RGTA modulates the healing pattern of a defect in a monolayer of osteoblastic cells by acting on both proliferation and migration

Blanquaert, F.; Carpentier, Gilles; Morvan, Frédéric; Caruelle, Jean‐Pierre; Barritault, Denis; Tardieu, M

doi:10.1002/jbm.a.10400

Cited by 9 publications

(3 citation statements)

References 29 publications

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“…Consequently, the interaction of mediator molecules with GAG as a part of the native ECM may result in (i) accumulation of mediators in defined volumes allowing the formation of chemotactic gradients [147], (ii) conformational changes resulting in activation and/or dimerization [141], and (iii) protection against (proteolytic) degradation [140]. Likewise, the stimulation of tissue healing processes can potentially be induced by binding/accumulation of native growth factors, released in the healing zone and their factor-specific activation/inactivation and protection against degradation by using aECM as promising components of biomaterials [148]. In such cases the aECM would be needed to bind a broad variety of mediators with varying and defined specificities [137].…”

Section: Biological Relevance Of Gag-mediator Protein Interactionsmentioning

confidence: 99%

Sulfated Glycosaminoglycans As Promising Artificial Extracellular Matrix Components to Improve the Regeneration of Tissues

Schnabelrauch¹,

Scharnweber²,

Schiller

2013

CMC

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Glycosaminoglycans (GAG) such as hyaluronan (HA) or chondroitin/dermatan sulfate (CS/DS) occur in many connective tissues, for instance, in bone, cartilage and skin. Due to their significant water-binding capacity, GAG are essential for the biomechanical properties of these tissues. However, there is also increasing evidence that the sulfation of GAG does not occur at random, but a "sulfation code" exists that mediates the physiological functions of GAG. Thus, the biological properties of these biomacromolecules are strongly influenced by the degree of sulfation (ds) and the sulfate group distribution along the polymer. Therefore, certain GAG might also have interesting pharmacological properties. It is, thus, commonly accepted that GAG represent promising biomaterials in the field of tissue engineering as well as to design new bioactive materials for tissue repair and reconstruction. In this review we will focus on chemically sulfated GAG and provide a survey of these compounds on four different levels. First, we will provide an overview on chemical functionalization strategies of naturally occurring HA and CS/DS with special emphasis on regioselective methods to introduce a defined number of sulfate residues into the carbohydrate backbone. Second, chemical and biochemical methods to characterize the synthesized compounds will be introduced with the focus on methods based on nuclear magnetic resonance (NMR) and mass spectrometry (MS). In the third part, we will discuss the interaction of natural and chemically sulfated GAG with proteins and other biomolecules with regulatory functions. Additionally, biological consequences of these interactions regarding healing processes of skin and bone will be presented by discussing selected cell culture experiments. Finally, in vivo effects of GAG as components of artificial extracellular matrices will be discussed.

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Section: Biological Relevance Of Gag-mediator Protein Interactionsmentioning

confidence: 99%

Sulfated Glycosaminoglycans As Promising Artificial Extracellular Matrix Components to Improve the Regeneration of Tissues

Schnabelrauch¹,

Scharnweber²,

Schiller

2013

CMC

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“…Briefly, a working image free of shading and keeping most of the information was generated by using the mask of details obtained with an unsharp mask filter (gaussian convolution matrix size 15 · 15, SD = 4.5). We previously described the use of the sum of an image to its Sobel gradient transform to improve the segmentation of macroscopic objects by thresholding [9]. This method, which has proved successful in segmenting objects in a complex histological environment [10], was used here with a minor adaptation consisting in iteration of the method to obtain appropriate segmentation.…”

Section: Microscopy Digital Imaging and Image Analysis Softwarementioning

confidence: 99%

Exogenous Pleiotrophin Applied to Lesioned Nerve Impairs Muscle Reinnervation

et al. 2006

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Pleiotrophin (PTN) is a heparin-binding growth factor involved in nerve regeneration after peripheral nerve injury. After crush injury, PTN is found in distal nerve segments in several non-neural cell types, including Schwann cells, macrophages, and endothelial cells, but not in axons. To further clarify the role for PTN in nerve regeneration, we investigated the effects of PTN applied to lesioned peripheral nerve in vivo. PTN in a dose of 1 mg/kg impaired muscle reinnervation. Thus, gastrocnemius muscle failed to recover its contractile properties as assessed by in situ maximal isometric tetanic force. PTN also decreased non-neural cell densities and delayed macrophage recruitment in the distal crushed nerve. These results are discussed in the light of recent evidence that PTN is a multifunctional polypeptide.

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“…To facilitate cell adhesion on the microchannel, the microfluidic device was kept stationary for 10 min at 37°C. Fresh medium with 2% FBS was then introduced (Blanquaert et al 2003;Liang et al 2007). Owing to the augmented hydrostatic pressure, cells that were not adhered to the channel would be washed away.…”

Section: Surface Treatmentmentioning

confidence: 99%

On-chip cell migration assay for quantifying the effect of ethanol on MCF-7 human breast cancer cells

Huang

et al. 2011

Microfluid Nanofluid

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Ethanol consumption is associated with the risk of breast cancer progression; however, the mechanism of relationship has not yet been fully explained. Research on breast cancer cell migration after ethanol stimulation may give hope for a better understanding of the disease and oncotherapy. Conventional cell migration assays such as Boyden chamber and wound-healing assays are easy to conduct for this purpose; however, these assays have inherent limitations. In this study, we quantified the effect of ethanol on MCF-7 hunam breast cancer cells using a microfluidics-based wound-healing assay. Wounds were prepared by partially digesting a confluent cell sheet using parallel laminar flows in the presence of protease trypsin. The cells at the leading edge of the wound remained intact. Cell image analysis indicates that all the cells cultured in the microdevice took on a good morphology and monolayer growth status. Cell viability assay demonstrates that cell viability decreased with the increase in ethanol concentration and treatment time. For 0, 22, 43, and 65 mmol/l of ethanol, cell viability after being cultured for 24 h was 100%, 99.6%, 99.4%, and 98.4%, respectively. Studying MCF-7 human breast cancer cell migration when treated with different ethanol concentrations revealed that the cell migration distance is directly proportional with ethanol concentration. After being cultured for 24 h at 37°C and 5% CO 2 , the maximal cell migration distance was 231, 283, and 332 lm for 22, 43, and 65 mmol/l ethanol, respectively; all results were higher than the blank test (i.e., ethanol-free test, 218 lm). These findings will be beneficial in developing microfluidic device applications for future research on breast tumor therapy in a biomimetic microenvironment and for developing new methods for breast cancer therapy.

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RGTA modulates the healing pattern of a defect in a monolayer of osteoblastic cells by acting on both proliferation and migration

Cited by 9 publications

References 29 publications

Sulfated Glycosaminoglycans As Promising Artificial Extracellular Matrix Components to Improve the Regeneration of Tissues

Sulfated Glycosaminoglycans As Promising Artificial Extracellular Matrix Components to Improve the Regeneration of Tissues

Exogenous Pleiotrophin Applied to Lesioned Nerve Impairs Muscle Reinnervation

On-chip cell migration assay for quantifying the effect of ethanol on MCF-7 human breast cancer cells

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