Micaela Pelagi

Immunohistochemical localization of chromogranin A and B in the endocrine cells of the alimentary tract of the green frog, Rana esculenta

Novel monoclonal antibodies to human chromogranin A (CgA) and chromogranin B (CgB) were used to investigate the presence of immunoreactive (-IR) elements in the alimentary tract of the green frog Rana esculenta. Numerous CgA-IR and a few CgB-IR endocrine cells were found within the gut mucosa, from the oesophagus to the cloaca, with some local differences in density. Co-localization studies demonstrated that they were costored in almost all the serotonin-IR, the amylin-IR or islet amyloid polypeptide-IR cells and in the peptide tyrosine tyrosine-IR cells located proximal to the pylorus, but not in those located in more caudal tracts. No other co-localization was demonstrated; substances investigated included somatostatin, substance P, gastrin/cholecystokin, glucagon, glycentin, bombesin, secretin and neurotensin. CgA-IR and CgB-IR cells nearly always displayed argyrophilia with the Grimelius silver method

Preparation and characterization of anti-human chromogranin A and chromogranin B (secretogranin I) monoclonal antibodies

Chromogranin A, chromogranin B/secretogranin I and chromogranin C/secretogranin II are acidic sulphated and phosphorylated secretory proteins present in a large number of endocrine and neuronal tissues. It has been suggested that these proteins may be useful immunohistochemical markers for human tumours of endocrine origin and their measurement in plasma has been proposed as a diagnostic tool in patients with these tumours. In order to obtain anti-human chromogranins/secretogranins antibodies for clinical applications, we immunized mice with whole chromaffin granules isolated from human pheochromocytoma. The immune sera analysed by two-dimensional immunoblotting were found to recognize chromogranins/secretogranins and other unidentified proteins and to react in immunocytochemistry with pheochromocytoma as well as with a number of endocrine cells of different types. Hybridoma supernatants obtained from the splenocytes of a hyperimmune mouse, screened with an enzyme-linked immunosorbent assay, were analysed by both immunocytochemistry and two-dimensional immunoblotting. By using this experimental approach we were able to identify several monoclonal antibodies against human chromaffin granule components. In particular, we have characterized one anti-human chromogranin A and one anti-human chromogranin B/secretogranin I monoclonal antibody which showed a very specific pattern both in immunocytochemistry and in two-dimensional immunoblotting.

In vivo imaging of chromogranin A-positive endocrine tumours by three-step monoclonal antibody targeting.

The detection of chromogranins (Cg) by immunohistochemistry and serology represents a new in vitro diagnostic tool for endocrine tumours. We have recently reported on the feasibility of targeting chromogranin A (CgA) for in vivo detection of pituitary adenomas by immunoscintigraphy (ISG). The scintigraphic procedure, based on an anti-CgA monoclonal antibody and on the avidin-biotin three-step method (Cg-3S-ISG), was evaluated on a group of 29 consecutive patients with known or suspected endocrine tumours other than pituitary adenomas, i.e. medullary thyroid carcinoma, carcinoid, insulinoma and parathormone- or ACTH-producing tumours. Primary tumours (10) and recurrences (16) were visualised in 26 patients, whereas conventional imaging techniques (planar radiography, computerised tomography, magnetic resonance imaging and ultrasonography) failed to detect the tumour sites in ten of the same (Cg-3S-ISG-positive) patients. Therefore, these preliminary results indicate that Cg-3S-ISG, the first immunological method able to detect endocrine tumours in vivo, has a higher diagnostic accuracy than conventional imaging techniques (93.1% compared with 65.5%).

Immunodetection of secretogranin II in animal and human tissues by new monoclonal antibodies

Secretogranin II (chromogranin C) is an acidic tyrosine-sulfated secretory protein, known to be a marker of neuroendocrine secretory products and of specific neuroendocrine tumours. In order to obtain anti-secretogranin II monoclonal antibodies for cell biology studies and, in particular, for clinical applications, we immunized mice with a secretogranin II-enriched fraction prepared from homogenates of bovine anterior pituitaries. Hybridoma supernatants obtained from the splenocytes of a hyperimmune mouse, screened with an enzyme-linked immunosorbent assay, were analyzed by both immunocytochemistry and two-dimensional immunoblotting. By using this experimental approach, we were able to identify two monoclonal antibodies (8G1 and 5A7) which recognize bovine secretogranin II. Both immunocytochemistry and immunoblotting revealed that one of them, the 5A7 antibody, cross-reacts with the human antigen. The distribution patterns of the immunoreactivity, obtained by immunocytochemistry with the 5A7 antibody in animal and human tissues, partially overlap those, obtained by using a polyclonal antiserum elicited against bovine secretogranin II, previously described. Moreover, the 5A7, but not the polyclonal antibody, reacts with some duodeno-jejunal cells. In conclusion, both the 5A7 and 8G1 antibodies can be useful for cell biology studies. The 5A7 antibody can be used for the detection of secretogranin II in human tissues and should be of help in clinical and pathological practices.

Immunohistochemical localization of chromogranin A and B in endocrine cells of the alimentary tract of the adult lizard Podarcis sicula

The distribution, argyrophilia, and the possible amine/peptide co-localizations in endocrine cells immunoreactive (IR) to antisera against chromogranin A (CgA) and chromogranin B (CgB) in the alimentary tract of the lizard Podarcis sicula have been investigated using novel monoclonal antibodies. Many CgA-IR and CgB-IR cells were found in the tract, except in the distal small intestine. Almost all chromogranin-IR cells (Cgs-IR) were also argyrophilic with parallel intensity. Some CgA-IR and CgB-IR cells did not display co-localized amines or peptides. CgA or CgB or both were found co-localized, with some local differences, in almost all serotonin-IR, histamine-IR, substance P-IR and gastric peptide tyrosine tyrosine (PYY)-IR cells. Moreover, both Cgs were co-localized only in some somatostatin-IR cells, whereas neurotensin-IR, gastrin/cholecystokinin-IR, pancreatic polypeptide-IR and intestinal PYY-IR cells did not show any co-localization with Cgs. The presence of Cgs in the endocrine cells was heterogeneous with regard to the complex interrelationship with their amine/peptide content. Consequently, Cgs cannot be considered as universal “markers” of all endocrine cell types.