The Role of Chemokines in Mesenchymal Stem Cell Homing to Wounds

Hocking, Anne M.

doi:10.1089/wound.2014.0579

Cited by 151 publications

(122 citation statements)

References 49 publications

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“…An example for co-existing immobilized and soluble chemokine gradients is the mobilization of mesenchymal stem cells during tissue regeneration by soluble chemokines such as CCL19 on the one side and chemokines that bind to extracellular glycosaminoglycans such as CCL2, CXCL12 or CCL5 on the other side2627. Also, guided cell migration presumably mediated by chemotactic and haptotactic signals are of importance in the pathogenesis of autoimmune diseases such as multiple sclerosis (MS)28.…”

Section: Resultsmentioning

confidence: 99%

A microfluidic device for measuring cell migration towards substrate-bound and soluble chemokine gradients

Schwarz

Bierbaum

Merrin

et al. 2016

Sci Rep

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Cellular locomotion is a central hallmark of eukaryotic life. It is governed by cell-extrinsic molecular factors, which can either emerge in the soluble phase or as immobilized, often adhesive ligands. To encode for direction, every cue must be present as a spatial or temporal gradient. Here, we developed a microfluidic chamber that allows measurement of cell migration in combined response to surface immobilized and soluble molecular gradients. As a proof of principle we study the response of dendritic cells to their major guidance cues, chemokines. The majority of data on chemokine gradient sensing is based on in vitro studies employing soluble gradients. Despite evidence suggesting that in vivo chemokines are often immobilized to sugar residues, limited information is available how cells respond to immobilized chemokines. We tracked migration of dendritic cells towards immobilized gradients of the chemokine CCL21 and varying superimposed soluble gradients of CCL19. Differential migratory patterns illustrate the potential of our setup to quantitatively study the competitive response to both types of gradients. Beyond chemokines our approach is broadly applicable to alternative systems of chemo- and haptotaxis such as cells migrating along gradients of adhesion receptor ligands vs. any soluble cue.

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Section: Resultsmentioning

confidence: 99%

A microfluidic device for measuring cell migration towards substrate-bound and soluble chemokine gradients

Schwarz

Bierbaum

Merrin

et al. 2016

Sci Rep

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show abstract

“…The site of injury could be exuding signals that are recognized by the injected stem cells, which prompts them to attach to the blood vessel wall, which then stimulates the angiopellosis process to occur. Chemokines and their receptors have been reported as important mediators in the process of stem cell homing . Another possibility is that signals on the injected cell's membrane are interacting with the receptors on the blood vessel endothelial cells, asking for the cells removal from the lumen.…”

Section: Discussionmentioning

confidence: 99%

Angiopellosis as an Alternative Mechanism of Cell Extravasation

et al. 2016

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Stem cells possess the ability to home in and travel to damaged tissue when injected intravenously. For the cells to exert their therapeutic effect, they must cross the blood vessel wall and enter the surrounding tissues. The mechanism of extravasation injected stem cells employ for exit has yet to be characterized. Using intravital microscopy and a transgenic zebrafish line Tg(fli1a:egpf) with GFP-expressing vasculature, we documented the detailed extravasation processes in vivo for injected stem cells in comparison to white blood cells (WBCs). While WBCs left the blood vessels by the standard diapedesis process, injected cardiac and mesenchymal stem cells underwent a distinct method of extravasation that was markedly different from diapedesis. Here, the vascular wall undergoes an extensive remodeling to allow the cell to exit the lumen, while the injected cell remains distinctively passive in activity. We termed this process Angio-pello-sis, which represents an alternative mechanism of cell extravasation to the prevailing theory of diapedesis.

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“…It has been known that MSCs have relatively weak homing ability [27,28]: the major reason is that the expression of CXCR4, the primary receptor for main chemokine (stromal cell-derived factor 1; SDF1), is not high on the surface of MSCs, especially in long-term expansion culture [27e31]. Therefore, many studies have reported on enhancement of the homing ability of MSCs through the increase of CXCR4 expression by viral In this study, CXCR4 gene was overexpressed in mBM-MSCs by minicircle microporation, and the resulting improvement of homing ability was confirmed by in vivo bioluminescence imaging.…”

Section: Overexpression Of Cxcr4 For Enhanced Migration Of Mscs Towarmentioning

confidence: 99%

Minicircle microporation-based non-viral gene delivery improved the targeting of mesenchymal stem cells to an injury site

et al. 2016

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The Role of Chemokines in Mesenchymal Stem Cell Homing to Wounds

Cited by 151 publications

References 49 publications

A microfluidic device for measuring cell migration towards substrate-bound and soluble chemokine gradients

A microfluidic device for measuring cell migration towards substrate-bound and soluble chemokine gradients

Angiopellosis as an Alternative Mechanism of Cell Extravasation

Minicircle microporation-based non-viral gene delivery improved the targeting of mesenchymal stem cells to an injury site

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