High-intensity exercise training was more beneficial than moderate-intensity exercise training for reducing cardiovascular risk in rats with the metabolic syndrome. This was linked to more superior effects on VO(2max), endothelial function, blood pressure, and metabolic parameters in several tissues. These results demonstrate that exercise training reduces the impact of the metabolic syndrome and that the magnitude of the effect depends on exercise intensity.
As the histamine concentrations were higher in the tissue (microdialysate) than in blood, histamine seems to reach the parietal cells via the paracrine route. The fraction of active parietal cells seems to depend more on the age of the parietal cells than on the distance from the ECL cell.
Poorly differentiated neuroendocrine cells can be difficult to recognise. Sensitive methods are needed to label cells that have lost their ultrastructural features and have reduced concentrations of neuroendocrine markers. In gastric neoplasms, enterochromaffin-like cells might dedifferentiate and lose their characteristic granules and secretory vesicles, making detection of such cells increasingly difficult. However, chromogranin A (CgA) immunogold labelling could provide sensitive and specific detection of gastric neuroendocrine cells. We present ultrastructural findings, CgA immunogold labelling as well as conventional immunohistochemical findings of two human enterochromaffin-like cell carcinoids. Electron-dense granules of poorly differentiated cells were less intensely labelled than granules in well-differentiated cells. Granules with atypical shape as well as punctuate granules previously found in neuroendocrine neoplasms were also CgA labelled. The CgA labelling efficacy after antigen retrieval in an alkaline solution was higher after heating in an autoclave at 135 degrees C compared to a microwave at 100 degrees C for both granules and secretory vesicles without significant deterioration of the ultrastructure. In conclusion, the use of CgA immunogold labelling could ensure a specific classification of cells with neuroendocrine granules and be a supplement to immunohistochemical examination of poorly differentiated tumours.
Neuroendocrine differentiation is often found in gastric carcinomas, but the relevance of these cells in gastric carcinogenesis is debated. We applied immunolabeling at the electron microscopic level to study the ultrastructure of neuroendocrine cells in gastric carcinomas to ensure correct cellular classification of dedifferentiated cells. The immunogold labeling at electron microscopic level was compared with an established sensitive immunohistochemical method using light microscopy. Thirteen human gastric adenocarcinomas of the diffuse type were examined for neuroendocrine differentiation by chromogranin A (CgA) labeling at both the light and electron microscopic level. The ultrastructure of CgA-positive cells was compared with CgA-positive cells from controls. Nine of 13 tumors showed CgA-positive cells both at the light and electron microscopic level. The CgA-positive cells displayed altered ultrastructural features compared with controls. Some of the CgA-positive tumor cells had granules typical for enterochromaffin-like cells. Immunoelectron microscopy seems to provide both significant immunolabeling and sufficient ultrastructure to enhance classification of cells in neoplastic tissue.
Gastrin-producing G cells constitute one of the major populations of neuroendocrine cells in the antral mucosa of the stomach. The peroxisome proliferator-activated receptor (PPAR) alpha-agonist ciprofibrate is used as a lipid-lowering drug. Recently, ciprofibrate has been shown to induce hypergastrinemia in rats without reducing gastric acidity, which indicates a direct stimulatory effect on the G cell. Gastrin probably plays an important role in gastric tumorgenesis, and long-term dosing with ciprofibrate results in enterochromaffin-like (ECL) cell carcinoids in the oxyntic mucosa of rats. In this study, we aimed to examine changes of neuroendocrine granules in G cells following ciprofibrate dosing and relate them to changes induced by the proton pump inhibitor pantoprazole. Furthermore, we wanted to study peroxisomes in G cells. Rats received ciprofibrate 80 mg/kg/day or pantoprazole 200 mg/kg/day in 4 weeks. Antral mucosal specimens were processed for conventional staining procedures and immunocytochemistry for both the light and electron micro-scope. Specimens were immunolabeled for gastrin and peroxisome-specific proteins. Electron micrographs were analyzed planimetrically. This study shows that hypergastrinemia induced by ciprofibrate is accompanied by a decrease in granule number per cell and a relative increase in electron-dense granules. These changes were quite similar to those induced by pantoprazole, indicating signs of G-cell activation in general. However, distinctions concerning granule size and composition and both hypertrophy and hyperplasia of G cells are presented. Finally, demonstration of peroxisomes in G cells was only achieved by using the highly sensitive tyramide signal amplification technique in immunostaining for the peroxisome-specific protein PMP-70. Therefore, neither morphological nor quantitative changes of peroxisomes in G cells were detected.
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