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Immunolocalization of adenomatous polyposis coli protein (apc) in the regenerating lizard tail suggests involvement in tissue differentiation and regulation of growth

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Lizard tail regeneration is likely regulated by the balanced activity of oncogenes and tumor suppressors that control cell proliferation avoiding tumorigenic degeneration. One of the main tumor suppressor genes present… Click to show full abstract

Lizard tail regeneration is likely regulated by the balanced activity of oncogenes and tumor suppressors that control cell proliferation avoiding tumorigenic degeneration. One of the main tumor suppressor genes present in the regenerating tail is the “adenomatous polyposis coli (apc)” but the localization of its coded protein (apc) is not known. This protein may be involved in regulation of apical‐basal tail regeneration in lizards. The present immunohistochemical study shows that apc is localized in apical wound epidermis and regenerating ependyme, two tissues that proliferate and also express onco‐genes. Apc is not present in blastema cells but localizes in differentiating cells of regenerating scales, muscles and less intensely in the non‐apical ependymal epithelium and cartilage. This suggests that apc is involved in the induction of their differentiation. The apc immunolabeling is mainly nuclear in the basal epidermal layer of the apical wound epidermis where it may be involved in modulating keratinocytes proliferation, like in the forming scales. In regenerating muscle and cartilage apc is mainly cytoplasmic while sparse labeled nuclei are seen in proliferative areas of these tissues. In the regenerating spinal cord, the nuclear and cytoplasmic apc labeling is present in ependymal cells of the distal‐most ependymal ampulla but the labeling fades in more proximal regions and mainly remains in the cytoplasm facing the central canal and in sparse nuclei. It is suggested that the pattern of immunolabeling for apc indicates that this tumor suppressor may contribute to tissue differentiation within the regenerating tail.

Keywords: adenomatous polyposis; lizard tail; protein apc; differentiation; tail; polyposis coli

Journal Title: Journal of Morphology
Year Published: 2022

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