110 research outputs found
Botulinum toxin in gastric submucosa reduces stimulated HCl production in rats
BACKGROUND: Botulinum toxin blocks acetylcholine release from nerve endings and acts as a long term, reversible inhibitor of muscle contraction as well as of salivary, sweat gland, adrenal and prostatic secretions. The aim of the present study is to investigate whether gastric submucosal injection of botulinum toxin type A reduces stimulated gastric production of HCl. METHODS: Sixty-four rats were randomized in two groups and laparotomized. One group was treated with botulinum toxin-A 10 U by multiple submucosal gastric injections, while the second group was injected with saline. Two weeks later, acid secretion was stimulated by pyloric ligation and acid output was measured. Body weight, food and water intake were also recorded daily. RESULTS: HCl production after pyloric ligation was found to be significantly lower in botulinum toxin-treated rats (657 ± 90.25 micromol HCl vs. 1247 ± 152. P = 0.0017). Botulinum toxin-treated rats also showed significantly lower food intake and weight gain. CONCLUSIONS: Botulinum toxin type A reduces stimulated gastric acidity. This is likely due either to inhibition of the cholinergic stimulation of gastric parietal cells, or to an action on the myenteric nervous plexuses. Reduction of growth and food intake may reflect both impaired digestion and decreased gastric motility
Peptide-containing nerve fibres in normal human parathyroid glands and in human parathyroid adenomas
There are only a few studies on the innervation of the human parathyroid glands and the content of neurotransmitters. We therefore studied the occurrence and distribution of peptide-containing and adrenergic nerve fibres and the coexistence pattern of neuromessengers by immunocytochemistry in normal (unaffected) and adenomatous parathyroid glands from patients undergoing surgery for parathyroid adenoma. The unaffected parathyroid glands had a moderate-to-rich supply of nerve fibres and terminals containing two general neuronal markers, protein gene product 9.5 (PGP 9.5) and synaptophysin, neuropeptide Y (NPY) and tyrosine hydroxylase (TH). They were seen close to blood vessels and, occasionally, among the endocrine cells. Only a few nerves contained calcitonin gene-related peptide (CGRP), vasoactive intestinal polypeptide (VIP), substance P (SP) and pituitary adenylate cyclase-activating peptide (PACAP). The general density of innervation, using PGP 9.5 and synaptophysin as markers, varied greatly among the different adenomas examined. This applied also to the density of fibres and terminals containing specific types of messengers. Some of the tumours had a rich supply of TH- and NPY-containing nerve fibres, while others contained only few scattered fibres. The CGRP-containing fibres varied from moderate in number to no detectable fibres. The PACAP-, SP- and VIP-containing fibres were always very few or not detectable. It is not inconceivable that the wide variation in general density of the innervation and frequency of peptide-containing nerves among individual parathyroid adenomas is of significance for their hormone secretory behaviour
Parathyroid function and histology in patients with parathyroid adenoma : correlation of clinical and morphologic findings
Serum levels of parathyroid hormone (PTH), alkaline phosphatase (ALP), calcium, creatinine, and vitamin D and the glomerular filtration rate were compared with the histologic properties and expression of PTH and chromogranin A in excised parathyroid adenomas from patients with primary hyperparathyroidism (pHPT). PTH and chromogranin A were detected immunohistochemically, and their mRNA was demonstrated by in situ hybridization with quantification of their mRNA levels by image analysis. There was a positive correlation between the cellular levels of PTH mRNA and the cellular levels of chromogranin A mRNA (r = 4.4; p < 0.05). However, within certain parts of the adenomas, mostly consisting of chief cells, the expression of PTH mRNA and chromogranin A mRNA was heterogeneous and the levels did not correspond to each other. A reduced suppressibility of PTH in patients with pHPT was confirmed. Although cellular levels of PTH and chromogranin A and their mRNAs were low in the oxyphilic parts of the adenomas, there was no correlation between the amount of oxyphilic cells in the adenomas and the suppressibility of PTH by calcium. There was also no association between the cellular levels of PTH mRNA or chromogranin A mRNA as studied by image analysis and "calcium sensitivity." Our results thus demonstrate that although PTH and chromogranin A mRNA levels are in general correlated to each other there are differences in their expression within and between individual parathyroid adenomas. It therefore seems likely that the expression of PTH and chromogranin A are differentially regulated, and that PTH and chromogranin A may not always be co-secreted. This point could be of importance, as chromogranin A and its cleavage products are known to influence PTH secretion
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