A. F. Bauer scite author profile

A. F. Bauer

2Publications

28Citation Statements Received

60Citation Statements Given

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University of Freiburg

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Bone Morphogenetic Protein-Modulator BMPER Regulates Endothelial Barrier Function

et al. 2016

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The endothelium serves as a selective barrier and controls the exchange of nutrients, hormones, and leukocytes between blood and tissues. Molecular mechanisms contributing to the pathogenesis of endothelial barrier dysfunction remain incompletely understood. Accumulating evidence implicates bone morphogenetic protein (BMP)-modulator BMPER as a key regulator in endothelial biology. Herein, we analyze the impact of BMPER in the control of endothelial barrier function. To assess the role of BMPER in vascular barrier function in mice, we measured the leakage of Evans blue dye from blood into interstitial lung tissue. BMPER mice exhibited a significantly higher degree of vascular leak compared with wild-type siblings. In accordance with our in vivo observation, siRNA-based BMPER knockdown in human umbilical endothelial cells increased endothelial permeability measured by FITC-dextran passage in transwell assays. Mechanistically, BMPER knockdown reduced the expression of VE-cadherin, a pivotal component of endothelial adherens junctions. Conversely, recombinant human BMPER protein upregulated VE-cadherin protein levels and improved endothelial barrier function in transwell assays. The effects of BMPER knockdown on VE-cadherin expression and endothelial permeability were induced by enhanced BMP activity. Supporting this notion, activation of BMP4-Smad-Id1 signaling reduced VE-cadherin levels and impaired endothelial barrier function in vitro. In vivo, Evans blue dye accumulation was higher in the lungs of BMP4-treated C57BL/6 mice compared to controls indicating that BMP4 increased vascular permeability. High levels of BMPER antagonized BMP4-Smad5-Id1 signaling and prevented BMP4-induced downregulation of VE-cadherin and endothelial leakage, suggesting that BMPER exerts anti-BMP effects and restores endothelial barrier function. Taken together, this data demonstrates that BMPER-modulated BMP pathway activity regulates VE-cadherin expression and vascular barrier function.

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Measurements of ¹⁸O‐P_i uptake indicate fast metabolism of phosphate in tree roots

et al. 2019

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Keywords 18 O-phosphate uptake; 33 P-phosphate uptake; excised non-mycorrhizal roots; Fagus sylvatica; field study; Michaelis-Menten kinetics; Populus x canescens.ABSTRACT Phosphorus (P) nutrition of beech ecosystems depends on soil processes, plant internal P cycling and P acquisition. P uptake of trees in the field is currently not validated due to the lack of an experimental approach applicable in natural forests. Application of radiolabelled tracers such as 33 P and 32 P is limited to special research sites and not allowed in natural environments. Moreover, only one stable isotope of P, namely 31 P, exists. One alternative tool to measure P acquisition in the field could be the use of 18 O-labelled 31 P-phosphate ( 31 P 18 O 4 3À ). Phosphate (P i ) uptake rates calculated from the 18 O enrichment of dried root material after application of 31 P i 18 Plant Biology 21 (2019) 565-570

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A. F. Bauer

Bone Morphogenetic Protein-Modulator BMPER Regulates Endothelial Barrier Function

Measurements of ¹⁸O‐P_i uptake indicate fast metabolism of phosphate in tree roots

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A. F. Bauer

Bone Morphogenetic Protein-Modulator BMPER Regulates Endothelial Barrier Function

Measurements of 18O‐Pi uptake indicate fast metabolism of phosphate in tree roots

Contact Info

Product

Resources

About

Measurements of ¹⁸O‐P_i uptake indicate fast metabolism of phosphate in tree roots