Impaired Caveolae Function and Upregulation of Alternative Endocytic Pathways Induced by Experimental Modulation of Intersectin-1s Expression in Mouse Lung Endothelium

Intersectin-1s (ITSN-1s), a protein containing five SH3 (A-E) domains, regulates via the SH3A the function of dynamin-2 (dyn2) at the endocytic site. ITSN-1s expression was modulated in mouse lung endothelium by liposome delivery of either a plasmid cDNA encoding myc-SH3A or a specific siRNA targeting ITSN-1 gene. The lung vasculature of SH3A-transduced and ITSN-1s- deficient mice was perfused with gold albumin (Au-BSA) to analyze by electron microscopy the morphological intermediates and pathways involved in transendothelial transport or with dinitrophenylated (DNP)-BSA to quantify by ELISA its transport. Acute modulation of ITSN-1s expression decreased the number of caveolae, impaired their transport, and opened the interendothelial junctions, while upregulating compensatory nonconventional endocytic/transcytotic structures. Chronic inhibition of ITSN-1s further increased the occurrence of nonconventional intermediates and partially restored the junctional integrity. These findings indicate that ITSN-1s expression is required for caveolae function and efficient transendothelial transport. Moreover, our results demonstrate that ECs are highly adapted to perform their transport function while maintaining lung homeostasis.

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Characterization of Endocytic Pathways by Quantitative Fluorescence Microscopy

Microscopy and Microanalysis ◽

10.1017/s1431927600025241 ◽

1998 ◽

Vol 4 (S2) ◽

pp. 1024-1025

Author(s):

Frederick R. Maxfield ◽

Richik N. Ghosh ◽

William G. Mallet ◽

Thwe Thwe Soe ◽

Philip L. Leopold ◽

...

Keyword(s):

Electron Microscopy ◽

Cell Surface ◽

Light And Electron Microscopy ◽

Endocytic Pathway ◽

Early Endosomes ◽

Pass Through ◽

Golgi Network ◽

Quantitative Fluorescence ◽

Endocytic Pathways

We have used light and electron microscopy to analyze endocytic trafficking pathways. In one set of studies, we have used fluorescently labeled antibodies to trace an endocytic pathway from the cell surface to the trans- Golgi network (TGN). Cells were transfected with a construct consisting of the transmembrane and cytoplasmic domains of TGN38 and the extracellular domain of Tac. TGN38 is predominantly in the TGN, but a small fraction is found on the cell surface. We used FITC-labeled anti-Tac monoclonal IgG to analyze the pathway from the surface to the TGN. We compared the distribution of internalized Tac-TGN38 to internalized transferrin. We found that most Tac-TGN38 enters the same early endosomes as transferrin. Furthermore, most Tac-TGN38 returns to the cell surface from the endocytic recycling compartment (ERC) at the same rate as transferrin. However, on each pass through the cell approximately 18% of Tac-TGN is retained, and this Tac-TGN38 is delivered to the TGN.

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Silica nanoparticle-induced toxicity in mouse lung and liver imaged by electron microscopy

Fundamental Toxicological Sciences ◽

10.2131/fts.2.19 ◽

2015 ◽

Vol 2 (1) ◽

pp. 19-23 ◽

Cited By ~ 1

Author(s):

Katsuhiro Isoda ◽

Masuo Kondoh ◽

Yasuo Yoshioka ◽

Yasuo Tsutsumi ◽

Takayoshi Imazawa ◽

...

Keyword(s):

Electron Microscopy ◽

Silica Nanoparticle ◽

Mouse Lung

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Bleomycin-Treated Chimeric Thy1-Deficient Mice with Thy1-Deficient Myofibroblasts and Thy-Positive Lymphocytes Resolve Inflammation without Affecting the Fibrotic Response

Mediators of Inflammation ◽

10.1155/2015/942179 ◽

2015 ◽

Vol 2015 ◽

pp. 1-13 ◽

Cited By ~ 1

Author(s):

Pazit Y. Cohen ◽

Raphael Breuer ◽

Philip Zisman ◽

Shulamit B. Wallach-Dayan

Keyword(s):

Mouse Lung ◽

Genetic Changes ◽

Abnormal Accumulation ◽

Inflammatory Milieu ◽

The Impact ◽

Mouse Lungs ◽

Two Populations ◽

Deficient Mice ◽

Chip Analysis

Lung fibrosis is characterized by abnormal accumulation of fibroblasts in the interstitium of the alveolar space. Two populations of myofibroblasts, distinguished by Thy1 expression, are detected in human and murine lungs. Accumulation of Thy1-negative (Thy1−) myofibroblasts was shown in the lungs of humans with idiopathic pulmonary fibrosis (IPF) and of bleomycin-treated mice. We aimed to identify genetic changes in lung myofibroblasts following Thy1 crosslinking and assess the impact of specific lung myofibroblast Thy1-deficiency, in vivo, in bleomycin-injured mouse lungs. Thy1 increased in mouse lung lymphocytes following bleomycin injury but decreased in myofibroblasts when fibrosis was at the highest point (14 days), as assessed by immunohistochemistry. Using gene chip analysis, we detected that myofibroblast Thy1 crosslinking mediates downregulation of genes promoting cell proliferation, survival, and differentiation, and reduces production of extracellular matrix (ECM) components, while concurrently mediating the upregulation of genes known to foster inflammation and immunological functions. Chimeric Thy1-deficient mice with Thy1+lymphocytes and Thy1−myofibroblasts showed fibrosis similar to wild-type mice and an increased number of CD4/CD25 regulatory T cells, with a concomitant decrease in inflammation. Lung myofibroblasts downregulate Thy1 expression to increase their proliferation but to diminish the in vivo inflammatory milieu. Inflammation is not essential for evolution of fibrosis as was previously stated.

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Lung arginase expression and activity is increased in cystic fibrosis mouse models

Journal of Applied Physiology ◽

10.1152/japplphysiol.00167.2014 ◽

2014 ◽

Vol 117 (3) ◽

pp. 284-288 ◽

Cited By ~ 9

Author(s):

Thomas Jaecklin ◽

Julia Duerr ◽

Hailu Huang ◽

Mahroukh Rafii ◽

Christine E. Bear ◽

...

Keyword(s):

Cystic Fibrosis ◽

Pseudomonas Aeruginosa ◽

Mouse Models ◽

Arginase Activity ◽

Mouse Lung ◽

Wild Type ◽

Arginase 1 ◽

Isolated Lung ◽

Deficient Mice ◽

Expression And Activity

The activity of arginase is increased in airway secretions of patients with cystic fibrosis (CF). Downstream products of arginase activity may contribute to CF lung disease. We hypothesized that pulmonary arginase expression and activity would be increased in mouse models of CF and disproportionally increased in CF mice with Pseudomonas aeruginosa pneumonia. Expression of arginase isoforms in lung tissue was quantified with reverse transcriptase-PCR in naive cystic fibrosis transmembrane conductance regulator ( Cftr)-deficient mice and β-epithelial sodium channel-overexpressing [β-ENaC-transgenic (Tg)] mice. An isolated lung stable isotope perfusion model was used to measure arginase activity in Cftr-deficient mice before and after intratracheal instillation of Pseudomonas aeruginosa. The expression of arginase-2 in lung was increased in adult Cftr-deficient animals and in newborn β-ENaC-Tg. Arginase-1 lung expression was normal in Cftr-deficient and in newborn β-ENaC-Tg mice, but was increased in β-ENaC-Tg mice at age 1, 3, and 6 wk. Arginase activity was significantly higher in lung (5.0 ± 0.7 vs. 3.2 ± 0.3 nmol·−1·h−1, P = 0.016) and airways (204.6 ± 49.8 vs. 79.3 ± 17.2 nmol·−1·h−1, P = 0.045) of naive Cftr-deficient mice compared with sex-matched wild-type littermate controls. Infection with Pseudomonas aeruginosa resulted in a far greater increase in lung arginase activity in Cftr-deficient mice (10-fold) than in wild-type controls (6-fold) ( P = 0.01). This is the first ex vivo characterization of arginase expression and activity in CF mouse lung and airways. Our data show that pulmonary arginase expression and activity is increased in CF mice, especially with Pseudomonas aeruginosa infections.

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Scanning Electron Microscopy Study of Endothelial Injury and Thrombus Formation in WT and VWF Deficient Mice.

Blood ◽

10.1182/blood.v114.22.3062.3062 ◽

2009 ◽

Vol 114 (22) ◽

pp. 3062-3062

Author(s):

Justin Barr ◽

Jennifer Barr ◽

Marielle Meurice ◽

David Motto

Keyword(s):

Electron Microscopy ◽

Scanning Electron Microscopy ◽

Thrombus Formation ◽

Endothelial Damage ◽

Wild Type ◽

Subsequent Formation ◽

Time Points ◽

Endothelial Surface ◽

Deficient Mice ◽

Scanning Electron

Abstract Abstract 3062 Poster Board II-1038 VWF is a large plasma glycoprotein required for normal hemostasis, and performs its function through binding to coagulation Factor VIII, and via interactions with both platelet surface glycoproteins and the activated and/or damaged vascular surface. We have developed a scanning electron microscopy (SEM) protocol to visualize endothelial damage and thrombus formation in wild-type and VWF-deficient mice. Thrombus formation is initiated by ferric chloride, and subsequently at defined time points, the circulation is rapidly flushed and aldehyde fixed. The carotid artery is removed, externally fixed, sectioned (both longitudinally and in cross-section), processed for SEM, and visualized. With this protocol we have obtained high-quality images (exceeding 100,000x) of FeCl3-induced endothelial damage and thrombus formation in C57BL/6 and VWF-deficient mice at baseline, and at 30, 60, 90, 120, 240, and 300 seconds post-injury (please access http://sites.google.com/site/mottolab/ to view images). Interestingly, we find that FeCl3 induces little, if any, endothelial denudation and collagen exposure at these time points, with the endothelium clearly appearing changed from baseline, but not damaged. Thus, initial platelet adhesion seems to be occurring in the absence of collagen exposure in this model. In wild-type mice, platelets adhere rapidly to the endothelial surface and assume a cross-linked appearance by 90 seconds, with continual inward growth of the thrombus through the 300 second time point. In VWF-deficient mice, platelets also adhere rapidly to the endothelial surface, but in contrast, remain recognizable longer without assuming a highly-activated phenotype. Compared with wild-type, at all time points examined the VWF-deficient thrombus appears smaller with considerably less cross-linking and platelet activation. Interestingly, during the course of these experiments we also have identified what appears to be red blood cells (RBCs) participating in thrombus formation. Similar to platelets, RBCs interact directly with the endothelial surface, and subsequently become elongated in the direction of blood flow. These elongated RBCs are often observed to cluster and bind platelets, with the subsequent formation of large platelet-erythrocyte complexes. Further characterization of these complexes and the role they may play in thrombus formation is currently in progress. Additionally, similar SEM studies are underway with both ADAMTS13-deficient and GPIb alpha-deficient mice, and with mice transiently expressing in vivo biotinylated VWF for visualization of this molecule at high magnification and resolution. These studies should help better define the mechanisms of endothelial activation and thrombus formation as they occur in situ. Disclosures No relevant conflicts of interest to declare.

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Isoform and Splice-Variant Specific Functions of Dynamin-2 Revealed by Analysis of Conditional Knock-Out Cells

Molecular Biology of the Cell ◽

10.1091/mbc.e08-08-0890 ◽

2008 ◽

Vol 19 (12) ◽

pp. 5347-5359 ◽

Cited By ~ 103

Author(s):

Ya-Wen Liu ◽

Mark C. Surka ◽

Thomas Schroeter ◽

Vasyl Lukiyanchuk ◽

Sandra L. Schmid

Keyword(s):

Splice Variant ◽

Intracellular Trafficking ◽

Splice Variants ◽

Mammalian Genome ◽

Vesicular Trafficking ◽

Cellular Functions ◽

Knock Out ◽

Cellular Events ◽

Dynamin 2 ◽

Endocytic Pathways

Dynamin (Dyn) is a multifunctional GTPase implicated in several cellular events, including endocytosis, intracellular trafficking, cell signaling, and cytokinesis. The mammalian genome encodes three isoforms, Dyn1, Dyn2, and Dyn3, and several splice variants of each, leading to the suggestion that distinct isoforms and/or distinct splice variants might mediate distinct cellular functions. We generated a conditional Dyn2 KO cell line and performed knockout and reconstitution experiments to explore the isoform- and splice variant specific cellular functions of ubiquitously expressed Dyn2. We find that Dyn2 is required for clathrin-mediated endocytosis (CME), p75 export from the Golgi, and PDGF-stimulated macropinocytosis and cytokinesis, but not for other endocytic pathways. Surprisingly, CME and p75 exocytosis were efficiently rescued by reintroduction of Dyn2, but not Dyn1, suggesting that these two isoforms function differentially in vesicular trafficking in nonneuronal cells. Both isoforms rescued macropinocytosis and cytokinesis, suggesting that dynamin function in these processes might be mechanistically distinct from its role in CME. Although all four Dyn2 splice variants could equally restore CME, Dyn2ba and -bb were more effective at restoring p75 exocytosis. This splice variant specificity correlated with their differential targeting to the Golgi. These studies reveal isoform and splice-variant specific functions for Dyn2.

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