Sandra E. Motsch scite author profile

Sandra E. Motsch

4Publications

32Citation Statements Received

85Citation Statements Given

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Saarland University

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Different cell cycle responses of wound healing protagonists to transient in vitro hypoxia

Oberringer

Jennewein

Motsch

et al. 2005

Histochem Cell Biol

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Polyploidization is a process present in cells of many different human tissues. Since it is also prominent in human wound healing in vivo and in vitro, we focused on the influence of hypoxia on the cells' proliferation and polyploidization response. The proliferation response of two major cell types, involved in human wound healing, human dermal microvascular endothelial cells (HDMEC) and normal human dermal fibroblasts (NHDF) was quite similar in the in vitro setup: proliferation significantly decreased under the influence of 18 h of hypoxia and was reinitiated after 72 h of reoxygenation. The cells' response concerning their tendency towards the development of polyploidy was different: NHDF did not generate any polyploid cells, which stands in contrast to former in vitro studies with human wound-derived fibroblasts, but HDMEC were characterized by the presence of both mononuclear and binuclear tetraploid cells. The number of tetraploids was downregulated during hypoxia and increased during reoxygenation, accompanied by proliferation onset. The immunomicroscopic survey of HDMEC opened up a cell cycle model, which might be useful in the future to evaluate cell cycle modulations leading to polyploidy without the need to apply any additional cell cycle inhibitors.

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Induction of Myofibroblastic DifferentiationIn Vitroby Covalently Immobilized Transforming Growth Factor-β₁

et al. 2007

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Growth factors are an important tool in tissue engineering. Bone morphogenetic protein-2 and transforming growth factor-beta(1) (TGF-beta(1)) are used to provide bioactivity to surgical implants and tissue substitute materials. Mostly growth factors are used in soluble or adsorbed form. However, simple adsorption of proteins to surfaces is always accompanied by reduced stability and undefined pharmacokinetics. This study aims to prove that TGF-beta(1) can be covalently immobilized to functionalized surfaces, maintaining its ability to induce myofibroblastic differentiation of normal human dermal fibroblasts. In vivo, fibroblasts differentiate to myofibroblasts (MFs) during soft tissue healing by the action of TGF-beta(1). As surfaces for our experiments, we used slides bearing aldehyde, epoxy, or amino groups. For our in vitro cell culture experiments, we used the expression of alpha-smooth muscle actin as a marker for MFs after immunochemical staining. Using the aldehyde and the epoxy slides, we were able to demonstrate the activity of immobilized TGF-beta(1) through a significant increase in MF differentiation rate. A simple immunological test was established to detect TGF-beta(1) on the surfaces. This technology enables the creation of molecular "landscapes" consisting of several factors arranged in a distinct spatial pattern and immobilized on appropriate surfaces.

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Cytogenetic Characterization of in Vitro Hypoxia Treated Cells.

Seekamp

Oberringer

Jennewein

et al. 2003

Shock

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Characteristic Response Patterns of Endothelial Cells to Hypoxia

Oberringer¹,

Jennewein²,

Motsch³

et al. 2004

Shock

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Sandra E. Motsch

Different cell cycle responses of wound healing protagonists to transient in vitro hypoxia

Induction of Myofibroblastic DifferentiationIn Vitroby Covalently Immobilized Transforming Growth Factor-β₁

Cytogenetic Characterization of in Vitro Hypoxia Treated Cells.

Characteristic Response Patterns of Endothelial Cells to Hypoxia

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Sandra E. Motsch

Different cell cycle responses of wound healing protagonists to transient in vitro hypoxia

Induction of Myofibroblastic DifferentiationIn Vitroby Covalently Immobilized Transforming Growth Factor-β1

Cytogenetic Characterization of in Vitro Hypoxia Treated Cells.

Characteristic Response Patterns of Endothelial Cells to Hypoxia

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Induction of Myofibroblastic DifferentiationIn Vitroby Covalently Immobilized Transforming Growth Factor-β₁