eosinophils or peritoneal eosinophils cultured with mouse recombinant IL-5. The latter cells were morphologically identical to hypodense eosinophils. RT-PCR analysis indicated that bcl-2 and bcl-x_L mRNA expression was higher in CSF eosinophils compared with peritoneal eosinophils and this expression in the latter cells was upregulated after culture with mouse recombinant IL-5. These results suggest that CSF eosinophils, shifting to hypodense status through an accumulation from peripheral blood, are resistant to apoptosis. These changes may explain the long-lasting, helminthotoxic and neurotoxic actions of CSF eosinophils in A. cantonensis infection.     

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

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

Schistosoma mekongi: a prominent neutrophil chemotactic activity of egg antigen with reference to that of Schistosoma japonicum

Schistosoma mekongi causes granulomatous lesions around eggs deposited in the liver with neutrophil-rich inflammatory reactions in the early stage of the egg laying. To define the aspects of the typical pathogenesis of S. mekongi infection, we determined the difference between soluble egg antigen (SEA) from S. mekongi and S. japonicum with a focus on chemotactic factors for neutrophils or eosinophils. Mean volume and protein amount of S. mekongi eggs was 71 and 58% of those of Schistosoma japonicum eggs, respectively. Neutrophil chemotactic activity of S. mekongi SEA was about two times higher than that of S. japonicum. In contrast, eosinophil chemotactic activity of S. mekongi SEA was about half of that of S. japonicum SEA. Molecular analysis revealed that S. mekongi SEA contains higher molecular-weight components with a lower level of glycosylation, and this is likely to be related to the intense neutrophil chemotactic activity in comparison with S. japonicum SEA. The prominent chemotactic reactivity for neutrophils is likely to be involved in the typical pathogenesis of mekongi schistosomiasis.     

Chemotactic response of splenic mononuclear cells to angiotensin II in murine schistosomiasis

Murine Schistosomiasis mansoni is a parasitic infection associated with a delayed-type hypersensitivity granulomatous reaction to the schistosome eggs. This reaction is characterized by the accumulation of mononuclear cells and other inflammatory cell types around the eggs. Granuloma macrophages produce angiotensin II (AII), which appears to have immunoregulatory function. By using an in vitro chemotaxis assay, this study demonstrated that AII is a chemotactic factor for splenic mononuclear cells derived from infected mice. The response was bimodal, with peak activities occurring at 10(-10) and 10(-6) M. AII was chemotactic for T lymphocytes, B lymphocytes, and a large population of unidentified mononuclear cells at the optimal chemotactic concentrations of the peptide. At high concentrations, AII was also chemotactic for phagocytic mononuclear cells. Sar1, ala8-AII, an analog of AII with antagonist activity, completely blocked AII-induced chemotaxis. A [3H]-AII binding assay revealed high-affinity specific binding on spleen cells. The binding was rapid, was dependent on radioligand concentration, and was reversible. These latter observations suggest that the chemotactic activity of AII for subpopulations of splenic mononuclear cells is mediated via AII receptors.     

Human C5a and C5a des Arg exhibit chemotactic activity for fibroblasts

C5a and C5a des Arg are chemotactic factors for inflammatory cells but it is not known whether these agents are chemoattractants for fibroblasts. Accordingly, C5a, purified from zymosan-activated human, and C5a des Arg, prepared by incubating C5a with immobilized porcine carboxypeptidase B, were studied for fibroblast chemotactic activity. We observed that both C5a and C5a des Arg stimulated human skin fibroblasts and fetal bovine ligament fibroblasts to migrate in a concentration-dependent fashion, and that the migratory responses were similar in magnitude to the responses achieved with optimal concentrations of two known fibroblast chemoattractants, platelet-derived growth factor and human fibrinopeptide B. The peak responses to C5a and C5a des Arg occurred at approximately 10(-9)M. With ligament fibroblasts, there was a greater response to C5a des Arg than to C5a, but with human fibroblasts there was no difference. Cochemotaxin, which enhances the chemotactic activity of C5a des Arg for neutrophils, had no effect on C5a des Arg fibroblast chemotactic activity but appeared to increase the fibroblast chemotactic activity of C5a. These results indicate that the effects of C5a and C5a des Arg in vivo may extend to the recruitment of mesenchymal cells. Moreover, the findings represent another example of an activity retained by C5a after removal of its carboxyl terminal arginine.     

Biphasic control of polymorphonuclear cell migration by Kupffer cells. Effect of exposure to metabolic products of ethanol

In order to investigate the role of the Kupffer cells in the regulation of the inflammatory reaction seen in alcoholic hepatitis, rat liver Kupffer cells were cultured and exposed to products of ethanol metabolism. The resultant supernatants were tested to study their ability to stimulate or inhibit polymorphonuclear cell chemotaxis. Kupffer cells produced increased chemokinetic activity for human polymorphonuclear leukocytes (84 +/- 6 vs. 61 +/- 4 randomly migrating cells per 5 high power fields; p less than 0.01); when incubated with soluble products of microsomal peroxidation, the Kupffer cells engendered more chemokinetic activity than that produced by untreated Kupffer cells (106 +/- 6 vs. 84 +/- 6 cells per 5 high power fields; p less than 0.05). When Kupffer cells were incubated with acetaldehyde, the chemokinetic activity that appeared in the supernatant did not differ from control (51 +/- 3 vs. 61 +/- 4 randomly migrating cells per 5 high power fields; p = NS). Chemotaxis of polymorphonuclear cells was not observed when the Kupffer cell supernatants were tested by checkerboard analysis. Kupffer cells released a factor which, at different concentrations, inhibited the response of polymorphonuclear cells to the synthetic polypeptide chemotactic factor f-met-leu-phe by 47% (p less than 0.001). This effect was unchanged when the cells were exposed to acetaldehyde or to soluble products of microsomal peroxidation. Our results demonstrate that Kupffer cells are capable of stimulating or inhibiting polymorphonuclear cell chemotaxis and that some of these effects may be influenced by the products of ethanol metabolism, suggesting that Kupffer cells may play an important role in the regulation of the inflammatory reaction seen in alcoholic hepatitis.     

Eosinophils in the cerebrospinal fluid of mice infected with Angiostrongylus cantonensis are resistant to apoptosis.

Interleukin-5 (IL-5) transgenic mice were used to assess the immunological features of CSF eosinophils from mice infected with Angiostrongylus cantonensis. CSF eosinophils were hypodense by day 14 post infection (p.i.). CSF eosinophils survived longer in vitro than peritoneal eosinophils collected from cadmium sulphate (CdSO₄) -treated normal IL-5 transgenic mice. Apoptosis was measured by Annexin V binding and the presence of a distinct laddering pattern of DNA fragmentation on agarose electrophoresis. Regardless of the presence or absence of Actinomycin D, CSF eosinophils collected from IL-5 transgenic mice from days 15–36 p.i. exhibited less apoptosis than peritoneal eosinophils collected from uninfected IL-5 transgenic mice. CSF eosinophils collected from A. cantonensis infected C57BL/6 mice at days 15–34 p.i. showed elongation of survival time and less apoptosis during in vitro cultivation. Reduced apoptosis was noted only in CSF eosinophils, but not in peritoneal eosinophils recovered from the same infected IL-5 transgenic mice. CPP32/Caspase 3 activity of cultured peritoneal eosinophils from both infected and uninfected IL-5 transgenic mice was higher than that of cultured CSF eosinophils. Stimulation with A23187 readily induced apoptosis of peritoneal eosinophils, but not CSF eosinophils or peritoneal eosinophils cultured with mouse recombinant IL-5. The latter cells were morphologically identical to hypodense eosinophils. RT-PCR analysis indicated that bcl-2 and bcl-x_L mRNA expression was higher in CSF eosinophils compared with peritoneal eosinophils and this expression in the latter cells was upregulated after culture with mouse recombinant IL-5. These results suggest that CSF eosinophils, shifting to hypodense status through an accumulation from peripheral blood, are resistant to apoptosis. These changes may explain the long-lasting, helminthotoxic and neurotoxic actions of CSF eosinophils in A. cantonensis infection.     

Polyester treatment in rats with a dorsal air pouch: chemotaxis in lavage fluid from the pouch]

Minced polyester threads introduced into peritoneal cavity of rats cause a granulomatous inflammation with evidence of macrophage stimulation. Chemotactic agents play an important role in the inflammatory reaction; they are released locally by cells involved in inflammation. In this paper the chemotactic effect of the peritoneal and subcutaneous air pouch fluids from rats bearing the polyester inflammatory process, have been studied on PMN cells "in vitro". The fluids were obtained by washing the cavity of untreated rats or rats injected with polyester, 7 days after the injection. The chemotactic response was assayed by employing modified chemotaxis Boyden chambers (Blind Well Neuro Probe) and polymorphonuclear cells from normal rats. Quantification of the migration was calculated by chemotactic index (A/B) (B = random migration, A = chemotaxis). The results demonstrate that a chemotactic activity is present in peritoneal and subcutaneous air pouch fluids following the inflammatory process. In conclusion the chronic inflammation determines the appearance of chemotactic factors for PMN cells, in the peritoneal cavity and in the air pouch, and the air pouch is a very convenient experimental system with the particular advantage that it permits easy repeated sampling of exudate during the course of an inflammatory response.