Telocytes express PDGFRα in the human gastrointestinal tract Vannucchi, Maria‐Giuliana; Traini, Chiara; Manetti, Mirko ...
Journal of cellular and molecular medicine,
September 2013, 2013-Sep, 2013-09-00, 20130901, Letnik:
17, Številka:
9
Journal Article
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Telocytes (TC), a cell population located in the connective tissue of many organs of humans and laboratory mammals, are characterized by a small cell body and extremely long and thin processes. ...Different TC subpopulations share unique ultrastructural features, but express different markers. In the gastrointestinal (GI) tract, cells with features of TC were seen to be CD34‐positive/c‐kit‐negative and several roles have been proposed for them. Other interstitial cell types with regulatory roles described in the gut are the c‐kit‐positive/CD34‐negative/platelet‐derived growth factor receptor α (PDGFRα)‐negative interstitial cells of Cajal (ICC) and the PDGFRα‐positive/c‐kit‐negative fibroblast‐like cells (FLC). As TC display the same features and locations of the PDGFRα‐positive cells, we investigated whether TC and PDGFRα‐positive cells could be the same cell type. PDGFRα/CD34, PDGFRα/c‐kit and CD34/c‐kit double immunolabelling was performed in full‐thickness specimens from human oesophagus, stomach and small and large intestines. All TC in the mucosa, submucosa and muscle coat were PDGFRα/CD34‐positive. TC formed a three‐dimensional network in the submucosa and in the interstitium between muscle layers, and an almost continuous layer at the submucosal borders of muscularis mucosae and circular muscle layer. Moreover, TC encircled muscle bundles, nerve structures, blood vessels, funds of gastric glands and intestinal crypts. Some TC were located within the muscle bundles, displaying the same location of ICC and running intermingled with them. ICC were c‐kit‐positive and CD34/PDGFRα‐negative. In conclusion, in the human GI tract the TC are PDGFRα‐positive and, therefore, might correspond to the FLC. We also hypothesize that in human gut, there are different TC subpopulations probably playing region‐specific roles.
Telocytes subtypes in human urinary bladder Vannucchi, Maria‐Giuliana; Traini, Chiara; Guasti, Daniele ...
Journal of cellular and molecular medicine,
October 2014, Letnik:
18, Številka:
10
Journal Article
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Urinary bladder voiding is a complex mechanism depending upon interplay among detrusor, urothelium, sensory and motor neurons and connective tissue cells. The identity of some of the latter cells is ...still controversial. We presently attempted to clarify their phenotype(s) in the human urinary bladder by transmission electron microscopy (TEM) and immunohistochemistry. At this latter aim, we used CD34, PDGFRα, αSMA, c‐Kit and calreticulin antibodies. Both, TEM and immunohistochemistry, showed cells that, sharing several telocyte (TC) characteristics, we identified as TC; these cells, however, differed from each other in some ultrastructural features and immunolabelling according to their location. PDGFRα/calret‐positive, CD34/c‐Kit‐negative TC were located in the sub‐urothelium and distinct in two subtypes whether, similarly to myofibroblasts, they were αSMA‐positive and had attachment plaques. The sub‐urothelial TC formed a mixed network with myofibroblasts and were close to numerous nerve endings, many of which nNOS‐positive. A third TC subtype, PDGFRα/αSMA/c‐Kit‐negative, CD34/calret‐positive, ultrastructurally typical, was located in the submucosa and detrusor. Briefly, in the human bladder, we found three TC subtypes. Each subtype likely forms a network building a 3‐D scaffold able to follow the bladder wall distension and relaxation and avoiding anomalous wall deformation. The TC located in the sub‐urothelium, a region considered a sort of sensory system for the micturition reflex, as forming a network with myofibroblasts, possessing specialized junctions with extracellular matrix and being close to nerve endings, might have a role in bladder reflexes. In conclusions, the urinary bladder contains peculiar TC able to adapt their morphology to the organ activity.
Ten years ago, the term 'telocyte' was introduced in the scientific literature to describe a '
' cell type described in the connective tissue of several organs by Popescu and Faussone-Pellegrini ...(2010). Since then, 368 papers containing the term 'telocyte' have been published, 261 of them in the last five years. These numbers underscore the growing interest in this cell type in the scientific community and the general acceptance of the name telocyte to indicate this interstitial cell. Most of these studies, while confirming the importance of transmission electron microscopy to identify the telocytes with certainty, highlight the variability of their immune phenotypes. This variability was interpreted as due to (i) the ability of the telocytes to adapt to the different sites in which they reside; (ii) the distinct functions they are likely to perform; and (iii) the existence of telocyte subtypes. In the present paper, an overview of the last 10 years of literature on telocytes located in the gut will be attempted, confining the revision to the morphological findings. A distinct chapter will be dedicated to the recently hypothesized role of the telocytes the intestinal mucosa. Through this review, it will be shown that telocytes, despite their variability, are a unique interstitial cell.
Abstract Evidence indicate that adenosine A2A receptor subtype is of critical importance in stroke. An overexpression of A2A adenosine receptors occurs at central level on neurons and microglia of ...ischemic striatum and cortex after focal ischemia. Adenosine A2A receptor subtype is localized not only at central level but also peripherally on blood cells, where it is known to exert antiinflammatory effect. Purpose of the present work was to investigate the putative neuroprotective effect of the adenosine A2A receptor agonist CGS21680 in a rat model of transient medial cerebral artery occlusion (MCAo). Transient cerebral ischemia was induced by 1 h occlusion of MCA. CGS21680 (0.01 and 0.1 mg/kg, i.p.) was administered starting 4 h after ischemia according to a chronic protocol (twice/day for 7 days). CGS21680, at the dose of 0.1 mg/kg transiently increased heart frequency but did not modify blood pressure. At the dose of 0.01 mg/kg the drug did not modify either heart frequency or blood pressure. Following transient MCAo, CGS21680 at both doses protected from neurological deficit from the first day up to 7 days thereafter. At this time, it has reduced microgliosis, astrogliosis and improved myelin organization in the striatum and cytoarchitecture of the ischemic cortex and striatum. Two days after transient MCAo, CGS21680 has reduced the number of infiltrated granulocytes into the ischemic tissue. Data indicate that CGS21680 systemically administered is protective by immunosuppressive effects.
Abstract
In the interstitium of the connective tissue several types of cells occur. The fibroblasts, responsible for matrix formation, the mast cells, involved in local response to inflammatory ...stimuli, resident macrophages, plasma cells, lymphocytes, granulocytes and monocytes, all engaged in immunity responses. Recently, another type of interstitial cell, found in all organs so far examined, has been added to the previous ones, the telocytes (TC). In the gut, in addition to the cells listed above, there are also the interstitial cells of Cajal (ICC), a peculiar type of cell exclusively detected in the alimentary tract with multiple functions including pace-maker activity. The possibility that TC and ICC could correspond to a unique cell type, where the former would represent an ICC variant outside the gut, was initially considered, however, further studies have clearly shown that ICC and TC are two distinct types of cells. In the gut, while the features and the roles of the ICC are established, part of the scientific community is still disputing these ‘new’ interstitial cells to which several names such as fibroblast-like cells (FLCs), interstitial Cajal-like cells or, most recently, PDGFRα
+
cells have been attributed. This review will detail the main features and roles of the TC and ICC with the aim to establish their relationships and hopefully define the identity of the TC in the gut.
According to recent literature data, a peculiar connective tissue cell, called telocyte (TC), is present in almost all organs. Furthermore, TC subtypes, often coexisting in the same organ, but having ...different immunohistochemical and ultrastructural characteristics, have been demonstrated. Characteristically, TC, by connecting to each other and/or with other cell types, build three-dimensional networks. In the latter case they form a mixed network. TC, therefore, may be part of an integrated system to maintain tissue/organ function. Several roles have been proposed for the TC some of which support the importance of these cells in the differentiation and regenerative processes. Indeed, TC might behave as inductors/regulators of differentiation during morphogenesis due to their ability to release molecular signals and to construct the scaffold necessary for the parenchymal organization. In the adulthood, TC may be considered mesenchymal stromal cells able to differentiate in different cell types, such as the interstitial cells of Cajal, the resident myofibroblasts and the fibroblasts. Furthermore, the TC might be essential for the survival, proliferation, differentiation, maturation and guidance of the parenchymal stem cells located in the niches of several organs and, eventually, stimulate and sustain the regenerative processes.
Urinary bladder activity involves central and autonomic nervous systems and bladder wall. Studies on the pathogenesis of voiding disorders such as the neurogenic detrusor overactivity (NDO) due to ...suprasacral spinal cord lesions have emphasized the importance of an abnormal handling of the afferent signals from urothelium and lamina propria (LP). In the LP (and detrusor), three types of telocytes (TC) are present and form a 3D‐network. TC are stromal cells able to form the scaffold that contains and organizes the connective components, to serve as guide for tissue (re)‐modelling, to produce trophic and/or regulatory molecules, to share privileged contacts with the immune cells. Specimens of full thickness bladder wall from NDO patients were collected with the aim to investigate possible changes of the three TC types using histology, immunohistochemistry and transmission electron microscopy. The results show that NDO causes several morphological TC changes without cell loss or network interruption. With the exception of those underlying the urothelium, all the TC display signs of activation (increase in Caveolin1 and caveolae, αSMA and thin filaments, Calreticulin and amount of cisternae of the rough endoplasmic reticulum, CD34, euchromatic nuclei and large nucleoli). In all the specimens, a cell infiltrate, mainly consisting in plasma cells located in the vicinity or taking contacts with the TC, is present. In conclusion, our findings show that NDO causes significant changes of all the TC. Notably, these changes can be interpreted as TC adaptability to the pathological condition likely preserving each of their peculiar functions.
Telocytes and macrophages are ubiquitous cells located in loose connective tissues and share the same mesenchymal origin. Despite these common elements, depending on where they reside, these two cell ...types are profoundly different in terms of their morphology and functions. The purpose of this review is to provide an update on the knowledge regarding telocytes and macrophages in the gut, where their presence and significance have long been underestimated or misunderstood. The focus will be on the possibility that these two cell types interact with each other and on the potential meaning of these interactions. Based on the complexity of the topic, the variety of possible methodological approaches and the expertise of the author, the point of view in the discussion of the literature data will be mainly morphological. Furthermore, considering the relatively recent period in which these cell types have acquired a primary role in gastrointestinal functions, the attention will be greatly confined to those articles published in the last decade. The microbiota, another main protagonist in this context, will be mentioned only in passing. It is hoped that this review, although not exhaustive, will highlight the importance of macrophages and telocytes in the complex mechanisms that ensure intestinal functions.
AIM To investigate whether glucagon-like peptide-2(GLP-2) influences the neurally-induced responses in gastric strips from mice, since no data are available. METHODS For functional experiments, ...gastric fundal strips were mounted in organ baths containing Krebs-Henseleit solution. Mechanical responses were recorded via forcedisplacement transducers, which were coupled to a polygraph for continuous recording of isometric tension. Electrical field stimulation(EFS) was applied via two platinum wire rings through which the preparationwas threaded. The effects of GLP-2(2 and 20 nmol/L) were evaluated on the neurally-induced contractile and relaxant responses elicited by EFS. Neuronal nitric oxide synthase(n NOS) enzyme was evaluated by immunohistochemistry.RESULTS In the functional experiments, electrical field stimulation(EFS, 4-16 Hz) induced tetrodotoxin(TTX)-sensitive contractile responses, which were reduced in amplitude by GLP-2(P < 0.05). In the presence of the nitric oxide(NO) synthesis inhibitor L-NNA, GLP-2 no longer influenced the neurally-evoked contractile responses(P > 0.05). The direct smooth muscle response to methacholine was not influenced by GLP-2(P > 0.05). In the presence of guanethidine and carbachol, the addition of GLP-2 to the bath medium evoked TTX-sensitive relaxant responses that were unaffected by L-NNA(P > 0.05). EFS induced a fast NO-mediated relaxation, whose amplitude was enhanced in the presence of the hormone(P < 0.05). Immunohistochemical experiments showed a significant increase(P < 0.05) in n NOS immunoreactivity in the nerve structures after GLP-2 exposure. CONCLUSION The results demonstrate that in gastric fundal strips, GLP-2 influences the amplitude of neurally-induced responses through the modulation of the nitrergic neurotransmission and increases n NOS expression.
Background & Aims: Recent advances have raised the possibility of treating enteric nervous system (ENS) disorders with transplanted progenitor cells (ENSPC). Although these cells have been shown to ...migrate and differentiate after transplantation, no functional effects have been demonstrated. We therefore aimed to investigate whether embryonic mouse and neonatal human ENSPC can regulate the contractility of aganglionic bowel. Methods: Embryonic mouse and neonatal human ENSPC were grown as neurospheres before transplantation into aganglionic embryonic mouse hindgut explants and culture for 8–12 days. Engraftment and neural differentiation were confirmed using immunofluorescence and transmission electron microscopy. The contraction frequency of transplanted bowel was measured and compared with that of embryonic day 11.5 embryonic ganglionic and aganglionic bowel cultured for the same period. Calcium movement was measured at spatially defined points in bowel wall smooth muscle. Neural modulation of bowel contractility was assessed using tetrodotoxin. Results: Both mouse and human ENSPC migrated and differentiated after neurosphere transplantation. Transmission electron microscopy demonstrated the existence of synapses. Transplantation restored the high contraction frequency of aganglionic bowel to the lower rate of ganglionic bowel. Calcium imaging demonstrated that neurosphere transplantation coordinates intracellular free calcium levels. Both these effects were reversed by the addition of tetrodotoxin, indicating the functional effect of neurosphere-derived neurons. Conclusions: Neonatal human gut is a source of ENSPC that can be transplanted to restore the contractile properties of aganglionic bowel by a neurally mediated mechanism. This may aid development of a stem cell-based treatment for Hirschsprung's disease.