Periderm prevents pathological epithelial adhesions during embryogenesis
Rebecca J. Richardson, Nigel L. Hammond, Pierre A. Coulombe, Carola Saloranta, Heidi O. Nousiainen, Riitta Salonen, Andrew Berry, Neil Hanley, Denis Headon, Riitta Karikoski, Michael J. Dixon
Rebecca J. Richardson, Nigel L. Hammond, Pierre A. Coulombe, Carola Saloranta, Heidi O. Nousiainen, Riitta Salonen, Andrew Berry, Neil Hanley, Denis Headon, Riitta Karikoski, Michael J. Dixon
View: Text | PDF
Research Article Development

Periderm prevents pathological epithelial adhesions during embryogenesis

Abstract

Appropriate development of stratified, squamous, keratinizing epithelia, such as the epidermis and oral epithelia, generates an outer protective permeability barrier that prevents water loss, entry of toxins, and microbial invasion. During embryogenesis, the immature ectoderm initially consists of a single layer of undifferentiated, cuboidal epithelial cells that stratifies to produce an outer layer of flattened periderm cells of unknown function. Here, we determined that periderm cells form in a distinct pattern early in embryogenesis, exhibit highly polarized expression of adhesion complexes, and are shed from the outer surface of the embryo late in development. Mice carrying loss-of-function mutations in the genes encoding IFN regulatory factor 6 (IRF6), IκB kinase-α (IKKα), and stratifin (SFN) exhibit abnormal epidermal development, and we determined that mutant animals exhibit dysfunctional periderm formation, resulting in abnormal intracellular adhesions. Furthermore, tissue from a fetus with cocoon syndrome, a lethal disorder that results from a nonsense mutation in IKKA, revealed an absence of periderm. Together, these data indicate that periderm plays a transient but fundamental role during embryogenesis by acting as a protective barrier that prevents pathological adhesion between immature, adhesion-competent epithelia. Furthermore, this study suggests that failure of periderm formation underlies a series of devastating birth defects, including popliteal pterygium syndrome, cocoon syndrome, and Bartsocas-Papas syndrome.

Authors

Rebecca J. Richardson, Nigel L. Hammond, Pierre A. Coulombe, Carola Saloranta, Heidi O. Nousiainen, Riitta Salonen, Andrew Berry, Neil Hanley, Denis Headon, Riitta Karikoski, Michael J. Dixon

×

Figure 6

Failure of periderm formation results in pathological adhesions in humans.

Options: View larger image (or click on image) Download as PowerPoint
Failure of periderm formation results in pathological adhesions in human...
(A) Frontal view of a fetus with Cocoon syndrome illustrating the severe interepithelial adhesions. (B and C) Lateral views of E14 wild-type and Ikka–/– mice demonstrating the phenotypic overlap with Cocoon syndrome. (D and E) Histological analysis reveals that while a single layer of periderm cells is visible in the epidermis of a normal fetus (arrows), this layer is absent in Cocoon syndrome and apposed epithelial layers have adhered to one another. (FH) Immunostaining confirms that SSEA-1–positive periderm cells (green) overlying a layer of p63-positive basal cells (red) are present in an unaffected fetus but absent in fused (G) and nonfused (H) epidermal regions in Cocoon syndrome. Only occasional SSEA-1–positive cells are observed in regions where the epidermal surfaces are unfused (H). (I and J) Immunostaining with keratin 6 antisera (green) confirms the absence of periderm on the surface of IKKAQ422X/Q422X epidermis. Nuclei are counterstained with DAPI (blue). Scale bars: 50 μm.