Cell adhesion strength from cortical tension – an integration of concepts

Winklbauer, Rudolf

doi:10.1242/jcs.174623

Cited by 101 publications

(177 citation statements)

References 63 publications

(112 reference statements)

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“…However, we are aware that Steinberg's hypothesis was modified soon after its release44, since the binding energy of adhesion molecules is not sufficient to account for cell sorting events4546474849. Recent experimental and theoretical studies have supported the hypothesis that differential cell cortex tension along with differential cell adhesion drive the segregation of cell populations28505152. In different experimental set-ups, an elevated cortical actomyosin contraction has been shown to increase the cell cortex tension535455.…”

Section: Resultsmentioning

confidence: 99%

The biomechanical properties of an epithelial tissue determine the location of its vasculature

et al. 2016

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An important question is how growing tissues establish a blood vessel network. Here we study vascular network formation in pancreatic islets, endocrine tissues derived from pancreatic epithelium. We find that depletion of integrin-linked kinase (ILK) in the pancreatic epithelial cells of mice results in glucose intolerance due to a loss of the intra-islet vasculature. In turn, blood vessels accumulate at the islet periphery. Neither alterations in endothelial cell proliferation, apoptosis, morphology, Vegfa expression and VEGF-A secretion nor ‘empty sleeves' of vascular basement membrane are found. Instead, biophysical experiments reveal that the biomechanical properties of pancreatic islet cells, such as their actomyosin-mediated cortex tension and adhesive forces to endothelial cells, are significantly changed. These results suggest that a sorting event is driving the segregation of endothelial and epithelial cells and indicate that the epithelial biomechanical properties determine whether the blood vasculature invades or envelops a growing epithelial tissue.

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Section: Resultsmentioning

confidence: 99%

The biomechanical properties of an epithelial tissue determine the location of its vasculature

et al. 2016

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“…Also, integrin proteins form temporary adhesion and signal complexes together with the actin cytoskeleton which affect the organization of the cytoskeleton, cell morphology, gene expression and migration . The cytoskeleton as a highly dynamic network functions as structure and attachment point as well as a basis for transport processes, and cell movement . As oxidative stress modulates cytoskeleton organization and is critical to adhesiveness, plasma treatment supposedly allows interference with anchorage‐dependent signalling.…”

Section: Introductionmentioning

confidence: 99%

A cold plasma jet accelerates wound healing in a murine model of full‐thickness skin wounds

Schmidt

Bekeschus

Wende

et al. 2017

Experimental Dermatology

203

140

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Cold plasma has been successfully applied in several fields of medicine that require, for example, pathogen inactivation, implant functionalization or alteration of cellular activity. Previous studies have provided evidence that plasma supports the healing of wounds owing to its beneficial mixtures of reactive species and modulation of inflammation in cells and tissues. To investigate the wound healing activity of an atmospheric pressure plasma jet in vivo, we examined the cold plasma's efficacy on dermal regeneration in a murine model of dermal full-thickness ear wound. Over 14 days, female mice received daily plasma treatment. Quantitative analysis by transmitted light microscopy demonstrated a significantly accelerated wound re-epithelialization at days 3-9 in comparison with untreated controls. In vitro, cold plasma altered keratinocyte and fibroblast migration, while both cell types showed significant stimulation resulting in accelerated closure of gaps in scratch assays. This plasma effect correlated with the downregulation of the gap junctional protein connexin 43 which is thought to be important in the regulation of wound healing. In addition, plasma induced profound changes in adherence junctions and cytoskeletal dynamics as shown by downregulation of E-cadherin and several integrins as well as actin reorganization. Our results theorize cold plasma to be a beneficial treatment option supplementing existing wound therapies.

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“…Actomyosin contractility acts antagonistically by reducing cell contact size (Lecuit and Lenne, 2007; Winklbauer, 2015). There is numerous evidence in vivo that shows actomyosin-generated tension regulates cell shape (Rauzi et al, 2008; Martin et al, 2009).…”

Section: Introductionmentioning

confidence: 99%

Patterned cortical tension mediated by N-cadherin controls cell geometric order in the Drosophila eye

Chan

Shivakumar

Clément

et al. 2017

eLife

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Adhesion molecules hold cells together but also couple cell membranes to a contractile actomyosin network, which limits the expansion of cell contacts. Despite their fundamental role in tissue morphogenesis and tissue homeostasis, how adhesion molecules control cell shapes and cell patterns in tissues remains unclear. Here we address this question in vivo using the Drosophila eye. We show that cone cell shapes depend little on adhesion bonds and mostly on contractile forces. However, N-cadherin has an indirect control on cell shape. At homotypic contacts, junctional N-cadherin bonds downregulate Myosin-II contractility. At heterotypic contacts with E-cadherin, unbound N-cadherin induces an asymmetric accumulation of Myosin-II, which leads to a highly contractile cell interface. Such differential regulation of contractility is essential for morphogenesis as loss of N-cadherin disrupts cell rearrangements. Our results establish a quantitative link between adhesion and contractility and reveal an unprecedented role of N-cadherin on cell shapes and cell arrangements.DOI: http://dx.doi.org/10.7554/eLife.22796.001

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Cell adhesion strength from cortical tension – an integration of concepts

Cited by 101 publications

References 63 publications

The biomechanical properties of an epithelial tissue determine the location of its vasculature

The biomechanical properties of an epithelial tissue determine the location of its vasculature

A cold plasma jet accelerates wound healing in a murine model of full‐thickness skin wounds

Patterned cortical tension mediated by N-cadherin controls cell geometric order in the Drosophila eye

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