Christian Freitag scite author profile

Mesenchymal stem cells have become extremely interesting for regenerative medicine and tissue engineering in the horse. Stem cell therapy has been proven to be a powerful and successful instrument, in particular for the healing of tendon lesions. We pre-differentiated equine adipose-tissue-derived stem cells (ASCs) in a collagen I gel scaffold by applying tensile strain, growth differentiation factors (GDFs) and various oxygen tensions in order to determine the optimal conditions for in vitro differentiation toward the tenogenic lineage. We compared the influence of 3% versus 21% oxygen tension, the use of GDF 5, GDF 6 and GDF 7 and the application of uniaxial tensile strain versus no mechanical stimulation on differentiation results as evaluated by cell morphology and by the expression of the tendon-relevant genes collagen I, collagen III, cartilage oligomeric matrix protein and scleraxis. The best results were obtained with an oxygen tension of 21%, tensile stimulation and supplementation with GDF 5 or GDF 7. This approach raises the hope that the in vivo application of pre-differentiated stem cells will improve healing and recovery time in comparison with treatment involving undifferentiated stem cells.

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Vinculin interaction with permeabilized cells: disruption and reconstitution of a binding site.

Ball¹,

Freitag²,

Gurofsky³

1986

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Abstract. Fluorescently labeled vinculin binds to focal contact areas in permeabilized cells independent of actin (Avnur, Z., J. V. Small, and B. Geiger, 1983, J. Cell Biol., 96:1622-1630, but the nature of the binding site is unknown. In this study we have examined the interaction of vinculin with these sites in permeabilized L6 myoblasts to define conditions that perturb the binding and subsequently to reconstitute it. Mild treatment with low concentrations of protease prevents vinculin incorporation without gross changes in the cytoskeleton or extensive protein breakdown. Exposure to buffers of moderate ionic strength also reduces subsequent vinculin binding without large morphological effects. These extraction conditions were used to obtain a fraction from gizzard which was able to restore the vinculin localization. Talin, actin, and vinculin itself were able to alter the binding of labeled vinculin to permeabilized cells and each also interacted with vinculin in gel overlays; however, they were unable to reconstitute the binding site in treated permeabilized cells. The results show a requirement for an as yet unidentified protein to capacitate vinculin binding to focal contact sites and suggest that this protein is peripheral and interacts directly with the binding site.

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An in-vivo model to examine the electromyographic activity of isolated myometrial tissue from pregnant sheep

Lye¹,

Freitag²

1988

Reproduction

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Summary. Strips (2\m=.\5\ m=x\3\ m=. \ 5cm) of myometrium alone (MYO) or endometrium/ myometrium (ENDO/MYO) were removed from the pregnant horn of sheep (Day 110 of gestation) and transplanted to sites within the omental fat. These explants developed regular bursts of electromyographic (EMG) activity over a period of 7\p=n-\10 days, as well as a dose-dependent stimulatory response to oxytocin (50\p=n-\200 mU i.v.). The frequency (per 2 h) of EMG bursts in the MYO (5\m=.\3\ m=+-\ 0\m=.\2) and ENDO/MYO (5\m=.\2\ m=+-\ 0\ m=. \ 3) explants was significantly greater (P < 0\m=.\05) than that of the uterine myometrium (3\m=.\0 \ m=+-\ 0\m=.\1), while burst duration (min) in MYO (4\m=.\1\m=+-\ 0\ m=. \ 2) and ENDO/MYO (4\ m=. \ 1 \ m=+-\ 0\m=.\2)explants was significantly (P < 0\m=.\05) less than in the uterine myometrium (7\m=.\3\ m=+-\ 0\m=.\1). The EMG bursts were asynchronous between the explants and uterus, although systemic administration of oxytocin produced a synchronous burst of EMG activity in all three tissues. No differences in EMG activity or responsiveness were apparent between MYO and ENDO/MYO explants. Histological examination of the explant tissue revealed the presence of smooth muscle fibres regularly orientated into two layers; some loss of endometrial tissue was apparent in ENDO/MYO explants. To validate the mechanical integrity of this model we examined the in-vitro contractile activity of myometrial strips prepared from the explants. The strips developed regular spontaneous contractions and demonstrated a dose-dependent stimulation in response to the addition of oxytocin (10\m=-\10 to 10\m=-\4m) to the bath fluid. These results suggest that spontaneous contractures during pregnancy are probably not due to pulsatile release of stimulants into the systemic circulation, or the direct diffusion of stimulants from intrauterine tissues to the myometrium but are probably caused by factors within the myometrium itself.

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Failure of ritodrine to prevent preterm labor in the sheep

Lye¹,

Dayes²,

Freitag³

et al. 1992

American Journal of Obstetrics and Gynecology

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Comparison of Equine Adipose Tissue-Derived Stem Cell Behavior and Differentiation Potential Under the Influence of 3% and 21% Oxygen Tension

Shell

Raabe

Freitag

et al. 2013

Journal of Equine Veterinary Science

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