Petr Walczysko scite author profile

Wound healing is essential for maintaining the integrity of multicellular organisms. In every species studied, disruption of an epithelial layer instantaneously generates endogenous electric fields, which have been proposed to be important in wound healing. The identity of signalling pathways that guide both cell migration to electric cues and electric-field-induced wound healing have not been elucidated at a genetic level. Here we show that electric fields, of a strength equal to those detected endogenously, direct cell migration during wound healing as a prime directional cue. Manipulation of endogenous wound electric fields affects wound healing in vivo. Electric stimulation triggers activation of Src and inositol-phospholipid signalling, which polarizes in the direction of cell migration. Notably, genetic disruption of phosphatidylinositol-3-OH kinase-gamma (PI(3)Kgamma) decreases electric-field-induced signalling and abolishes directed movements of healing epithelium in response to electric signals. Deletion of the tumour suppressor phosphatase and tensin homolog (PTEN) enhances signalling and electrotactic responses. These data identify genes essential for electrical-signal-induced wound healing and show that PI(3)Kgamma and PTEN control electrotaxis.

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Influx of extracellular Ca2+ is necessary for electrotaxis inDictyostelium

Shanley

Walczysko

Bain

et al. 2006

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Intracellular free Ca2+ ([Ca2+](i)) is a pivotal signalling element in cell migration and is thought to be required for chemotaxis of Dictyostelium. Ca2+ signalling may also be important for electrotaxis. However this suggestion has been controversial. We show that electric fields direct Dictyostelium cells to migrate cathodally and increase [Ca2+] i in Dictyostelium cells, as determined by Fluo-3 AM imaging and Ca-45(2+) uptake. Omission of extracellular Ca2+([Ca2+](e)) and incubation with EGTA abolished the electric-field-stimulated [Ca2+](i) rise and directional cell migration. This suggests a requirement for [Ca2+](e) in the electrotactic response. Deletion of iplA, a gene responsible for chemoattractant-induced [ Ca2+](i) increase, had only a minor effect on the electric-field-induced [Ca2+](i) rise. Moreover, iplA-null Dictyostelium cells showed the same electrotactic response as wild-type cells. Therefore, iplA-independent Ca2+ influx is necessary for electrotactic cell migration. These results suggest that the [ Ca2+](i) regulatory mechanisms induced by electric fields are different from those induced by cAMP and folic acid in Dictyostelium cells. Different roles of the iplA gene in chemoattractant-induced and electrically induced Ca2+ signalling, and different effects of [ Ca2+](i) elevation on chemotaxis and electrotaxis indicate that the chemoattractant and electric cues activate distinctive initial signalling elements

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Chronic wound state exacerbated by oxidative stress in Pax6^+/− aniridia‐related keratopathy

Walczysko

Kucerova

et al. 2008

The Journal of Pathology

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Heterozygosity for the transcription factor PAX6 causes eye disease in humans, characterized by corneal opacity. The molecular aetiology of such disease was investigated using a Pax6+/- mouse model. We found that the barrier function of uninjured Pax6+/- corneas was compromised and that Ca2+-PKC/PLC-ERK/p38 signalling pathways were abnormally activated, mimicking a 'wounded' epithelial state. Using proteomic analysis and direct assay for oxidized proteins, Pax6+/- corneas were found to be susceptible to oxidative stress and they exhibited a wound-healing delay which could be rescued by providing reducing agents such as glutathione. Pax6 protein was oxidized and excluded from the nucleus of stressed corneal epithelial cells, with concomitant loss of corneal epithelial markers and expression of fibroblast/myofibroblast markers. We suggest a chronic wound model for Pax6-related corneal diseases, in which oxidative stress underlies a positive feedback mechanism by depleting nuclear Pax6, delaying wound healing, and activating cell signalling pathways that lead to metaplasia of the corneal epithelium. The study mechanistically links a relatively minor dosage deficiency of a transcription factor with potentially catastrophic degenerative corneal disease.

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The roles of calcium signaling and ERK1/2 phosphorylation in a Pax6 +/-mouse model of epithelial wound-healing delay

et al. 2006

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Background: Congenital aniridia caused by heterozygousity at the PAX6 locus is associated with ocular surface disease including keratopathy. It is not clear whether the keratopathy is a direct result of reduced PAX6 gene dosage in the cornea itself, or due to recurrent corneal trauma secondary to defects such as dry eye caused by loss of PAX6 in other tissues. We investigated the hypothesis that reducing Pax6 gene dosage leads to corneal wound-healing defects. and assayed the immediate molecular responses to wounding in wild-type and mutant corneal epithelial cells.

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Control of Patterns of Corneal Innervation by Pax6

Leiper

Walczysko

et al. 2009

Invest. Ophthalmol. Vis. Sci.

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Petr Walczysko

Electrical signals control wound healing through phosphatidylinositol-3-OH kinase-γ and PTEN

Influx of extracellular Ca2+ is necessary for electrotaxis inDictyostelium

Chronic wound state exacerbated by oxidative stress in Pax6^+/− aniridia‐related keratopathy

The roles of calcium signaling and ERK1/2 phosphorylation in a Pax6 +/-mouse model of epithelial wound-healing delay

Control of Patterns of Corneal Innervation by Pax6

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Petr Walczysko

Electrical signals control wound healing through phosphatidylinositol-3-OH kinase-γ and PTEN

Influx of extracellular Ca2+ is necessary for electrotaxis inDictyostelium

Chronic wound state exacerbated by oxidative stress in Pax6+/− aniridia‐related keratopathy

The roles of calcium signaling and ERK1/2 phosphorylation in a Pax6 +/-mouse model of epithelial wound-healing delay

Control of Patterns of Corneal Innervation by Pax6

Contact Info

Product

Resources

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Chronic wound state exacerbated by oxidative stress in Pax6^+/− aniridia‐related keratopathy