Karina Weinhold scite author profile

The P2X7 receptor has recently been described as a marker for lung alveolar epithelial type I cells. Here, we demonstrate both the expression of P2X7 protein and its partition into lipid rafts in the mouse lung alveolar epithelial cell line E10. A significant degree of colocalization was observed between P2X7 and the raft marker protein Caveolin‐1; also, P2X7 protein was associated with caveolae. A marked reduction in P2X7 immunoreactivity was observed in lung sections prepared from Caveolin‐1‐knockout mice, indicating that Caveolin‐1 expression was required for full expression of P2X7 protein. Indeed, suppression of Caveolin‐1 protein expression in E10 cells using short hairpin RNAs resulted in a large reduction in P2X7 protein expression. Our data demonstrate a potential interaction between P2X7 protein and Caveolin‐1 in lipid rafts, and provide a basis for further functional and biochemical studies to probe the physiologic significance of this interaction.

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Interaction and interrelation of P2X7 and P2X4 receptor complexes in mouse lung epithelial cells

Weinhold

Krause‐Buchholz

Rödel

et al. 2010

Cell. Mol. Life Sci.

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P2X4 and P2X7 receptors are ATP-gated ion channels that are co-expressed in alveolar epithelial type I cells. Both receptors are localized to the plasma membrane and partly associated with lipid rafts. Here we report on our study in an alveolar epithelial cell line of the molecular organization of P2X7R and P2X4R receptors and the effect of their knockdown. Native gel electrophoresis reveals three P2X7R complexes of approximately 430, approximately 580 and approximately 760 kDa. The latter two correspond exactly in size to signals of Cav-1, the structural protein of caveolae. Interestingly knockdown of P2rx7 affects protein levels, the intracellular distribution and the supramolecular organization of Cav-1 as well as of P2X4R, which is mainly detected in a complex of approximately 430 kDa. Our data suggest upregulation of P2X4R as a compensatory mechanism of P2X7R depletion.

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Characterization of the molecular interaction between caveolin-1 and the P2X receptors 4 and 7 in E10 mouse lung alveolar epithelial cells

Barth

Weinhold

Guenther

et al. 2008

The International Journal of Biochemistry & Cell Biology

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Downregulation of caveolin-1 affects bleomycin-induced growth arrest and cellular senescence in A549 cells

Linge

Weinhold

Bläsche

et al. 2007

The International Journal of Biochemistry & Cell Biology

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Mechanisms of Cilia-Driven Transport in the Airways in the Absence of Mucus

Bermbach

Weinhold

Roeder

et al. 2014

Am J Respir Cell Mol Biol

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Airway mucus is thought to be required for the clearance of inhaled particles by mucociliary transport, but this view has recently been challenged. To test if mucus is necessary for cilia-driven particle transport, we removed mucus from murine and human ex vivo airway preparations by thorough rinsing with buffer with or without additional dithiothreitol washing. The transport of particles with diameters of 4.5 μm, 200 nm, and 40 nm and of bacteria was analyzed by video microscopy. Complete removal of mucus was verified by wheat germ agglutinin staining and by scanning electron microscopy. In the absence of mucus, we observed efficient transport of particles and bacteria by direct cilia-mediated propulsion or via fluid flow generated by ciliary beating. Virus-sized particles had the tendency to attach to cilia. Because direct contact of particles with ciliated cells occurs in the absence of mucus, we examined if this direct interaction changes epithelial function. Neither bacteria- nor LPS-induced nuclear translocation of NF-κB p65 in ciliated cells occurred, indicating that mere contact between ciliated cells and bacteria during transport does not activate the epithelium. Attachment of virus-sized particles to cilia could induce mucus release and/or increase the ciliary beat frequency. Our results indicate that cilia-driven transport of particles with various sizes is possible in murine and human airways without the presence of mucus. If mucus-free transport fails, the epithelium can react by releasing mucus or increasing the ciliary beat frequency to maintain particle transport.

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Karina Weinhold

Caveolin‐1 influences P2X₇ receptor expression and localization in mouse lung alveolar epithelial cells

Interaction and interrelation of P2X7 and P2X4 receptor complexes in mouse lung epithelial cells

Characterization of the molecular interaction between caveolin-1 and the P2X receptors 4 and 7 in E10 mouse lung alveolar epithelial cells

Downregulation of caveolin-1 affects bleomycin-induced growth arrest and cellular senescence in A549 cells

Mechanisms of Cilia-Driven Transport in the Airways in the Absence of Mucus

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Karina Weinhold

Caveolin‐1 influences P2X7 receptor expression and localization in mouse lung alveolar epithelial cells

Interaction and interrelation of P2X7 and P2X4 receptor complexes in mouse lung epithelial cells

Characterization of the molecular interaction between caveolin-1 and the P2X receptors 4 and 7 in E10 mouse lung alveolar epithelial cells

Downregulation of caveolin-1 affects bleomycin-induced growth arrest and cellular senescence in A549 cells

Mechanisms of Cilia-Driven Transport in the Airways in the Absence of Mucus

Contact Info

Product

Resources

About

Caveolin‐1 influences P2X₇ receptor expression and localization in mouse lung alveolar epithelial cells