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Immunohistochemical Approach (immunohistochemical + approach)
Selected AbstractsProtein phosphatase 1, is required for murine lung growth and morphogenesisDEVELOPMENTAL DYNAMICS, Issue 4 2004Kadija-Kathy Hormi-Carver Abstract Protein phosphatase 1 (PP1) plays important roles in cell cycle control and apoptosis, two processes that impinge on morphogenesis and differentiation. Following the precedent set by other molecules regulating the cell cycle and apoptosis, we hypothesized that PP1 may have context-specific roles in development. Therefore, we have studied the spatial and temporal expression of PP1, during murine lung development and determined the consequences of loss of PP1, function on branching morphogenesis. By using an immunohistochemical approach, we show here that PP1, was expressed throughout the epithelium and mesenchyme upon the emergence of the lung primordium on embryonic day 10, with immunostaining exclusively extranuclear. During the late pseudoglandular stage, PP1, was predominantly expressed in the distal lung epithelium, whereas the mesenchyme contained very little or no PP1, protein. Peri- and postnatally, PP1, immunostaining was mostly nuclear in apparently differentiated cells, as judged by colocalization with well-known markers for lung differentiation. Exposure of fetal lung explants to antisense oligodeoxynucleotides against PP1,, resulted in decreased overall size of the cultured lung, a defect in forming new airways, lack of expression of surfactant protein C, and histologic signs of poor differentiation. These data suggest that PP1, is required for branching morphogenesis and differentiation. Developmental Dynamics 229:791,801, 2004. © 2004 Wiley-Liss, Inc. [source] Distinguishing medullary carcinoma of the breast from high-grade hormone receptor-negative invasive ductal carcinoma: an immunohistochemical approachHISTOPATHOLOGY, Issue 7 2010Uta Flucke Flucke U, Flucke M T, Hoy L, Breuer E, Goebbels R, Rhiem K, Schmutzler R, Winzenried H, Braun M, Steiner S, Buettner R & Gevensleben H (2010) Histopathology,56, 852,859 Distinguishing medullary carcinoma of the breast from high-grade hormone receptor-negative invasive ductal carcinoma: an immunohistochemical approach Aims:, Medullary carcinomas (MCs) represent a rare breast cancer subtype associated with a rather favourable prognosis compared with invasive ductal carcinomas (IDCs). Due to histopathological overlap, MCs are frequently misclassified as high-grade IDCs, potentially leading to overtreatment of MCs. Our aim was to establish novel diagnostic markers distinguishing MCs from hormone receptor-negative high-grade IDCs. Methods and results:, Sixty-one MCs and 133 hormone receptor-negative IDCs were analysed in a comparative immunohistochemical study. Applied markers included a comprehensive panel of cytokeratins (CKs), vimentin, smooth muscle actin (SMA), p63, p53, cell adhesion molecules [N-CAM (CD56), syndecan-1 (CD138), E-cadherin and P-cadherin] and development associated transcription factors (AP-2,, AP-2,). A significantly higher proportion of IDCs displayed increased expression of CK7, AP-2, and HER2 in contrast to MCs (CK7: 91% of IDCs versus 77% of MCs; AP-2,: 77% versus 57%; and HER2: 26% versus 7%, each P < 0.01). Vice versa, MCs were slightly more frequently positive for SMA and vimentin (P > 0.05). Conclusions:, Hormone receptor-negative high-grade IDCs are significantly associated with luminal differentiation, Her2 and AP-2, overexpression, whereas MCs tend to display myoepithelial features. Markers analysed in this study are of diagnostic value regarding the differential diagnosis of MCs. [source] Interstitial Cajal-like cells in rat mesentery: an ultrastructural and immunohistochemical approachJOURNAL OF CELLULAR AND MOLECULAR MEDICINE, Issue 1 2008M. E. Hinescu Abstract Interstitial Cajal-like Cells (ICLC) were recently recognized in a plethora of non-digestive organs. Here, we describe a cell type of rat mesentery sharing ultrastructural and immunohistochemical features with ICLC. Mesenteric ICLC were demonstrated by transmission electron microscopy (TEM) and further tested by light microscope immunohistochemistry. The cell described here fulfils the TEM diagnostic criteria accepted for ICLC: location in the connective interstitium; close vicinity to nerves, capillaries and other interstitial cells; characteristic long, moniliform cell processes; specialized cell-to-cell junctions; caveolae; mitochondria at 5,10% of cytoplasmic volume; rough endoplasmic reticulum at about 1,2%; intermediate and thin filaments, microtubules; undetectable thick filaments. The processes of this mesenteric ICLC were particularly long, with a mean length of 24.91 ,m (10.27,50.83 ,m), and a convolution index of 2.32 (1.37,3.63) was calculated in order to measure their potential length. Mean distances versus main target cells of ICLC,nerve bundles, vessels, adipocytes and macrophages,were 110.69, 115.80, 205.07 and 34.65 nm, respectively. We also tested the expression of CD117/c-kit, CD34, vimentin, ,-smooth muscle actin, nestin, NK-1, tryptase and chymase and the antigenic profile of the mesenteric ICLC was comparable if not identical with that recently observed in ICLC from other extra-digestive tissues. Due to the peculiar aspect of the mesenteric ICLC processes it can be hypothesized that these cells form a three-dimensional network within the mesentery that is at the same time resistant and deformable following stretches consequent to intestine movements, mainly avoiding blood vessels closure or controlling blood vessels rheology. It remains, however, to be established if and how such cells are connected with the archetypal enteric ICC. [source] Immunohistochemical determination of the P15INK4b protein expression in cutaneous squamous cell carcinomaJOURNAL OF CUTANEOUS PATHOLOGY, Issue 2 2009Ahmed I. Moad The tumor suppressor gene p15INK4b is a cyclin-dependent kinase inhibitor, in which its inactivation has been determined in primary tumors and in several tumor-derived cell lines. The precise role of p15INK4b protein expression in cutaneous squamous cell carcinoma (SCC) is currently not known. In a previous study, we have shown the frequent occurrence of allelic imbalance/loss of heterozygosity in cutaneous SCC using two microsatellite markers flanking the p15INK4b gene. This study is a continuation of our previous study and aims to determine the possible role of p15INK4b protein expression in the genesis of cutaneous SCC. P15INK4b protein expression was determined using immunohistochemical approach in 107 cases of cutaneous SCC tissue arrays and 19 cases of normal human skin tissues. The expression of p15INK4b was significantly reduced in the cutaneous SCC cases as compared with normal human skin (p = 0.017 and p < 0.05). However, there were no significant relationship between clinicopathologic variables of the patients (age, sex and tumor grade) and p15INK4b protein expression. The absence of p15INK4b expression in the majority of tissue microarray cores of cutaneous SCC indicated that p15INK4b could possibly be involved in the pathogenesis of cutaneous SCC. [source] Chemokine receptor expression in non-melanoma skin cancerJOURNAL OF CUTANEOUS PATHOLOGY, Issue 7 2008Jeff Basile Background:, Previous studies suggest that chemokines and chemokine receptors have a role in the metastatic process. A correlation exists between the specific expression of these chemoattractive, pro-inflammatory cytokines and the ability of cancer to disseminate. Prior studies have shown that in metastatic melanoma and squamous cell carcinoma of the head and neck upregulation of CXC (,) chemokine receptor (CXCR)4 and CC (,) chemokine receptor (CCR)7 expression is accompanied by downregulation of the chemokine receptor CCR6. However, the expression patterns of CCR6, CCR7 and CXCR4 in non-melanoma skin cancer have yet to be elucidated. Methods:, The expression patterns of CCR6, CCR7 and CXCR4 were determined using an immunohistochemical approach on formalin-fixed, paraffin-embedded normal, pre-cancerous actinic (solar) keratosis, squamous cell carcinoma and basal cell carcinoma tissues. Results:, Analysis of chemokine receptor expression showed downregulation of CCR6 and upregulation of CCR7 and CXCR4 in potentially metastatic non-melanoma skin cancer, invasive squamous cell carcinoma, but this pattern did not exist in non-melanoma skin cancer with no metastatic potential, basal cell carcinoma; or actinic keratosis, when compared with normal skin. Conclusions:, Chemokine receptor expression may influence the biological behavior of non-melanoma skin cancer. The exact mechanism by which this occurs requires further study. [source] Immunohistochemical parcellation of the ferret (Mustela putorius) visual cortex reveals substantial homology with the cat (Felis catus)THE JOURNAL OF COMPARATIVE NEUROLOGY, Issue 21 2010Jihane Homman-Ludiye Abstract Electrophysiological mapping of the adult ferret visual cortex has until now determined the existence of 12 retinotopically distinct areas; however, in the cat, another member of the Carnivora, 20 distinct visual areas have been identified by using retinotopic mapping and immunolabeling. In the present study, the immunohistochemical approach to demarcate the areal boundaries of the adult ferret visual cortex was applied in order to overcome the difficulties in accessing the sulcal surfaces of a small, gyrencephalic brain. Nonphosphorylated neurofilament (NNF) expression profiles were compared with another classical immunostain of cortical nuclei, Cat-301 chondroitin sulfate proteoglycan (CSPG). Together, these two markers reliably demarcated the borders of the 12 previously defined areas and revealed further arealization beyond those borders to a total of 19 areas: 21a and 21b; the anterolateral, posterolateral, dorsal, and ventral lateral suprasylvian areas (ALLS, PLLS, DLS, and VLS, respectively); and the splenial and cingulate visual areas (SVA and CVA). NNF expression profile and location of the newly defined areas correlate with previously defined areas in the cat. Moreover, NNF and Cat-301 together revealed discrete expression domains in the posteroparietal (PP) cortex, demarcating four subdivisions in the caudal lateral and medial domains (PPcL and PPcM) and rostral lateral and medial domains (PPrL and PPrM), where only two retinotopic maps have been previously identified (PPc and PPr). Taken together, these studies suggest that NNF and Cat-301 can illustrate the homology between cortical areas in different species and draw out the principles that have driven evolution of the visual cortex. J. Comp. Neurol. 518:4439,4462, 2010. © 2010 Wiley-Liss, Inc. [source] The expression patterns of Pax7 in satellite cells during overload-induced rat adult skeletal muscle hypertrophyACTA PHYSIOLOGICA, Issue 4 2009M. Ishido Abstract Aim:, Activated satellite cells (SCs) have the ability to reacquire a quiescent, undifferentiated state. Pax7 plays a crucial role in allowing activated SCs to undergo self-renewal. Because the increase in the SC population is induced during overload-induced skeletal muscle hypertrophy, it is possible that Pax7-regulated SC self-renewal is involved in the modulation of the SC population during the functional overload of skeletal muscles. However, the characteristics of the expression patterns of Pax7 in SCs during the functional overload of adult skeletal muscles are poorly understood. Methods:, Using immunohistochemical approaches, we examined the temporal and spatial expression patterns of Pax7 expressed in SCs during the functional overloading of rat skeletal muscles. Results:, The time course of Pax7 expression in SCs was similar to that of the expression of the differentiation regulatory factor myogenin during the early stage of functional overload. However, the percentage of SCs that expressed Pax7 was markedly higher than that of the SCs that expressed myogenin. Coexpression of Pax7 and myogenin was not detected in SCs. In addition, the expression of cyclin-dependent kinase inhibitor p21, which regulates cell cycle arrest and differentiation, was not detected in Pax7-positive SCs. Conclusion:, These results suggest that Pax7-regulated self-renewal of SCs may be induced during the early stage of functional overload and may contribute to modulating the SC population in hypertrophied muscles. Furthermore, it was suggested that the numbers of SCs which underwent self-renewal may be higher than that of SCs which were provided as the additional myonuclei for hypertrophying myofibres. [source] Alterations of M-cadherin, neural cell adhesion molecule and , -catenin expression in satellite cells during overload-induced skeletal muscle hypertrophyACTA PHYSIOLOGICA, Issue 3 2006M. Ishido Abstract Aim:, Neural cell adhesion molecule (NCAM) and M-cadherin are cell adhesion molecules expressed on the surface of skeletal muscle satellite cell (SC). During myogenic morphogenesis, M-cadherin participates in mediating terminal differentiation and fusion of myoblasts by forming a complex with , -catenin and that NCAM contributes to myotube formation by fusion of myoblasts. Hypertrophy and hyperplasia of functionally overloaded skeletal muscle results from the fusion with SCs into the existing myofibres or new myofibre formation by SC,SC fusion. However, the alterations of NCAM, M-cadherin and , -catenin expressions in SCs in response to functional overload have not been investigated. Methods:, Using immunohistochemical approaches, we examined the temporal and spatial expression patterns of these factors expressed in SCs during the functional overload of skeletal muscles. Results:, Myofibres with SCs showing NCAM+/M-cadherin,, NCAM+/M-cadherin+ or NCAM,/M-cadherin+ were detected in overloaded muscles. The percentage changes of myofibres with SCs showing NCAM+/M-cadherin,, NCAM+/M-cadherin+ or NCAM,/M-cadherin+ were elevated in day-3 post-overloaded muscles, and then only the percentage changes of myofibres with SCs showing NCAM,/M-cadherin+ were significantly increased in day-7 post-overload muscles (P < 0.05). Both , -catenin and M-cadherin were co-localized throughout quiescent, proliferation and differentiation stages of SCs. Conclusion:, These results suggested that the expressions of NCAM, M-cadherin and , -catenin in SCs may be controlled by distinct regulatory mechanisms during functional overload, and that interactions among NCAM, M-cadherin and , -catenin in SCs may play important roles to contribute to overload-induced muscle hypertrophy via fusion with each other or into the existing myofibres of SCs. [source] Contribution of Kv4 channels toward the A-type potassium current in murine colonic myocytesTHE JOURNAL OF PHYSIOLOGY, Issue 2 2002Gregory C. Amberg A rapidly inactivating K+ current (A-type current; IA) present in murine colonic myocytes is important in maintaining physiological patterns of slow wave electrical activity. The kinetic profile of colonic IA resembles that of Kv4-derived currents. We examined the contribution of Kv4 ,-subunits to IA in the murine colon using pharmacological, molecular and immunohistochemical approaches. The divalent cation Cd2+ decreased peak IA and shifted the voltage dependence of activation and inactivation to more depolarized potentials. Similar results were observed with La3+. Colonic IA was sensitive to low micromolar concentrations of flecainide (IC50= 11 ,M). Quantitative PCR indicated that in colonic and jejunal tissue, Kv4.3 transcripts demonstrate greater relative abundance than transcripts encoding Kv4.1 or Kv4.2. Antibodies revealed greater Kv4.3-like immunoreactivity than Kv4.2-like immunoreactivity in colonic myocytes. Kv4-like immunoreactivity was less evident in jejunal myocytes. To address this finding, we examined the expression of K+ channel-interacting proteins (KChIPs), which act as positive modulators of Kv4-mediated currents. Qualitative PCR identified transcripts encoding the four known members of the KChIP family in isolated colonic and jejunal myocytes. However, the relative abundance of KChIP transcript was 2.6-fold greater in colon tissue than in jejunum, as assessed by quantitative PCR, with KChIP1 showing predominance. This observation is in accordance with the amplitude of the A-type current present in these two tissues, where colonic myocytes possess densities twice that of jejunal myocytes. From this we conclude that Kv4.3, in association with KChIP1, is the major molecular determinant of IA in murine colonic myocytes. [source] | |||||||||||||