Keratin intermediate filament dynamics in cell heterokaryons reveals diverse behaviour of different keratins

Paramio, Jesús M.; Casanova, Mercedes; Alonso, Annabel; Jorcano, J. L.

doi:10.1242/jcs.110.9.1099

Cited by 17 publications

(1 citation statement)

References 58 publications

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“…Furthermore, we could compare filament segmentations and dynamics scores between the K5 and K6A channels in K5 high /K6A high cells. Given the known propensity for individual keratins to intermix within filament networks 40 , K5 and K6A network segmentations overlapped considerably, as expected (Figure S3L and Video 6). Additionally, K5 and K6A dynamics scores for K5 high /K6A high cells were highly correlated, without evidence of bias between detection channels (Figure S3O), confirming the robustness of the filament segmentation algorithm and network dynamics score.…”

Section: Resultssupporting

confidence: 74%

Keratin isoform shifts modulate motility signals during wound healing

Nanes

Bhatt

Azarova

et al. 2023

Preprint

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Keratin intermediate filaments form strong mechanical scaffolds that confer structural stability to epithelial tissues, but the reason this function requires a protein family with fifty-four isoforms is not understood. During skin wound healing, a shift in keratin isoform expression alters the composition of keratin filaments. How this change modulates cellular function to support epidermal remodeling remains unclear. We report an unexpected effect of keratin isoform variation on kinase signal transduction. Increased expression of wound-associated keratin 6A, but not of steady-state keratin 5, potentiated keratinocyte migration and wound closure without compromising epidermal stability by activating myosin motors. This pathway depended on isoform-specific interaction between intrinsically disordered keratin head domains and non-filamentous vimentin shuttling myosin-activating kinases. These results substantially expand the functional repertoire of intermediate filaments from their canonical role as mechanical scaffolds to include roles as signaling scaffolds that spatiotemporally organize signal transduction cascades depending on isoform composition.

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Section: Resultssupporting

confidence: 74%

Keratin isoform shifts modulate motility signals during wound healing

Nanes

Bhatt

Azarova

et al. 2023

Preprint

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The Search for Specific Keratin Functions

Santos¹,

Segrelles²,

Ruíz

et al. 2006

Intermediate Filaments

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Manipulation of the Host Cell Cytoskeleton by Chlamydia

Nogueira

Pedrosa

Carabeo

2016

Biology of Chlamydia

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Chlamydiae are obligate intracellular pathogens. They undergo a biphasic developmental cycle differentiating between the infectious but metabolically quiescent elementary body and the vegetative, but non-infectious reticulate body. Chlamydia spends a significant portion of its development in the non-infectious stage, demanding an effective strategy of manipulating the host cells to ensure its intracellular survival and replication. A common target of all Chlamydia species studied so far is the host cell cytoskeleton, with past and recent findings revealing crucial roles in invasion, inclusion maintenance, nutrient acquisition, and egress. The molecular details of how Chlamydia co-opts the cytoskeleton is becoming clearer, with bacterial factors and their corresponding host cell targets identified.

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Keratin intermediate filament dynamics in cell heterokaryons reveals diverse behaviour of different keratins

Cited by 17 publications

References 58 publications

Keratin isoform shifts modulate motility signals during wound healing

Keratin isoform shifts modulate motility signals during wound healing

The Search for Specific Keratin Functions

Manipulation of the Host Cell Cytoskeleton by Chlamydia

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