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Migratory Cells (migratory + cell)

Distribution by Scientific Domains
Life Sciences60%
Medical Sciences40%

Selected Abstracts

Hemidesmosome protein dynamics in live epithelial cells

CYTOSKELETON, Issue 2 2003
Daisuke Tsuruta
Abstract Hemidesmosomes mediate stable anchorage of epithelial cells to laminin-5 in the basement membrane zone and have been likened to spot-welds. Indeed, it has been assumed that hemidesmosomes are not dynamic, at least when compared to other matrix adhesion sites including focal contacts. We tested this notion by monitoring the fate of green fluorescent protein (GFP)-tagged human integrin ,4 subunit (GFP-h,4) and GFP-tagged 180-kD human bullous pemphigoid (BP) autoantigen (GFP-BP180) in live cultures of 804G cells that assemble numerous mature hemidesmosomes. In subconfluent 804G cells, both GFP-h,4 and GFP-BP180 protein clusters are not stable but assemble into and disassemble out of cat paw,like arrays at a relatively rapid rate. In confluent populations of 804G cells, although some cat paw,like clusters of both GFP-h,4 and GFP-BP180 are stable over periods of >60 min, other GFP-h,4 and GFP-BP180 protein arrays form and/or disappear during the same time period. Moreover, individual labeled particles show considerable motility in the plane of the membrane. Fluorescence recovery after photobleaching analyses provide a further indication of the dynamics of hemidesmosome proteins. In particular, bleached GFP-h,4 protein clusters in confluent cells recover signal within about 30 min, indicating that there is a relatively rapid turnover of hemidesmosome components in protein arrays clustered along the substratum attached surface of a cell. The rate of recovery is dependent on an intact microfilament system. In sharp contrast, bleached GFP-BP180 protein clusters in confluent cells fail to recover signal even when observed for longer than 60 min. To evaluate hemidesmosome protein dynamics in motile cells, we monitored GFP-h,4 and GFP-BP180 in 804G cells populating scrape wound sites in vitro. In these migratory cells, which lack mature hemidesmosomes, integrin ,4 subunit and BP180 protein clusters progressively assemble and disassemble into linear and cat-paw arrays. In summary, hemidesmosome protein clusters, like their counterparts in focal contacts, are dynamic. We discuss these results in relation to hemidesmosome functions. Cell Motil. Cytoskeleton 54:122,134, 2003. © 2003 Wiley-Liss, Inc. [source]

Relationship between GABAergic interneurons migration and early neocortical network activity

DEVELOPMENTAL NEUROBIOLOGY, Issue 2-3 2009
Ana D. de Lima
Abstract Available evidence converges to suggest that during the early development of the cerebral cortex, the emergence of the spontaneous network activity chronologically overlap with the end of the cell migration period in the developing cortex. We approached the functional regulation of neuronal migration in a culture model of neocortical networks, using time lapses to detect migratory movements, calcium-imaging to assess the activity of migratory neurons, and immunocytochemical methods to identify the migratory cells retrospectively. In cell cultures, early physiological development and cell migration are reproduced at a local network level, thus allowing the study of the interrelationships between cell migration and network development independent of the topographical complexity. Neurons migrate at least until 12 days in vitro and GABAergic neurons migrate faster compared with non-GABAergic neurons. A decline of migratory activity was coincident with the development of spontaneous synchronous network activity. Migrating interneurons did not participate in synchronous network activity, but interneurons that ended cell migration during observation time frequently engaged in synchronous activity within less than an hour. Application of GABAA and ionotropic glutamate receptor antagonists significantly increased the number of migrating GABAergic neurons without changing the dynamics of the migratory movements. Thus, neurotransmitters released by early network activity might favor the termination of neuronal migration. These results reinforce the idea that network activity plays an important role in the development of late-born GABAergic cells. © 2008 Wiley Periodicals, Inc. Develop Neurobiol, 2009 [source]

Chemokines integrate JAK/STAT and G-protein pathways during chemotaxis and calcium flux responses

EUROPEAN JOURNAL OF IMMUNOLOGY, Issue 5 2003
Silvia
Abstract The JAK/STAT (Janus kinase / signaling transducer and activator of transcription) signaling pathway is implicated in converting stationary epithelial cells to migratory cells. In mammals, migratory responses are activated by chemoattractant proteins, including chemokines. We found that by binding to seven-transmembrane G-protein-coupled receptors, chemokines activate the JAK/STAT pathwayto trigger chemotactic responses. We show that chemokine-mediated JAK/STAT activation is critical for G-protein induction and for phospholipase C-, dependent Ca2+ flux; in addition, pharmacological inhibition of JAK or mutation of the JAK kinase domain causes defects in both responses. Furthermore, G,i association with the receptor is dependent on JAK activation, andthe chemokine-mediated Ca2+ flux that requires phospholipase C-, activity takes place downstream of JAK kinases. The chemokines thus employ a mechanism that links heterologous signaling pathways , G proteins and tyrosine kinases , in a network that may be essential for mediating their pleiotropic responses. [source]

Quantitative cytokine gene expression in CF airway,

PEDIATRIC PULMONOLOGY, Issue 5 2004
Marianne S. Muhlebach MD
Abstract Bronchoalveolar lavage fluid (BALF) in cystic fibrosis (CF) shows increased inflammation, which could be due to abnormal cytokine regulation. Bronchial epithelial cells and migratory inflammatory cells produce these cytokines, but few quantitative in vivo data are available comparing young CF patients with controls. We hypothesized that IL-8 mRNA abundance was higher in young CF vs. non-CF disease control patients in lung epithelium and inflammatory cells. Bronchial epithelial cells (BEC) were obtained by brush biopsy, and airway inflammatory cells (BALFC) by bronchoalveolar lavage, in 17 CF and 21 non-CF patients <5 years old undergoing clinically indicated bronchoscopy. Cellular mRNA expression was quantified by real-time PCR and normalized to glyceraldehyde-3-phosphate dehydrogenase (GAPDH). Abundance of IL-8/GAPDH in BEC was significantly higher in CF (14.8,±,3.3) than non-CF (4.2,±,0.6) samples, and this difference was also significant when patients were stratified according to infection. In BALFC, the difference in IL-8 expression did not reach statistical significance: CF (17.1,±,6.5) vs. non-CF (6.8,±,1.9), but BALF cell number/ml was significantly higher in CF. IL-10 mRNA was very low in all samples, without showing a decrease in CF vs. non-CF patients. We conclude that early in the disease, IL-8 mRNA expression in BEC is increased in CF in vivo. Although IL-8 mRNA in migratory cells was not significantly higher in CF, these cells may still contribute to elevated IL-8 in airway secretions, secondary to increased cell density in BALF. Pediatr Pulmonol. 2004; 37:393,399. © 2004 Wiely-Liss, Inc. [source]

Effect of the Photoperiod and Administration of Melatonin on the Pars Tuberalis of Viscacha (Lagostomus maximus maximus): An Ultrastructural Study

THE ANATOMICAL RECORD : ADVANCES IN INTEGRATIVE ANATOMY AND EVOLUTIONARY BIOLOGY, Issue 5 2010
Edith Perez Romera
Abstract The pituitary pars tuberalis (PT) is a glandular zone exhibiting well-defined structural characteristics. Morphologically, it is formed by specific secretory cells, folliculostellate cells, and migratory cells coming from the pars distalis. The purpose of this work was to investigate differences in specific cellular characteristics in the PT of viscachas captured in summer (long photoperiod) and winter (short photoperiod), as well as the effects of chronic melatonin administration in viscachas captured in summer and kept under long photoperiod. In summer, the PT-specific cells exhibited cell-like characteristics with an important secretory activity and a moderate amount of glycogen. In winter, the PT-specific granulated cells showed ultrastructural variations with signs of a reduced synthesis activity. Also, PT showed a high amount of glycogen and a great number of cells in degeneration. After melatonin administration, the ultrastructural characteristics were similar to those observed in winter, but the amount of glycogen was higher. These results suggest possible functional implications as a result of morphological differences between long and short photoperiods, and are in agreement with the variations of the pituitary-gonadal axis, probably in response to the natural photoperiod changes through the pineal melatonin. The ultrastructural differences observed in PT, after melatonin administration, were similar to those observed in the short photoperiod, thus supporting the hypothesis that these cytological changes are induced by melatonin. Anat Rec, 293:871,878, 2010. © 2010 Wiley-Liss, Inc. [source]