Robin Steiner scite author profile

Robin Steiner

3Publications

46Citation Statements Received

85Citation Statements Given

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Affiliations

Boehringer Ingelheim (Germany)

Publications

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Lactoferrin Is an Allosteric Enhancer of the Proteolytic Activity of Cathepsin G

Eipper¹,

Steiner²,

Lesner

et al. 2016

PLoS ONE

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Protease-mediated degradation of proteins is critical in a plethora of physiological processes. Neutrophils secrete serine proteases including cathepsin G (CatG), neutrophile elastase (NE), and proteinase 3 (PR3) together with lactoferrin (LF) as a first cellular immune response against pathogens. Here, we demonstrate that LF increases the catalytic activity of CatG at physiological concentration, with its highest enhancing capacity under acidic (pH 5.0) conditions, and broadens the substrate selectivity of CatG. On a functional level, the enzymatic activity of CatG was increased in the presence of LF in granulocyte-derived supernatant. Furthermore, LF enhanced CatG-induced activation of platelets as determined by cell surface expression of CD62P. Consequently, LF-mediated enhancement of CatG activity might promote innate immunity during acute inflammation.

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Establishment of a CFD‐based k_La model in microtiter plates to support CHO cell culture scale‐up during clone selection

Wutz

Steiner

Aßfalg

et al. 2018

Biotechnology Progress

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Microtiter plates are a common tool for clone selection in biopharmaceutical development. A way of visualizing and evaluating these systems and key processes parameters is the application of Computational Fluid Dynamics (CFD). CFD is a powerful tool for the modelling of hydrodynamics and mass transfer parameters. In this work, CFD was used to determine the specific surface area, the volumetric power input and the oxygen mass transfer coefficient kLa for two different microtiter plates with different scales (100 μL ‐ 5 mL). For this purpose, a new method of predicting the kLa is presented and calibrated with literature data. Scaling effects in shaken microtiter plates are evaluated by comparing two culture volume scales under various operating conditions. To test validity of these models, three different Boehringer Ingelheim Pharma proprietary CHO production cell lines with different growth characteristics were cultivated using the respective microtiter plates under different conditions until limitations in growth and viability were observable. The cell culture data then was compared to different parameters obtained by CFD. The calculated kLa values match the cell culture performance in the 96‐deepwell by predicting lowered oxygen transfer with increasing culture volume and decreasing orbital velocity. The same cells behave differently in the 6‐deepwell scale. Here, the overall larger shear stress might cause physical stress for the cells. The kLa model predicts overall higher shear rates for this system, supporting the experimental findings. © 2018 American Institute of Chemical Engineers Biotechnol. Prog., 2018

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Genetic (re-)evaluation to optimize the care of adults with intellectual disability

Knopp¹,

Steiner²,

Lausberg³

et al. 2022

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Robin Steiner

Lactoferrin Is an Allosteric Enhancer of the Proteolytic Activity of Cathepsin G

Establishment of a CFD‐based k_La model in microtiter plates to support CHO cell culture scale‐up during clone selection

Genetic (re-)evaluation to optimize the care of adults with intellectual disability

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Robin Steiner

Lactoferrin Is an Allosteric Enhancer of the Proteolytic Activity of Cathepsin G

Establishment of a CFD‐based kLa model in microtiter plates to support CHO cell culture scale‐up during clone selection

Genetic (re-)evaluation to optimize the care of adults with intellectual disability

Contact Info

Product

Resources

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Establishment of a CFD‐based k_La model in microtiter plates to support CHO cell culture scale‐up during clone selection