Scheuermann Dw scite author profile

The morphological classification of the different neuronal cell types is generally accepted and expanded by us; nevertheless, immunohistochemically and electrophysiologically the existence of clear-cut categories of enteric neurons is frequently questioned. The immunohistochemical results demonstrated in this study, however, provide the first direct link between a morphological type of enteric neuron and an immunohistochemical staining for a distinct peptide. Evidence demonstrates that calcitonin gene-related peptide occurs in only one morphologically defined type of neuron, viz. in type II neurons, and can therefore be regarded as a ‘marker peptide’ for type II neurons. Hence, the present immunohistochemical findings illustrate the validity of the morphological classification of the enteric neurons.

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Fine Structure of Morphologically Well-Defined Type II Neurons in the Enteric Nervous System of the Porcine Small Intestine Revealed by Immunoreactivity for Calcitonin Gene-Related Peptide

Timmermans

et al. 1991

Cells Tissues Organs

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Calcitonin gene-related peptide (CGRP)-containing perikarya and axonal processes were localized by preembedding electron-microscopic immunocytochemistry in the porcine small intestine. Immunoreactive well-defined type II neurons were localized in the plexus myentericus, and plexus submucosus externus and internus. In some cases, they were found in direct contact to the basal lamina surrounding the ganlion, thus being in close apposition to the interstitial space. The perikarya are generally larger than the immunogative nerve cell bodies and have a typical smooth outline. The electron-microscopic features of the labeled nerve processes investigated provide evidence for their axonal nature. These ultrastructural observations confirm previous light-microscopic results which showed that CGRP-containing nerve cells in the porcine small intestine belong to the neuronal population of the type II cells, the processes of which display the ultrastructural features of axons. A large number of reactive varicosities show synaptic specializations on immunonegative nerve cell bodies, suggesting that at least part of the type II neurons have post-synaptic effects on CGRP-negative neurons.

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Increased gap junctional area in the rat liver after administration of dibutyryl cAMP

Mazière

1985

Cell Tissue Res.

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Since cAMP has recently been reported to be a possible physiological modulator of cell-to-cell communication, we performed a quantitative freeze-fracture investigation on the hepatocyte gap junctions after administration of a membrane-permeant derivative of this cyclic nucleotide. For this purpose, male rats received two intraperitoneal injections of 100 mg dibutyryl cAMP/kg body weight with a time interval of 2.5 h. Litter mates were injected with saline only. Five hours after the start of the treatment, tissue blocks of the left lateral liver lobe were fixed by immersion and processed for freeze-fracture. By point counting on negatives projected on a square double-lattice test system the relative gap junctional area on contiguous hepatocyte membranes was determined. As compared to control animals, the proportion of the membrane area occupied by gap junctions in dibutyryl cAMP-treated liver parenchyma significantly increased from 4.9% to 6.1%. Within the gap junctions no changes in shape, particle density or packing pattern were observed. Possibly, the enlarged gap junctional area provides structural pathways for the integration of the response of hepatocytes to messages mediated by cAMP.

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Scheuermann Dw

Morphology and Cytochemistry of the Endocrine Epithelial System in the Lung

Calcitonin Gene-Related Peptide in Morphologically Well-Defíned Type II Neurons of the Enteric Nervous System in the Porcine Small Intestine

Fine Structure of Morphologically Well-Defined Type II Neurons in the Enteric Nervous System of the Porcine Small Intestine Revealed by Immunoreactivity for Calcitonin Gene-Related Peptide

Increased gap junctional area in the rat liver after administration of dibutyryl cAMP

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