Reconstructed human pigmented skin/epidermis models achieve epidermal pigmentation through melanocore transfer

The skin acts as a barrier to environmental insults and provides many vital functions. One of these is to shield DNA from harmful ultraviolet radiation, which is achieved by skin pigmentation arising as melanin is produced and dispersed within the epidermal layer. This is a crucial defence against D...

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Published in	Pigment cell and melanoma research Vol. 35; no. 4; pp. 425 - 435
Main Authors	Hall, Michael J., Lopes‐Ventura, Sara, Neto, Matilde V., Charneca, João, Zoio, Patricia, Seabra, Miguel C., Oliva, Abel, Barral, Duarte C.
Format	Journal Article
Language	English
Published	England Wiley Subscription Services, Inc 01.07.2022
Subjects	3D models Aging Animal models Biopsy Crosstalk Deoxyribonucleic acid Dispersion DNA DNA damage Epidermis Exocytosis Fibroblasts Histology Immunohistochemistry Keratinocytes Melanin melanin transfer Melanocytes Phagocytosis Pigmentation Skin cancer Skin pigmentation Transmission electron microscopy Ultraviolet radiation pigmentation melanocytes keratinocytes 3D models melanin transfer
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Abstract	The skin acts as a barrier to environmental insults and provides many vital functions. One of these is to shield DNA from harmful ultraviolet radiation, which is achieved by skin pigmentation arising as melanin is produced and dispersed within the epidermal layer. This is a crucial defence against DNA damage, photo‐ageing and skin cancer. The mechanisms and regulation of melanogenesis and melanin transfer involve extensive crosstalk between melanocytes and keratinocytes in the epidermis, as well as fibroblasts in the dermal layer. Although the predominant mechanism of melanin transfer continues to be debated and several plausible models have been proposed, we and others previously provided evidence for a coupled exo/phagocytosis model. Herein, we performed histology and immunohistochemistry analyses and demonstrated that a newly developed full‐thickness three‐dimensional reconstructed human pigmented skin model and an epidermis‐only model exhibit dispersed pigment throughout keratinocytes in the epidermis. Transmission electron microscopy revealed melanocores between melanocytes and keratinocytes, suggesting that melanin is transferred through coupled exocytosis/phagocytosis of the melanosome core, or melanocore, similar to our previous observations in human skin biopsies. We, therefore, present evidence that our in vitro models of pigmented human skin show epidermal pigmentation comparable to human skin. These findings have a high value for studies of skin pigmentation mechanisms and pigmentary disorders, whilst reducing the reliance on animal models and human skin biopsies.
AbstractList	The skin acts as a barrier to environmental insults and provides many vital functions. One of these is to shield DNA from harmful ultraviolet radiation, which is achieved by skin pigmentation arising as melanin is produced and dispersed within the epidermal layer. This is a crucial defence against DNA damage, photo‐ageing and skin cancer. The mechanisms and regulation of melanogenesis and melanin transfer involve extensive crosstalk between melanocytes and keratinocytes in the epidermis, as well as fibroblasts in the dermal layer. Although the predominant mechanism of melanin transfer continues to be debated and several plausible models have been proposed, we and others previously provided evidence for a coupled exo/phagocytosis model. Herein, we performed histology and immunohistochemistry analyses and demonstrated that a newly developed full‐thickness three‐dimensional reconstructed human pigmented skin model and an epidermis‐only model exhibit dispersed pigment throughout keratinocytes in the epidermis. Transmission electron microscopy revealed melanocores between melanocytes and keratinocytes, suggesting that melanin is transferred through coupled exocytosis/phagocytosis of the melanosome core, or melanocore, similar to our previous observations in human skin biopsies. We, therefore, present evidence that our in vitro models of pigmented human skin show epidermal pigmentation comparable to human skin. These findings have a high value for studies of skin pigmentation mechanisms and pigmentary disorders, whilst reducing the reliance on animal models and human skin biopsies. Abstract The skin acts as a barrier to environmental insults and provides many vital functions. One of these is to shield DNA from harmful ultraviolet radiation, which is achieved by skin pigmentation arising as melanin is produced and dispersed within the epidermal layer. This is a crucial defence against DNA damage, photo‐ageing and skin cancer. The mechanisms and regulation of melanogenesis and melanin transfer involve extensive crosstalk between melanocytes and keratinocytes in the epidermis, as well as fibroblasts in the dermal layer. Although the predominant mechanism of melanin transfer continues to be debated and several plausible models have been proposed, we and others previously provided evidence for a coupled exo/phagocytosis model. Herein, we performed histology and immunohistochemistry analyses and demonstrated that a newly developed full‐thickness three‐dimensional reconstructed human pigmented skin model and an epidermis‐only model exhibit dispersed pigment throughout keratinocytes in the epidermis. Transmission electron microscopy revealed melanocores between melanocytes and keratinocytes, suggesting that melanin is transferred through coupled exocytosis/phagocytosis of the melanosome core, or melanocore, similar to our previous observations in human skin biopsies. We, therefore, present evidence that our in vitro models of pigmented human skin show epidermal pigmentation comparable to human skin. These findings have a high value for studies of skin pigmentation mechanisms and pigmentary disorders, whilst reducing the reliance on animal models and human skin biopsies.
Author	Zoio, Patricia Barral, Duarte C. Hall, Michael J. Lopes‐Ventura, Sara Charneca, João Neto, Matilde V. Seabra, Miguel C. Oliva, Abel
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Cites_doi	10.1111/pcmr.12840 10.1038/nature05660 10.1101/2021.04.13.439501 10.1177/0963689717725755 10.1046/j.1523-1747.2003.12606.x 10.1038/nri2622 10.1001/archderm.1967.01610030083015 10.1038/jid.2011.413 10.1016/j.jid.2017.09.039 10.1016/j.pharmthera.2020.107707 10.1038/jid.2011.2 10.1089/ten.TEC.2021.0069 10.1111/imm.13152 10.1016/0092‐8674(90)90073‐n 10.1111/j.1600‐0749.2003.00126.x 10.3390/mi12070816 10.1093/icb/icab094 10.1111/pcmr.12393 10.3390/ijms22094466 10.1038/ncomms8506 10.1016/j.jid.2017.09.042 10.1038/jid.2013.432 10.1111/joa.12942
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Snippet	The skin acts as a barrier to environmental insults and provides many vital functions. One of these is to shield DNA from harmful ultraviolet radiation, which... Abstract The skin acts as a barrier to environmental insults and provides many vital functions. One of these is to shield DNA from harmful ultraviolet...
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SubjectTerms	3D models Aging Animal models Biopsy Crosstalk Deoxyribonucleic acid Dispersion DNA DNA damage Epidermis Exocytosis Fibroblasts Histology Immunohistochemistry Keratinocytes Melanin melanin transfer Melanocytes Phagocytosis Pigmentation Skin cancer Skin pigmentation Transmission electron microscopy Ultraviolet radiation
Title	Reconstructed human pigmented skin/epidermis models achieve epidermal pigmentation through melanocore transfer
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