We obtained cell preparations containing >95% neutrophils from freshly drawn bovine blood. The cells were suspended in sucrose and disrupted in a Dounce homogenizer, and the postnuclear supernate was fractionated by zonal differential sedimentation and by isopycnic equilibration. The subcellular fractions were characterized biochemically by testing for marker enzymes and other constituents known to occur in azurophil and specific granules of other species, and by electrophoretic analysis of extracts of the particulate material. In addition, each fraction was examined by random-sampling electron microscopy.We found that bovine neutrophils contain in addition to azurophil and specific granules a third type of granule, not known to occur in neutrophils of other species. These novel granules are larger, denser, and considerably more numerous than the two other types. Except for lactoferrin, they lack the characteristic constituents of azurophil granules (peroxidase, acid hydrolases, and neutral proteinases) and of specific granules (vitamin B12-binding protein). Instead, they contain a group of highly cationic proteins not found in the other granules, and they are the exclusive stores of powerful oxygen-independent bactericidal agents.We studied the fate of the large granules in bovine neutrophils exposed to opsonized particles, the ionophore A 23187, or phorbol myristate acetate. The appearance in the cell-free media of antibacterial activity and of the characteristic highly cationic proteins as revealed by electrophoresis was monitored and compared with the release of azurophil and specific granule markers. In addition, changes of the relative size of the large granule compartment induced by phagocytosis were assessed by morphometry. The results show that exocytosis of the large granules occurs following both phagocytosis and exposure to soluble stimuli. Like the specific granules, the large granules appear to be discharged by true secretion under conditions where the azurophil granules are fully retained.Biochemical studies of bovine neutrophils were first reported by Hegner (1) who isolated a particulate cytoplasmic fraction enriched in a number of acid hydrolases and alkaline phosphatase. Bovine neutrophils lack lysozyme (2, 3) and have relatively low activities of azurophil granule enzymes. They produce superoxide and H202 during phagocytosis, but in addition have a high capacity for oxygen-independent killing of several types of bacteria (3-5).These properties and the predominance of peroxidase-negative granules seen on electron micrographs stimulated our interest in these cells. The results of our subceUular fractionation study show that bovine neutrophils contain a novel type of cytoplasmic storage granules. The novel organeUes are larger, denser, and much more numerous than the azurophil
Somatostatin receptors were detected in peritumoral veins of various human cancer tissue specimens. Vascular and neoplastic tissue from 14 colonic adenocarcinomas, 13 carcinoids, 6 renal-cell carcinomas and 7 malignant lymphomas were analyzed for somatostatin receptors by use of quantitative receptor autoradiography. In colonic carcinoma specimens, the peritumoral vessels expressed a high density of somatostatin receptors, whereas the neoplastic tissue itself was receptor-negative in many cases. In contrast, the incidence and density of somatostatin receptors in peritumoral vessels was low in well-differentiated gastrointestinal and bronchial carcinoids, in contrast to the high density of such receptors in the carcinoid tumor tissue. Autochthonous vessels surrounding other tumors such as renal-cell carcinomas or malignant lymphomas also frequently expressed somatostatin receptors. In all cases, the somatostatin receptors were localized in veins, particularly in the smooth-muscle cell layer. They exhibited specific and high-affinity binding of somatostatin-14, somatostatin-28 and octreotide, suggesting a preferential expression of the SSTR2 receptor subtype. Since the vessels of normal non-neoplastic human tissues, e.g. of intestine or lymphatic organs, have few somatostatin receptors, the increased somatostatin receptor expression in peritumoral vessels observed in this study may be linked to the neoplastic process itself. The results suggest that somatostatin and somatostatin receptors may play a regulatory role for hemodynamic tumor-host interactions, possibly involving tumor stroma generation, tumor environment, angiogenesis and, particularly, vascular drainage of poorly differentiated neoplasms.
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