We present here evidence for the existence of a new type of interstitial cell in human myocardial sleeves of pulmonary veins: interstitial Cajal-like cell (ICLC). This cell fulfils the criteria for positive diagnosis of ICLC, including CD 117/c-kit positivity. Transmission electron microscopy revealed typical ICLC with 2 or 3 very long processes (several tens of mm) suddenly emerging from the cellular body. Also, these processes appear moniliform but extremely thin (0.1–0.4 mm) under the resolving power of the usual microscopy. Cell processes establish close spatial relationships between each other, as well as with capillaries and nerve endings. ICLC appear located among the myocardial cells and particularly at the border between the myocardial sleeve and pulmonary vein wall.
We show here that methylene-blue supravital staining of specimens from normal human mammary gland reveals (selectively) interstitial (stromal) cells, with 2-3 long (20-80 microm), thin, moniliform processes. Such cells appear c-kit/CD117 positive, either by immunohistochemistry (IHC) or immunofluorescence (IF). Since these features (affinity for methylene blue, c-kit positivity, and characteristic processes) define archetypal interstitial cells of Cajal (ICC) in light microscopy, our results suggest the existence of Cajal-like cells in the interstitium of human normal mammary gland.
We report here the in vitro isolation of Cajal-like interstitial cells from human inactive mammary-gland stroma. Primary cell cultures examined in phase-contrast microscopy or after vital methylene-blue staining revealed a cell population with characteristic morphological phenotype: fusiform, triangular or polygonal cell body and the corresponding (very) long, slender, moniliform cytoplasmic processes. Giemsa staining pointed out the typical knobbed aspect of cell prolongations. Immunofluorescence (IF) showed, like in situ immunohistochemistry, that Cajal-type cells in vitro (primary cultures), expressed c-kit/CD117 and vimentin. In conclusion, the images presented here reinforce our previous hypothesis that human mammary glands have a distinct population of Cajal-like cells in non-epithelial tissue compartments. J. Cell. Mol. Med. Vol 9, No 3, 2005 pp. 748-752 Keywords: interstitial cells of Cajal Images in
Abstract. Although gastric metastases have been estimated to occur in less than 2% of cancer patients, an increased use of upper digestive tract endoscopy allows for a higher detection of secondary gastric tumors. We describe the case of a 66-year-old male patient presenting with mild pain in the sternum and upper abdominal area. Physical examination revealed a right parietal skull tumor, with no other significant clinical changes. Upon exclusion of an acute coronary syndrome, upper digestive tract endoscopy was performed, showing the presence of an ulcerated tumor located in the gastric fundus. Histopathologic examination of the biopsy sample and immunohistochemical tests suggested a pulmonary origin of the gastric tumor. Whole body computer tomography showed the presence of tumors in the gastric fundus, left lung, liver, kidneys, bones and brain. Transbronchial biopsy of the lung tumor certified the diagnosis of non-small cell lung cancer, with the same immunohistochemical profile as the gastric tumor. Hence, it was considered the origin of the metastases. Biopsy of the skull tumor also had the identical tumor histology. Whole brain radiotherapy was performed for the brain metastases and subsequent chemotherapy was administered. Although non-specific, gastrointestinal signs and symptoms occurring in lung cancer patients should alert the clinicians as to the possibility of gastrointestinal metastases and prompt endoscopic evaluation.
The cDNA microarray gene profile of gastrointestinal stromal tumors (GISTs) revealed that DOG1 (TMEM16A) gene was mostly expressed in these neoplasms. Immunohistochemically, DOG1 protein was found positive in a significant proportion of GISTs. However, normal tissues' expression of DOG1 is not yet completely studied. Our study intended to identify the DOG1 protein expression in normal adult and fetal tissues, in comparison with that of GISTs, using an anti-DOG1 polyclonal serum. Fourteen CD117/CD34-positive GIST cases were tested for DOG1. Tissue samples from autopsies of 15 human fetuses and 11 adults were tested immunohistochemically on simple or double staining with antibodies raised against: DOG1, insulin, glucagon, somatostatin, NK1, PGP9.5, chromogranin A, and synaptophysin. All the tested GISTs were positive for DOG1, with a membranous and cytoplasmic location. The normal tissues showed a distinct positivity for DOG1 only in the endocrine pancreas, in both fetal and adult ones. The other tissues tested showed a weak or negative reaction. The DOG1 staining pattern in the pancreas islets was granular, like that of neuroendocrine markers. The location of DOG1 expression in pancreatic islets was partly similar to neuroendocrine markers chromogranin A, PGP9.5, and synaptophysin. The positive cells were situated centrally, in the vicinity of insulin-bearing cells as seen on double staining. DOG1 positivity in fetal and adult pancreatic islets suggests the strong antibody affinity for neuroendocrine cells. Before making a final conclusion regarding the suitability of DOG1 as a new neuroendocrine marker, a large survey of neuroendocrine lesions must be undertaken, including carcinoid tumors of various sites and pancreatic endocrine tumors. To the best of our knowledge, this particular localization has not been reported yet for DOG1.
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