Maria Rosa Soranzo

VAMP-8 segregates mast cell preformed mediator exocytosis from cytokine trafficking pathways

Inflammatory responses by mast cells are characterized by massive exocytosis of prestored granular mediators followed by cytokine/chemokine release. The vesicular trafficking mechanisms involved remain poorly understood. Vesicular-associated membrane protein-8 (VAMP-8), a member of the soluble N-ethylmaleimide-sensitive factor (NSF) attachment protein receptor (SNARE) family of fusion proteins initially characterized in endosomal and endosomal-lysosomal fusion, may also function in regulated exocytosis. Here we show that in bone marrow-derived mast cells (BMMCs) VAMP-8 partially colocalized with secretory granules and redistributed upon stimulation. This was associated with increased SNARE complex formation with the target t-SNAREs, SNAP-23 and syntaxin-4. VAMP-8-deficient BMMCs exhibited a markedly reduced degranulation response after IgE+ antigen-, thapsigargin-, or ionomycin-induced stimulation. VAMP-8-deficient mice also showed reduced plasma histamine levels in passive systemic anaphylaxis experiments, while cytokine/chemokine release was not affected. Unprocessed TNF accumulated at the plasma membrane where it colocalized with a VAMP-3-positive vesicular compartment but not with VAMP-8. The findings demonstrate that VAMP-8 segregates secretory lysosomal granule exocytosis in mast cells from cytokine/chemokine molecular trafficking pathways.

Incidence of myeloperoxidase deficiency in an area of northern Italy: histochemical, biochemical and functional studies

Forty‐five subjects with a complete deficiency of myeloperoxidase were identified in an area of the region Friuli‐Venezia Giulia in north‐eastern Italy using the Hemalog D system as the screening technique. Histochemical and biochemical tests performed on the leucocytes of some of these subjects confirmed the defects shown by the Hemalog D system. The defect was of genetic origin in seven subjects. The genetic origin could be suspected in another eight subjects since more than two affected members were present in a given family. Eosinophil peroxidase, which is present in MPO deficient subjects, interfered with the guaiacol assay of MPO, and in several cases masked the genetic transmission. An assay was developed using o‐dianisidine as the electron donor which considerably reduced the interference by EPO. With this assay an autosomal recessive pattern of inheritance was found. The MPO deficient leucocytes had a higher respiratory burst than control cells and an impaired bactericidal activity, at early post‐phagocytic periods, which became comparable to that of control cells at later stages. Particle ingestion by the MPO‐deficient cells was normal.

Differences between Monocyte-Derived and Tissue Macrophages

The bone marrow origin of monocytes has been proven, and it is widely accepted that, in vivo, monocytes are the antecedents of the macrophages occurring in inflammatory processes (16). Under in vitro conditions too, monocytes can differentiate into macrophages undergoing morphologically, cytochemically, and biochemically detectable changes similar to those found in vivo (9). Although it has been repeatedly stressed that tissue macrophages, both free and fixed, also derive from blood monocytes (17), this assumption has not been definitely proven. In fact, the study of the fate of blood monocytes in the tissues has been seriously hampered by the lack of reliable criteria for the identification of monocyte-derived macrophages and tissue macrophages. Recently (12), characteristic differences were found in the distribution and nature of perioxidatic (PO) activity between monocytes on the one hand and tissue macrophages, such as those in the peritoneal cavity and liver, on the other. Evidence was also obtained that monocyte-derived macrophages can retain the PO-activity of the monocytes and thus could be distinguished from the resident macrophages (10). The conclusion was drawn that two types of macrophages exist: exudate and resident macrophages, the former being directly derived from monocytes. To verify this conclusion, monocytes isolated from the peripheral blood of normal mice were cultivated in intraperitoneally installed diffusion chambers. In addition, macrophages from the unstimulated peritoneal cavities of mice as well as monocytes in saline-induced peritoneal exudates were studied with respect to the distribution of PO-activity.

Uptake of human eosinophil peroxidase and myeloperoxidase by cells involved in the inflammatory process

We have recently shown that human neutrophils bind and internalize human eosinophil peroxidase (EPO) but not myeloperoxidase (MPO). In the present work, we studied the interactions of human EPO and MPO with other cells that may be involved in the inflammatory process, i.e., lymphocytes, monocytes, platelets, fibroblasts, and endothelial cells. The results indicate that EPO is bound by all the cell types considered, but is efficiently internalized only by lymphocytes, monocytes, and endothelial cells. Conversely, MPO binds appreciably only to fibroblasts and endothelial cells, although with a lower affinity than EPO, but its internalization by any of the cell types studied is hardly detectable. Furthermore, both peroxidases bind strongly to collagen fibers, whereas only EPO binds to elastin. The results suggest that EPO, owing to its high cytophilia, exerts its biological activity close to the site at which it is released from the eosinophil.

Studies on the Interaction between Macrophages and Leptospires

Guinea-pig macrophages exerted no bactericidal activity against either a virulent or a saprophytic strain of leptospira during a 120 min period of contact at 37 degrees C. However, the same macrophages exhibited weak phagocytic powers towards these two strains of leptospira over a similar period of time.

A simple reliable assay for myeloperoxidase activity in mixed neutrophil-eosinophil cell suspensions: Application to detection of myeloperoxidase deficiency

Quantitation of myeloperoxidase (MPO) activity by guaiacol peroxidation (GP) assay is profoundly affected by the peroxidase present in eosinophils (EPO) that contaminate the granulocyte suspensions. Inclusion of 3-amino-1,2,4-triazole (AMT) in the GP assay permits quantitation of MPO activity in mixed neutrophil-eosinophil suspension because of the differential inhibition of EPO and MPO by AMT. Results show that: (1) the peroxidase activity of eosinophil-free granulocyte suspensions is not appreciably affected by AMT; (2) in the presence of AMT the peroxidase activities of granulocyte preparations containing different numbers of eosinophils are similar on a neutrophil basis, regardless of the number of eosinophils and correspond with the activity of eosinophil-free granulocyte suspensions; (3) AMT almost completely inhibits the activity of partially purified EPO, only slightly affecting the catalytic activity of partially purified MPO; (4) AMT completely inhibits the residual peroxidase activity of granulocyte suspensions from MPO-deficient subjects contributed by contaminating eosinophils. The GP assay in the presence of AMT was used to study the pattern of hereditary transmission of MPO deficiency. The genealogy derived on the basis of this assay was compatible with an autosomal recessive inheritance, in agreement with previously reported results, while no definite pattern of inheritance could be established by use of the GP assay without AMT. We suggest that the GP assay supplemented with AMT is the method of choice for detection of MPO deficiency, particularly partial deficiency.

Ultrastructural damage to heart tissue from repeated oral exposure to yessotoxin resolves in 3 months

Yessotoxin (YTX), an algal toxin contaminating edible shellfish, was previously shown to induce ultrastructural changes in some cardiac muscle cells of mice after acute (1 and 2mg/kg) or daily repeated oral exposure (1 and 2mg/kg/day, for 7 days). Therefore, the temporal evolution of the ultrastructural myocardial alterations and the development of other signs of toxicity induced by a repeated daily oral administration of YTX (1mg/kg/day, for 7 days) to mice were evaluated within 3 months after the treatment. Symptoms, food consumption, body weight, gross pathology and histopathology of the main organs and tissues were observed, and plasma levels of transaminases, lactate dehydrogenase, creatinine and creatinine phosphokinase were measured. Heart, liver, kidneys and cerebellum were also analysed by transmission electron microscopy. In addition, the blood concentration of YTX was determined by a direct enzyme linked immunosorbent assay (ELISA) 24h after the last toxin administration. No mortality or other treatment-related changes, including histological or hematoclinical parameters, were recorded in mice administered with YTX. Similarly, electron microscopy did not reveal any ultrastructural alteration in the liver, kidneys, and cerebellum associated with YTX treatment. In contrast, changes in cardiac muscle cells near to the capillaries (clusters of rounded mitochondria and disorganization of myofibrils) were observed 24h after the treatment. These changes were also noted 30 days after the toxin administration, while after 90 days no differences in cardiac muscle cells between control and YTX-treated mice were observed, which indicated a recovery of the ultrastructural alterations induced by the toxin.

Human eosinophil peroxidase induces surface alteration, killing, and lysis of Mycobacterium tuberculosis.

ABSTRACT The antimycobacterial role of eosinophil peroxidase (EPO), one of the most abundant granule proteins in human eosinophils, was investigated. Our data indicate that purified EPO shows significant inhibitory activity towards Mycobacterium tuberculosis H37Rv. On a molar basis, this activity was similar to that exhibited by neutrophil myeloperoxidase (MPO) and was both dose and time dependent. In contrast to the activity of MPO, which requires H2O2, EPO also exhibited anti-M. tuberculosis activity in the absence of exogenously added peroxide. Morphological evidence confirmed that the mechanism of action of EPO against mycobacteria differs from that of MPO. While MPO kills M. tuberculosis H37Rv exclusively in the presence of hydrogen peroxide, it does not induce morphological changes in the pathogen. In contrast, EPO-treated bacteria frequently had cell wall lesions and eventually underwent lysis, either in the presence or in the absence of H2O2.

Mast cell activation by myelin through scavenger receptor.

A role for mast cells (MC) in the pathogenesis of multiple sclerosis (MS) has been suggested, based on the analysis of human lesions and on an animal model of the disease (EAE). What role MC play in the development of MS is not well understood. We hypothesized that the link connecting MC with demyelinating diseases may be represented by their interaction with myelin. Here we show that myelin can activate mast cells. This process could be a key event in the mast cell function required for inducing EAE in mice and possibly in MS in man.

Involvement of Munc18 isoforms in the regulation of granule exocytosis in neutrophils

Human neutrophil granule exocytosis mobilizes a complex set of secretory granules. This involves different combinations of soluble N-ethylmaleimide-sensitive factor attachment protein receptor (SNARE) proteins to facilitate membrane fusion. The control mechanisms governing the late fusion steps are still poorly understood. Here, we have analyzed SNARE-interacting Sec1/Munc18 (SM) family members. We found that human neutrophils express Munc18-2 and Munc18-3 isoforms and that Munc18-2 interacts with the target-SNARE syntaxin 3. Munc18-2 was associated preferentially with primary granules but could also be found with secondary and tertiary granules, while Munc18-3 was majorily associated with secondary and tertiary granules. Ultrastructural analysis showed that both Munc18-2 and Munc18-3 were often located in close proximity to their respective SNARE-binding partners syntaxin 3 and syntaxin 4. Both isoforms were also found in plasma membrane fractions and in the cytosol, where they associate with cytoskeletal elements. Upon stimulation, Munc18-2 and Munc18-3 redistributed and became enriched on granules and in the plasma membrane. Munc18-2 primary granule exocytosis can be blocked by introduction of Munc18-2-specific antibodies indicating a crucial role in primary granule fusion. Our results suggest that Munc18-2 acts as a regulator of primary granule exocytosis, while Munc18-3 may preferentially regulate the fusion of secondary granules.