The apamin-sensitive component of the inhibitory response of the gastrointestinal musculature involves the small conductance Ca(2+)-activated K(+) channel SK3. Kit-immunoreactive (ir) interstitial cells of Cajal appear to be involved in nitrergic inhibition while the role of the recently described CD34-ir fibroblast-like cells adjacent to, but distinct from, the cells of Cajal remains elusive. The distribution of SK3 was studied by immunohistochemistry in the normal human gut, in motility disorders with a lack of cells of Cajal (infantile hypertrophic pyloric stenosis and Hirschsprung's disease) and in mice deficient in cells of Cajal. SK3 immunoreactivity was observed exclusively in Kit-negative interstitial cells adjacent to, but distinct from, the Kit-ir interstitial cells of Cajal in the normal gut. The distribution of SK3-ir cells was not altered in conditions where cells of Cajal were lacking. These cells were CD34-ir fibroblast-like cells in the human gut and in the mouse stomach, while SK3-ir cells in the mouse intestine were CD34 negative. As SK channels are reportedly involved in inhibitory neurotransmission, our morphological observations suggest that SK3-ir interstitial cells, distinct from the Kit-ir interstitial cells of Cajal, may represent a novel cellular component in the control of excitability of the digestive musculature. Further studies will be required to directly address the function of these cells.
The intermediate filament nestin is expressed in neural stem cells, neuroectodermal tumors and various adult tissues. In the gastrointestinal (GI) tract, nestin has been reported in glial cells. Recently, nestin has been reported in interstitial cells of Cajal (ICC) and in gastrointestinal stromal tumors, thought to derive from ICC. Here we investigated nestin immunoreactivity (-ir) in the normal human GI tract, with emphasis on Kit-ir ICC. Two different antibodies specific for human nestin and multicolor high-resolution confocal microscopy were used on material from our human GI tissue collection. The staining pattern of both nestin antibodies was similar. In labeled cells, nestin-ir appeared filamentous. Most intramuscular ICC in antrum and all myenteric ICC (ICC-MP) in small intestine were nestin-ir, while nestin-ir was not detected in deep muscular plexus ICC. In the colon, some - but not all - ICC-MP and most ICC in the circular musculature were nestin-ir while nestin-ir was not detected in ICC in the longitudinal musculature and in the submuscular plexus. In addition, many Kit-negative cells were nestin-ir in all regions. Neurons and smooth muscle cells were consistently nestin negative, while most S100-ir glial cells were nestin-ir. In addition, nestin-ir was also present in some CD34-ir fibroblast-like cells, in endothelium and in other cell types in the mucosa and serosa. In conclusion, nestin-ir is abundantly present in the normal human GI tract. Among a number of cell types, several, but not all, subpopulations of Kit-ir ICC were nestin-ir. The functional significance of nestin in the GI tract remains obscure.
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