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Hoffmann, R. A wiki for the life sciences where authorship matters. Nature Genetics (2008)

Keratin mutations of epidermolysis bullosa simplex alter the kinetics of stress response to osmotic shock.

The intermediate filament cytoskeleton is thought to confer physical resilience on tissue cells, on the basis of extrapolations from the phenotype of cell fragility that results from mutations in skin keratins. There is a need for functional cell assays in which the impact of stress on intermediate filaments can be induced and analyzed. Using osmotic shock, we have induced cytoskeleton changes that suggest protective functions for actin and intermediate filament systems. Induction of the resulting stress response has been monitored in keratinocyte cells lines carrying K5 or K14 mutations, which are associated with varying severity of epidermolysis bullosa simplex. Cells with severe mutations were more sensitive to osmotic stress and took longer to recover from it. Their stress-activated response pathways were induced faster, as seen by early activation of JNK, ATF-2 and c-Jun. We demonstrate that the speed of a cell's response to hypotonic stress, by activation of the SAPK/JNK pathway, is correlated with the clinical severity of the mutation carried. The response to hypo-osmotic shock constitutes a discriminating stress assay to distinguish between the effects of different keratin mutations and is a potentially valuable tool in developing therapeutic strategies for keratin-based skin fragility disorders.[1]


  1. Keratin mutations of epidermolysis bullosa simplex alter the kinetics of stress response to osmotic shock. D'Alessandro, M., Russell, D., Morley, S.M., Davies, A.M., Lane, E.B. J. Cell. Sci. (2002) [Pubmed]
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