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Fig. S3
Wnt/β-catenin pathway is upregulated in basal keratinocytes and fibroblast-like cells but not muscle or immune cells after a lesion.
(a-b) Subepidermal 6xTCF:dGFP+/p63− cells (arrows) do not co-label with MyHC antibodies, a marker for slow twitch muscle cells. Arrowheads indicate 6xTCF:dGFP+/p63+ basal keratinocytes. Note that close to the disorganized lesion center some subepidermal 6xTCF:dGFP+/p63+ cells are found sandwiched between p63+ basal keratinocytes and MyHC+ slow twitch muscle fibers (insets), which represents a typical dermal fibroblast location in zebrafish larvae.
(c) 6xTCF:dGFP+ cells do not co-label with L-Plastin, a marker for innate immune cells.
(d) The 6xTCF:dGFP Wnt reporter is active in p63+ basal keratinocytes (arrowheads) and in subepidermal p63+ cells (arrows) in the lesion site.
(e) Subepidermal cells (below dashed line) co-express col1a2 (red) and gfp mRNA (green) in lesioned 6xTCF:dGFP transgenic animals (arrow). Dashed line indicates junction between basal epithelium and subadjacent connective tissue.
(f-g) Subepidermal cells (below dashed line) co-express fn1a (red) and gfp mRNA (green) in lesioned 6xTCF:dGFP transgenic animals (arrow). Dashed line indicates junction between basal epithelium and subadjacent connective tissue.
(h) Close to the disorganized lesion center, some 6xTCF:dGFP+ cells are found to cover the spinal cord (arrows), which represents a typical meningeal fibroblast location. Dashed line indicates spinal cord.
(a-h) Views are transversal (dorsal is up). Scale bars: 100 μm (a-c) and 50 μm (d-h).